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引用次数: 0
摘要
聚合物材料在汽车、航空航天和电气工业等关键行业受到越来越多的关注。人们期望聚合物材料具有较长的使用寿命和可持续的回收利用,而现代材料工程技术则为实现这一目标提供了可能。为此,找到合适的材料以及测试所需功能的适当方法至关重要。拉伸试验是一项重要的机械加载试验。尽管 ISO 527-1:2019 标准使用了不同的拉伸试样几何形状,但都没有考虑注塑成型部件可能存在的厚度变化。如果厚度减小到 1 毫米,固体层将占主导地位,这就使得拉伸试样的性能取决于工艺而非材料。在当今的行业中,考虑到缩减效应,必须同时研究材料和加工技术的细节。
Effect of Processing Parameters and Wall Thickness on the Strength of Injection Molded Products
Polymer materials are getting more and more attention in key industries like the automotive, aerospace, and electrical industries. A long lifetime with sustainable recycling is expected; great results are possible thanks to modern material engineering. Finding a suitable material for the purpose and the appropriate methods to test the required functionality is essential. An important mechanical loading tests is the tensile test. Although the ISO 527-1:2019 standard uses different tensile specimen geometries, none of those consider the possible thickness variations of the injection molded parts. If thickness is reduced to 1 mm, the solid layer will be dominant, which makes the properties of the tensile specimen process-dependent instead of material-dependent. In today's industry, it is crucial to examine both the material and the details of the processing technology together, given the downsizing effect.
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