1) spherical ceramic particle
球形陶瓷颗粒
2) porcelain granule
陶瓷颗粒
1.
A process and formulation suitable for electroless nickel plating on porcelain granules is developed.
研制了一种适合陶瓷颗粒表面化学镀镍的酸性化学镀镍工艺和配方,重点分析了镀液成分、温度、pH值、施镀时间等工艺参数对镀层外观质量的影响。
2.
An alkaline solution suitable for electroless nickel plating on porcelain granule was developed, and an equipment suitable for processing granule material was also designed.
研制了一种适用于对陶瓷颗粒进行化学镀镍的碱性化学镀镍配方及工艺,并设计出适用于对颗粒材料进行化学镀的试验设备。
3) ceramic particle
陶瓷颗粒
1.
The developing situation of metal matrix composite reinforced by ceramic particle is introduced.
介绍了陶瓷颗粒增强金属基复合材料的进展状况,重点介绍了几种常用的制备方法,提出了一种新的制备工艺—块体分散法。
2.
In this paper, the fundamental principles and basic techniques about copper coating on the surface of TiB_2 and Ti_3SiC_2 ceramic particles by electroless plating were discussed.
用粉末冶金的方法制备了石墨-铜基复合材料、导电陶瓷颗粒/石墨-铜基复合材料和镀铜导电陶瓷颗粒/石墨-铜基复合材料。
3.
A method to prepare transmission electron microscopy(TEM) thin foil for analysis of ceramic particle was introduced.
本文介绍了一种对陶瓷颗粒进行透射电镜分析的样品制备方法。
4) ceramic particles
陶瓷颗粒
1.
Numerical analysis of moving and heating of ceramic particles in plasma jet spray tooling;
等离子体射流中陶瓷颗粒的运动与加热
2.
Four kinds of WC, ZrO_2, Cr_2O_3 and Al_2O_3 ceramic particles/nickel alloy composite coatings were prepared with the plasma spraying method.
采用等离子喷涂工艺,制备了WC、ZrO2、Cr2O3和Al2O3陶瓷颗粒/镍合金复合涂层。
3.
Four kinds of ceramic particles of WC,ZrO2,Cr2O3 and Al2O3 were used as an reinforced phase and the nickel alloy powder as a matrix, the erosive wear properties of four types of composite coatings fabricated with plasma spraying were experimentally studied with the wear test equipment.
以WC,ZrO2,Cr2O3和Al2O3陶瓷颗粒为增强相,镍合金粉末为基体,运用等离子喷涂技术制备四种陶瓷/镍合金复合涂层。
5) Ceramic wear debris
陶瓷颗粒
1.
Object To study the effect of adherent endotoxin of alumina ceramic wear debris on secretion of TNF-α cytokines by human monocytes in different time and concentration, searching after the role of endtoxin in artifical joint biological loosening.
目的 通过对粘附不同浓度内毒素的氧化铝陶瓷颗粒对人单核细胞分泌TNF-α不同时间的表达影响,探讨内毒素在人工关节生物性松动的作用。
6) TiC ceramic particle
TiC陶瓷颗粒
补充资料:颗粒补强陶瓷基复合材料
颗粒补强陶瓷基复合材料
particulate reinforced aluminium composites
颗粒增强铝复合材料partieulate reinforeed alu-minium Composites以一定尺寸的颗粒弥散强化铝或铝合金基体制成的复合材料。 增强体作为增强体的颖粒,其主要作用为增强金属基体和本身承受载荷,从而明显地提高材料的刚度、力学性能、抗磨性能和降低热膨胀系数。所选用的陶瓷粒子颖粒,除具有高模量、高强度及良好的高温稳定性外,还必须考虑增强粒子与基体的相容性和化学稳定性。因为这是保证复合材料中二相之间界面状态良好从而有效地传递载荷的必要条件。一般情况下,根据基体合金的状态选择SIC、A12O3、TIC、TIBZ等陶瓷粒子作为增强体。他们的主要特征列于表1。颗粒可以为球形、多角形及片状等。 基体复合材料中的基体除在载荷条件下本身承载外,一个重要作用是将外界的载荷通过二相界面传输给增强颗粒。基体强度以及基体与颗粒间界面结合过弱,将无法使载荷有效传递。因此,在高温下复合材料的性能下降亦极为迅速,在软化的基体中增强效果将明显减少。增强铝肠粒的主要特征 密度(g/em3) E(GPa)UTS(GPa) a(X 10一6℃一l)Q自Q曰祖r上5,dl从J祖.1 .奋,-﹃b﹃b月任八jSICA12O3TICTIBZBoCSisN4BN3 .23 .944 .254 .52 .53 .22 .25 480 460 420 550 480 360100一5005 .46 .86 .53一60 .8 制备工艺颗粒增强铝复合材料是较成熟的一类金属基复合材料。制备工艺主要有粉末冶金法(见金属基复合材料粉末冶金法)和液相固化法(图1、图2)。由于SIC颖粒与铝基体之间的良好结合,有效地提高了铝及铝合金的弹性模量、抗拉强度、高温性能和耐磨性(表2)。70年代中期,SICP/AI复合材料也取得了令人瞩目的进展。目前世界上已建立一定规模的生产厂。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条