PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
PLA (Poly-Lactic Acid) is a general-use bio performance thermoplastic for open-environment 3D printing. Derived from renewable sources, such as corn, cassava, sugarcane, cereals, or sugar beet, PLA thermoplastic is biodegradable under the right conditions, giving it a reduced environmental impact.
PLA is an easy to use 3D printer filament in comparison to other polymers that can be printed using low-to-moderate temperatures with a higher throughput on FFF 3D printers. Its mechanical properties, as well as other final properties, are widely variable depending on the 3D printing conditions such as extruder temperature, extrusion speed, cooling system, etc. Compared to other polymers used for 3D printing, PLA demonstrates much less warping and shrinkage. For this reason it’s possible to successfully print in an open environment without a dedicated cooling system. For applications at higher humidity (above 98%) and higher temperatures (above 60°C) other polymers, such as BigRep’s Pro HT and PETG, are recommended.
Filaments should remain sealed when being stored long term in order to prevent absorption of moisture from the air. High moisture content may harm the quality of the extrusion, leading to the clogging of the nozzles, as well as bubbles and spurting.
BigRep PLA is FDA compliant for food safety and meets the requirements of EU Directives on food contact.
PLA can be printed at low to moderate temperatures and high speeds, and compared to other polymers used for 3D printing, the filament demonstrates minimal warping. Optimized for BigRep large-scale 3D printers, BigRep PLA enables successful prints without a special cooling system.
The mechanical behavior of BigRep PLA is suitable for most applications, though for applications requiring suitability with higher humidity (above 98%) and higher temperatures (above 60°C) other polymers should be used, such as PRO HT and PETG.
Filament Net Weight: | 2.5 / 4.5 / 8.0 Kg |
Material: | Polylactic Acid (PLA) |
Density: | 1.24 g / cm³ |
Diameter: | 2.85 mm |
Print Temperature Guideline: | 205 ° C |
Heating Bed: | 60 ° C |
VST (ISO 306 VST A 120): | 60 ° C |
Tensile Strength (ISO 527): | 60 MPa |
Impact Strength (ISO 179): | 7.5 KJ / m2 |
Flexural Modulus (ISO 178): | 3800 MPa |
Hardness (Shore): |
D 60
|
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