ESTANE® 3D M95A TPU的耐温性能
ESTANE M95TPU是一种多用途的3D打印弹性材料,因为它具有广泛的材料特性,可以在众多行业中使用。 该材料的耐温性能有助于拓宽适用行业和应用范围,并使 ESTANE M95A树脂从众多竞争对手中脱颖而出。
优异的耐低温性能是许多TPU所固有的,但基于ESTANE M95A聚合物的3D打印弹性体材料还具有优异的耐热性能。
为什么耐温性能很重要
寒冷气候条件下的应用
From outdoor athletic gear to components for inside large industrial freezers, parts made with ESTANE® M95A TPU can maintain their flexibility and performance even at sub-zero temperatures, allowing for performance even within cold conditions.
To validate this, Lubrizol subjected ESTANE® M95A test specimens to the Ross Flex test. 结果表明,在室温(23ºC)和低温(6ºC)条件下,在第150,000次弯曲至60度时,基于ESTANE M95A材料的打印零件均未出现明显裂纹。
卓越的耐热性能
Many industries, specifically those operating in industrial settings, can benefit from the use of ESTANE® M95A TPU and its ability to withstand high temperature environments.
Currently, parts printed from ESTANE® M95A material are being used for numerous industrial components, including as robotic grippers to remove extremely hot plastic parts from industrial injection molding equipment. Without the material’s high temperature performance, these robotic grippers would fail, melt, and potentially leave TPU residue on the injection molded parts. 卓越的耐热性能可延长零件的使用寿命,从而降低生产注塑机的停机时间。
为了验证ESTANE M95A TPU的耐热性能,路博润进行了短期和长期温度暴露测试。虽然材料的机械性能有所损失,但3D打印零件的形状和完整性并未受到影响。测试结果如下所示:
暴露于80°C~120°C高温240小时后的性能
*最多100个° 性能几乎没有下降 即使在120°C下,降幅也只有约10%。
高温暴露测试:150°C~ 200°C
在180°C°和200°C,PA12打印零件在1小时内熔化。
如需了解ESTANE M95A材料的耐热性能如何满足您的业务需求,请立即联系路博润代表。