Electrical applications of titanium-based FGMs manufactured by progressive lamination

S. Watanabe, N. Hayashi, H. Takeuchi, Y. Uchida, D. Dykes, G. Touchard, M. Ieda
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引用次数: 8

Abstract

It is well known that titanium materials can be used as photocatalysers for the adsorption of nitrogen oxides (NOx). In Osaka, such materials are already being tested on the surfaces of pavements and building walls. They are also used in anti-bacteria tiles in operating theatres. In the field of electrical engineering, too, the high relative permittivity of titanium allows these materials to play an important role in two areas: firstly as field relaxation agents, and secondly as high-voltage insulators to enhance the performance capacity of machinery. To meet the strenuous demands that these electrical uses place on the materials, two recourses are available to material designers: either the development of new materials, or the control of electrical fields within existing ones. The authors of this paper have attempted to manufacture a material permitting the control of field forces by taking advantage of properties of functionally graded materials (FGMs). The basic idea behind this is to guard against damage to machinery by bringing about relaxation in those parts where field forces are too high and increasing forces in parts where they are too low. The FGMs described in this paper are combined from titanium oxide and Korean kaolin. They allow a graded change in relative permittivity between the two surfaces. The paper compares the relative permittivities of these FGMs with those of 15 kinds of uniform material. There is a concluding discussion on the field relaxation effect.
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渐进层压制造的钛基fgm的电气应用
众所周知,钛材料可以作为光催化剂用于吸附氮氧化物(NOx)。在大阪,这种材料已经在人行道表面和建筑墙壁上进行了测试。它们也用于手术室的抗菌瓷砖。在电气工程领域,钛的高相对介电常数使这些材料在两个领域发挥重要作用:首先是作为场松弛剂,其次是作为高压绝缘体,以提高机械的性能。为了满足这些电气用途对材料的苛刻要求,材料设计师有两种方法:要么开发新材料,要么在现有材料中控制电场。本文的作者试图利用功能梯度材料(fgm)的特性来制造一种允许控制电场的材料。这背后的基本思想是通过在场力过高的部分放松和在场力过低的部分增加力来防止对机械的损坏。本文描述了由氧化钛和韩国高岭土组合而成的fgm。它们允许两个表面之间相对介电常数的渐变变化。并与15种均匀材料的相对介电常数进行了比较。最后对场弛豫效应进行了结论性讨论。
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