Red ABS 0.75kg. 2.85mm diameter and approximately 90m long ABS (Acrylonitrile Butadiene Styrene) the second most used 3D printing material. Ultrafuse ABS is strong, flexible with a high-temperature resistance. Due to the...
Description Ultrafuse® PET (previously Innofil3D PET, different name, same high-quality product!)is made from a premium, food approved PET (Polyethylene terephthalate). PET is widely used to produce food and beverage containers...
Description Ultrafuse® PET (previously Innofil3D PET, different name, same high-quality product!)is made from a premium, food approved PET (Polyethylene terephthalate). PET is widely used to produce food and beverage containers...
Red PLA 0.75kg. 2.85mm diameter and approximately 90m long PLA is Poly-Lactic-Acid, a biodegradable polymer with a low melting point. It is an easy material to print with and Ultrafuse...
Red PLA 0.75kg. 1.75mm diameter and approximately 90m long PLA is Poly-Lactic-Acid, a biodegradable polymer with a low melting point. It is an easy material to print with and Ultrafuse PLA...
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 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 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 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 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 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...
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