Effects of Thermal Cycling on the Mechanical Strength of TPU 3D-Printed Material

M. T. Espino, B. Tuazon, J. R. Dizon
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Abstract

Fused Deposition Modelling (FDM) is a three-dimensional (3D) printing technology known for its low-cost rapid manufacturing of parts. Nowadays, various industries such as automotive, aerospace, and maritime are using this technology to manufacture 3D-printed parts that have undergone high temperatures. The material used in this study is the Thermoplastic Polyurethane (TPU), which is the most commonly-used type of Thermoplastic Elastomer (TPE) in 3D printing. This material is a combination of substances from the qualities and characteristics of both thermoplastic and vulcanized thermoset rubber. TPU has excellent abrasion resistance, hardness, chemical, and thermal resistance properties. In addition, TPU is a great fit for making hoses, gaskets, and seals due to its oil and grease resistance properties. Due to the growing application of 3D-printed materials at elevated temperatures, this study aims to characterize the tensile strength of TPU 3D-printed materials when thermal cycled. The test results concluded that the tensile properties of TPU 3D-printed specimens were significantly influenced by the number of thermal cycles it was subjected to. The samples that underwent four thermal cycles exhibited the highest modulus of elasticity and stress at 200% strain. While samples which underwent 2, 8, and 16 thermal cycles resulted to a higher modulus of elasticity and tensile stress at 200% strain than the untreated specimen.
热循环对热塑性聚氨酯三维打印材料机械强度的影响
熔融沉积成型(FDM)是一种三维(3D)打印技术,以低成本快速制造零件而闻名。如今,汽车、航空航天和海事等各行各业都在使用这种技术制造经过高温处理的三维打印部件。本研究中使用的材料是热塑性聚氨酯(TPU),它是 3D 打印中最常用的一种热塑性弹性体(TPE)。这种材料综合了热塑性塑料和硫化热固性橡胶的品质和特性。热塑性聚氨酯具有出色的耐磨性、硬度、耐化学性和耐热性。此外,热塑性聚氨酯还具有耐油和耐油脂的特性,非常适合制作软管、垫圈和密封件。由于三维打印材料在高温下的应用越来越广泛,本研究旨在表征热循环时 TPU 三维打印材料的拉伸强度。测试结果表明,热循环次数对 TPU 3D 打印试样的拉伸性能有显著影响。经过四次热循环的试样在 200% 应变时表现出最高的弹性模量和应力。而经过 2、8 和 16 次热循环的试样在 200% 应变时的弹性模量和拉伸应力均高于未经处理的试样。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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