不同热循环行为对富含玄武岩纤维的环氧复合材料热吸附/力学特性的影响

P. Karthikeyan, L. Prabhu, B. Bhuvaneswari, K. Yokesvaran, A. Jerin, R. Saravanan, S. Raghuvaran, Kassu Negash, Shubham Sharma
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引用次数: 3

摘要

接触具有独特热机械特性的先进材料已经满足了汽车,船舶和结构行业的要求。在2 bar的压力下,通过树脂成型技术研究了玄武岩纤维富集环氧复合材料的热吸附和力学性能。疏水和动态分析仪测试开发的复合材料在18°C至150°C的10、30、50、70、90和110个热循环下的吸附储存和损失模量。ASTM测试标准评估了热循环过程对机械性能的影响。经90次热循环后,该复合材料的吸附储存模量、弹性、抗拉强度和抗弯强度分别达到9200 GPa、80 GPa、229 MPa和398 MPa。与10次热循环相比,在150°C下90次热循环时,热吸附损失模量限制在12%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influences of Various Thermal Cyclic Behaviours on Thermo Adsorption/Mechanical Characteristics of Epoxy Composite Enriched with Basalt Fiber
Exposure to advanced materials with unique thermomechanical characteristics has fulfilled the requirements of automotive, marine, and structural industries. The current research investigates the thermal adsorption and mechanical properties of epoxy composite enriched by basalt fiber via resin moulding technique with an applied pressure of 2 bar. Hydrophobic and dynamic analyzer tests developed composite’s adsorption storage and loss modulus with 10, 30, 50, 70, 90, and 110 thermal cycles under 18°C to 150°C. ASTM test standards evaluated the effect of the thermal cyclic process on mechanical properties. The composite contained 45 vol% basalt fiber with 90 thermal cycles and found higher adsorption storage modulus, elasticity, tensile strength, and flexural strength of 9200 GPa, 80 GPa, 229 MPa, and 398 MPa, respectively. The thermal adsorption loss modulus was limited by 12% on 90 thermal cycles at 150°C compared to 10 thermal cycles.
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