SIMULTANEOUS EFFECT OF MECHANICAL TENSION ON ELECTRICAL LIFETIME OF SOME INORGANIC COMPOSITES

Y. LENGER OZCANLI; F. S. BOYDAG; V. A. ALEKBEROV; I. HIKMET; M. CANTURK

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SIMULTANEOUS EFFECT OF MECHANICAL TENSION ON ELECTRICAL LIFETIME OF SOME INORGANIC COMPOSITES

机译：机械张力对某些无机复合材料的电气寿命的同时影响

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In this work, the simultaneous effect of mechanical tension (σ) and electrical strength (E) on electrical lifetime (τE) for pure low density polyethylene (LDPE)/polypropylene (PP) and composites with different commercial diamond-additive/glass fiber additive percentages is experimentally studied. The role of this effect on degradation mechanisms is investigated. logτE,σ-f(E) and Eσ-f(σ) graphs are drawn, new equations are proposed and determined parameters at constant temperature for pure LDPE and PP, and for optimum composites (LDPE/0.5% diamond, PP/0.5% glass fiber) are listed. The results indicate that the degradation speed decreases more for composites than for pure LDPE and PP. The electrical durability for composites after the simultaneous effect of σ decreases 18–20%, while for pure LDPE and PP, it decreases 50–55%.

机译：在这项工作中，机械张力（σ）和电气强度（E）对纯低密度聚乙烯（LDPE）/聚丙烯（PP）以及具有不同市售金刚石添加剂/玻璃纤维添加剂的复合材料的电气寿命（τE）的同时影响百分比是通过实验研究的。研究了这种作用对降解机理的作用。绘制logτE，σ-f（E）和Eσ-f（σ）曲线图，提出了新的方程，并确定了纯LDPE和PP以及最佳复合材料（LDPE / 0.5％金刚石，PP / 0.5％玻璃纤维）。结果表明，与纯LDPE和PP相比，复合材料的降解速度降低更多。在同时受到σ影响的情况下，复合材料的电气耐久性降低18–20％，而纯LDPE和PP的电气耐久性降低50–55％。

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来源
《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2007年第21期|共10页
作者
Y. LENGER OZCANLI; F. S. BOYDAG; V. A. ALEKBEROV; I. HIKMET; M. CANTURK;
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正文语种 eng
中图分类应用物理学;
关键词
Inorganic composites; electrical properties; activation energy; degradation speed;

机译：无机复合材料;电性能;活化能;降解速度;

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SIMULTANEOUS EFFECT OF MECHANICAL TENSION ON ELECTRICAL LIFETIME OF SOME INORGANIC COMPOSITES

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