Ultrasint PA6 LM black Datasheet

Polyamide 6

Supplied by BASF 3D Printing Solutions GmbH

Create your free Prospector account to view this complete product datasheet. A free account includes access to hundreds of thousands of detailed technical datasheets. Create Your Free Account

Product Description

Low melting BASF Polyamide 6-based powder for Laser Sintering

All Ultrasint PA6 grades have in common that they show high modulus, high strength and excellent thermal distortion stability. These properties ensure precise feature control, very good mechanical properties and simple surface reprocessing of 3D printed parts. Ultrasint PA6 LM black is a reinforced Polyamide 6 based material with a balanced mechanical and thermal property profile. Its lower melting temperature compared to other Ultrasint PA6 powders allows for a processing of the material on standard LS equipment. The processing temperature is at 175-185°C. The material is suitable to manufacture functional prototypes and small series parts, e.g. for industrial or automotive applications. It can fulfill the requirements of functional applications regarding high accuracy and mechanical strength as well as a high heat distortion temperature - properties, where existing 3D printing materials often show limitations.

Typical applications are:

Functional prototypes (i.e. in automotive industries)

High performance spare parts

Multi-purpose industrial goods

Durable and rigid jigs & fixtures

General

Material Status

Commercial: Active

Availability

Asia Pacific

Europe

North America

Features

Good Thermal Stability

High Strength

Uses

Additive Manufacturing (3D Printing)

Automotive Applications

Industrial Applications

Appearance

Black

Forms

Powder

Processing Method

3D Printing, Laser Sintering/Melting

Physical	Dry	Conditioned	Unit	Test Method
Density (Printed Part)		--	g/cm³	ISO 1183
Apparent (Bulk) Density		--	g/cm³	ISO 60
Melt Volume-Flow Rate (MVR) (240°C/2.16 kg)		--	cm³/10min	ISO 1133
Mean Particle Size - d50 ²		--	mil
Mechanical	Dry	Conditioned	Unit	Test Method
Tensile Modulus				ISO 527-2
X Orientation : 73°F			psi
Z Orientation : 73°F			psi
X Orientation : 176°F			psi
Z Orientation : 176°F			psi
Tensile Stress				ISO 527-2
X Orientation : 73°F			psi
Z Orientation : 73°F			psi
X Orientation : 176°F			psi
Z Orientation : 176°F			psi
Tensile Strain				ISO 527-2
X Orientation : Break, 73°F			%
Z Orientation : Break, 73°F			%
X Orientation : Break, 176°F			%
Z Orientation : Break, 176°F			%
Flexural Modulus				ISO 178
X Orientation			psi
Z Orientation			psi
Impact	Dry	Conditioned	Unit	Test Method
Charpy Notched Impact Strength				ISO 179
X Orientation			ft·lb/in²
Z Orientation			ft·lb/in²
Charpy Unnotched Impact Strength				ISO 179
X Orientation			ft·lb/in²
Z Orientation			ft·lb/in²
Notched Izod Impact Strength				ISO 180
X Orientation			ft·lb/in²
Z Orientation			ft·lb/in²
Unnotched Izod Impact Strength				ISO 180
X Orientation			ft·lb/in²
Z Orientation			ft·lb/in²
Thermal	Dry	Conditioned	Unit	Test Method
Heat Deflection Temperature
66 psi, Unannealed		--	°F	ISO 75-2/B
264 psi, Unannealed		--	°F	ISO 75-2/A
Vicat Softening Temperature
--		--	°F	ISO 306/B
--		--	°F	ISO 306/A
Melting Temperature³		--	°F	ISO 11357-3
Peak Crystallization Temperature³		--	°F	ISO 11357-3
Related Terminology
Dry	This supplier and product may also be known by these terms: ADVANC3D, Innofil3D, Innofil, PA6
Conditioned	This supplier and product may also be known by these terms: ADVANC3D, Innofil3D, Innofil, PA6
Generic Name
Dry	Generic Name may also be described by the following terms: PA6.
Conditioned	Generic Name may also be described by the following terms: PA6.
Features
Dry	Features may also be described by the following terms: High Strength, Good Thermal Stability.
Uses
Dry	Uses may also be described by the following terms: Additive Manufacturing, 3D Printing,3-D Printing, Automotive Applications, Automotive Sector.
Available Documents
Dry	Technical Datasheet (English)

Notes

¹Typical properties: these are not to be construed as specifications.

²Laser Diffraction

³20 K/min

UL and the UL logo are trademarks of UL LLC © 2021. All Rights Reserved.
The information presented here was acquired by UL from the producer of the product or material or original information provider. However, UL assumes no responsibility or liability for the accuracy of the information contained on this website and strongly encourages that upon final product or material selection information is validated with the manufacturer. This website provides links to other websites owned by third parties. The content of such third party sites is not within our control, and we cannot and will not take responsibility for the information or content.