材料科学
石墨
聚酯纤维
铜
电阻率和电导率
复合材料
掺杂剂
热导率
不饱和聚酯
热的
兴奋剂
冶金
热力学
光电子学
物理
工程类
电气工程
作者
Kemal Yaman,Mehmet Fatih Öktem
标识
DOI:10.12693/aphyspola.137.339
摘要
In this paper, mechanical, thermal, electrical, and physical properties of unsaturated polyester resin with dendritic-shaped copper(Cu)-graphite (Gr) fillers were experimentally investigated and correlations were proposed with several theoretical models.On the other hand, the Gr filler is added as a secondary filler to provide synergy and obtain better conductivities.For this purpose, 5 wt% Gr filler was added as a secondary filler while Cu was added with changing weight rates.In each experiment, the basic aim is to determine the effects of both filler size and concentration on the mechanical, thermal, and electrical characterizations of the composite mixture.It is observed that an increase in filler concentration causes an increase in thermal conductivities.On the contrary, the coefficient of thermal expansion and specific heat decrease with increasing filler content.The hybrid filler allows the positive synergistic effect on mechanical performance but restricts conductivity properties.The particle size also causes a minimal linear increase in thermal conductivity.Thermal analysis such as thermogravimetric analysis and differential scanning calorimetry show that the thermal stability increases with the filler concentration.On the other hand, the electrical conductivity increases with increasing filler particle size and concentration.Using this high conductive novel composite mixture as an electrode hard steel parts were engraved in an electric discharge machine.Regarding the experimental-theoretical correlation, the best agreement is achieved with the Maxwell model.
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