The 3D filament Kimya PLA-R is a recycled and biodegradable polymer: this biosourced homopolymer can be obtained from corn starch. Polylactic acid (PLA) is a natural alternative to polyethylene. It...
Kimya PETG-R ("R for recycled") 3D filament is formulated based on industrial waste from a luxury and medical packaging company. Recycled, but equally powerful, it has similar technical properties to the...
Kimya PETG-R ("R for recycled") 3D filament is formulated based on industrial waste from a luxury and medical packaging company. Recycled, but equally powerful, it has similar technical properties to the...
The 3D filament Kimya PETG-S is produced via copolymerization with PET. Polyethylene terephtalate glycol (PETG) is a saturated polyester polymer. It offers a perfect balance between flexibility and mechanical resistance...
The 3D filament Kimya PETG-S is produced via copolymerization with PET. Polyethylene terephtalate glycol (PETG) is a saturated polyester polymer. It offers a perfect balance between flexibility and mechanical resistance...
The 3D filament Kimya PLA-R is a recycled and biodegradable polymer: this biosourced homopolymer can be obtained from corn starch. Polylactic acid (PLA) is a natural alternative to polyethylene. It...
The Kimya PLA-HI 3D filament is a biosourced polymer obtained from corn starch. Polylactic Acid -HI (PLA-HI) is aHigh Impact‚� filament offering increased impact resistance: it was formulated to be...
The Kimya PLA-HI 3D filament is a biosourced polymer obtained from corn starch. Polylactic Acid -HI (PLA-HI) is aHigh Impact‚� filament offering increased impact resistance: it was formulated to be...
The Kimya PLA-HI 3D filament is a biosourced polymer obtained from corn starch. Polylactic Acid -HI (PLA-HI) is aHigh Impact‚� filament offering increased impact resistance: it was formulated to be...