ASA NATURAL
ASA filament. Manufactured in Spain and highly impact-resistant and UVA-UVB resistant. 100% Fabricado en España
ASA filament. Manufactured in Spain and highly impact-resistant and UVA-UVB resistant. 100% Fabricado en España
Tarjeta regalo de 25€ valida para todos los productos de nuestra tienda. Recibirás un código a tu correo electrónico que podrías regalar o utilizar en tus compras.
ASA filament. Manufactured in Spain and highly impact-resistant and UVA-UVB resistant. 100% Fabricado en España
The X-920 is a biodegradable material developed by Sakata 3D Filaments and obtained from the blend of polylactic acid (PLA) and a biodegradable copolyester. 100% Made in Spain
50 € Gift card for all the products of our store. You will receive the GIFT CODE to your email address.
100 € Gift card for all the products of our store. You will receive the GIFT CODE to your email address.
The X-920 is a biodegradable material developed by Sakata 3D Filaments and obtained from the blend of polylactic acid (PLA) and a biodegradable copolyester. 100%Made in Spain
The X-920 is a biodegradable material developed by Sakata 3D Filaments and obtained from the blend of polylactic acid (PLA) and a biodegradable copolyester. 100% Made in Spain
The X-920 is a biodegradable material developed by Sakata 3D Filaments and obtained from the blend of polylactic acid (PLA) and a biodegradable copolyester. 100% Made in Spain
The FleX-920 is a flexible filament developed by Sakata 3D Filaments, making it a unique product in the market. This material, 100% biodegradable and compostable, emerges as an alternative to TPU/TPE due to its...
The FleX-920 is a flexible filament developed by Sakata 3D Filaments, making it a unique product in the market. This material, 100% biodegradable and compostable, emerges as an alternative to TPU/TPE due to its...
The FleX-920 is a flexible filament developed by Sakata 3D Filaments, making it a unique product in the market. This material, 100% biodegradable and compostable, emerges as an alternative to TPU/TPE due to its...