VESTOSINT® 3D Z2773

About
Evonik has developed and produced special plastic materials, which allow for the industrial production of high-tech components in using 3D printing technologies for years. Polyamide 12-based powders VESTOSINT® convince with their high quality and processing capabilities, and the property profile of each powder is perfectly matched to the respective 3D printing technology. Due to their mechanical properties and chemical resistance as well as the high melting point of finished products, PA12 powders are particularly suitable for use in powder-based 3D printing processes. CUSTOM POLYMER POWDER CERTIFIED FOR HP JET FUSION 3D PRINTERS VESTOSINT® is a modified polyamide-based powder that is produced at Evonik’s Marl site in Germany using the company’s own special process. The powders are certified for HP Jet Fusion 3D printer.&&

About

Evonik has developed and produced special plastic materials, which allow for the industrial production of high-tech components in using 3D printing technologies for years. Polyamide 12-based powders VESTOSINT® convince with their high quality and processing capabilities, and the property profile of each powder is perfectly matched to the respective 3D printing technology. Due to their mechanical properties and chemical resistance as well as the high melting point of finished products, PA12 powders are particularly suitable for use in powder-based 3D printing processes. CUSTOM POLYMER POWDER CERTIFIED FOR HP JET FUSION 3D PRINTERS VESTOSINT® is a modified polyamide-based powder that is produced at Evonik’s Marl site in Germany using the company’s own special process. The powders are certified for HP Jet Fusion 3D printer.&&

Product Description
Supplier	Evonik
Generic	PA12
Material Status	Commercial: Active
Features	Solvent resistance
Availabilitys	North America,Europe
Process Methods	180320

Technical Data
PHYSICAL	Nominal value	Unit	Test method
Apparent density	0.46	g/cm³	ISO 60
Particle size
d10	26.0	µm
d50	57.0	µm
d90	83.0	µm

MECHANICAL	Nominal value	Unit
Tensile modulus
XY direction	1700	MPa
ZX direction	1800	MPa
tensile strength
XY direction, fracture	48.0	MPa
ZX direction, fracture	48.0	MPa
Tensile strain
XY direction, fracture	20	%
ZX direction, fracture	15	%

THERMAL	Nominal value	Unit	Test method
Melting temperature
DSC	187	℃	ISO 11357

Notes
1. Typical properties: these are not to be construed as specifications.
2. Type V
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