Z ULTRAT Plus is a highly resilient ABS based 3D printing filament. it's perfect for functional prototypes or 3D printing complex moving mechanisms in one go. No matter the purpose, objects created with Z ULTRAT Plus remain dependable thorough time. What"™s more, this 3D printing material is unaffected by high temperatures and impacts. Its exceptional resilience allows for demanding tests conducted in adverse environments. The filament is also suitable for creating durable end use parts for automotive industry and engineering purposes. Improved adhesion between layers reinforces 3D printed parts.
Combined with a water soluble Z SUPPORT Premium filament, Z ULTRAT Plus is a reliable solution for 3D printing intricate, hollow objects. Dissolvable support structures allow stacking batches of parts on top of each other. This feature provides a fitting solution for cost effective short run production. Based on ABS, the material can withstand post processing with acetone and mechanical treatment. Z ULTRAT Plus 3D printing material is securely locked in a cartridge to ensure the highest quality of every print.
HEATER VALVE. Prototype of a heater valve 3D printed with Z ULTRAT Plus. Improved durability allows for thorough testing in real conditions
Z ULTRAT Plus is exceptionally resistant to impacts and has improved interlayer adhesion when compared to standard ABS. The filament provides 3D printed end use parts with unyielding durability.
Z ULTRAT Plus filament is perfect for 3D printing small, complex working mechanisms and intricate prototypes due to its dimensional accuracy and superior surface quality.
Although Z ULTRAT Plus is based on ABS, its composition have been altered to allow simultaneous 3D printing with water soluble PVA based Z SUPPORT Premium filament.
|Filament Typ||Z-Ultrat Plus|
|Recomended Printing Temp Max||220 ºC|
|Recomended Printbed Temperature Max||80 ºC|
|Specific gravity||1,141 g/cm3 ISO 1183-3:2003|
|Tensile strength||32,02 MPa ISO 527:1998|
|Elongation at yield||3,41 % ISO 527:1998|
|Elongation at break||3,44 % ISO 527:1998|
|Flexural Strenght||51,7 % ISO 178:2011|
|Flexural Modulus||1510 ISO 178:2011|
|Impact Strength||7,71 KJ/m2 ISO 180:2004|
|Shore D Hardness||67 D ISO 868:1998|