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boride

英音[ ˈbɔːraɪd ] 美音[ ˈbɔːrˌaɪd ]

硼化物

常用释义

词性释义

n.

[无化] 硼化物

例句

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硼化物

The ternary boride base cermets have exhibited good mechanical properties and excellent wear and corrosion resistance.

指出三元硼化物基金属陶瓷具有良好的机械性能和杰出的耐磨、耐蚀等性能；

The reaction sintering process and production process of ternary boride base cermet produced by reaction sintering method were introduced.

介绍了用反应烧结法制备三元硼化物基金属陶瓷的反应烧结过程及一般制备工艺过程；

The results show that heat treating structure is high- tenacity low-carbon martensitic matrix and high-hardness eutectic boride.

结果表明，淬火热处理组织为高韧性低碳马氏体基体+高硬度共晶硼化物相。

The boride layers on different carbon steels have been extracted by etching in 18% HCl water solution and observed under SEM.

采用盐酸溶液腐蚀方法直接举取不同碳钢表面的硼化物层，在扫描电镜下观察其立体形貌。

Boron and boride have been widely applied to modern industry.

硼及其硼化物在现代工业中有着广阔的应用前景。

The preparation of ternary boride hard alloy cladding layer on steel substrate is studied.

研究采用铸渗法制备三元硼化物硬质合金覆层钢基材料。

The aluminum-base composite material contains Al -Mg-Cu alloy, reinforcing titanium boride phase and reinforcing trialuminum titanize phase.

一种铝基复合材料，该材料含有铝、镁、铜合金和硼化钛增强相，其中，该复合材料还含有钛化三铝增强相。

The growth of boride is not uniform, but by "step by step" mode, because of some wave-like pattern existing on sides of boride teeth.

硼齿侧面存在波纹状形态，表明其生长过程是不均衡的，呈“步进”方式长大。

A Comparative Study of the Electronic Structure of Two Boride Superconductors at High Pressure

两种一硼化物超导体在高压下的电子结构研究

Fabrication Ternary Boride Based Wear Resistance Cladding Material Using Reaction Sintering Technology

反应硼化烧结法制备三元硼化物基耐磨覆层材料

Production and Properties's Study of the ternary-boride based cermet

三元硼化物基金属陶瓷的制备及性能研究

Fabrication of the Boride Coating and Its Anti-corrosion Property in Zinc Melt

渗硼层的制备及其在锌液中的耐蚀性

Technology of Optimizing Construction Technics for Boride - Neutron Lifetime Logging

硼-中子寿命测井施工工艺优化技术

Microstructure and Properties of Ternary Boride Based Metal Cermets Coating Prepared by Vacuum Powder Sintering

真空粉末烧结三元硼化物基金属陶瓷覆层的组织与性能

Manufacturing Ternary Boride Carbide Alloy Clad Material with Liquid Sintering Technology

真空液相烧结法制备三元硼化物硬质合金覆层材料

Comparison of Burning Behavior between Boride and Ammonium Phosphate Treated Plantation Wood

硼化物及磷酸盐处理人工林木材的燃烧性能比较

Influence of Alloy Ingredient on Mechanical Property of Ternary Boride Based Cermet Cladding Materials

合金组分对金属陶瓷覆层材料性能影响的研究

Effect of Decreasing the Eigen-Brittleness of Boride Layer on Its Abrasion Wear Behavior

降低渗硼层本质脆性对其磨粒磨损特性的影响

Ternary Boride Base Cermets Composite and Its Liquid-phose Sintering Mechanism

三元硼化物基金属陶瓷复合材料及其液相烧结机理

Research on the in-situ synthesized boride high temperature ceramics coatings

原位合成的硼化物类高温陶瓷涂层的研究

Study on the Ternary Boride Hard Alloy -steel Cladding Material by Cast -sintering Technique

铸造烧结三元硼化物硬质合金-钢覆层材料

Microstructural analysis of boride ceramics for steel coating

钢用硬质覆层材料的显微结构分析

Development of Wear Resistance of Powder Metallurgy High-speed Steel Reinforced By Ternary-boride Based Cermet

三元硼化物强化粉末高速钢的摩擦磨损特性研究

Study on Corrosion Resistance of Ternary Boride Cermet Clad Materials

三元硼化物金属陶瓷覆层材料耐腐蚀性能研究

A New Type Steel Cladding Material - Ternary Boride Base Cermet Cladding Material

一种新型钢材覆层材料-三元硼化物基金属陶瓷覆层材料

Characterization of Boride Ceramic Powders Prepared by SHS

SHS法制备硼化物陶瓷粉体的表征分析

The Properties of Ternary Boride Based Cermet Cladding Material

三元硼化物基金属陶瓷覆层性能的研究

Liquid Sintering and Application of Ternary-Boride Based Cermet

三元硼化物基金属陶瓷的液相烧结及其应用

Burning Behaviour of Plantation Grown Wood Treated with Boride

硼化物处理人工林木材的燃烧性能

Synthesis and analysis of boride ceramic powders

硼化物陶瓷粉末的合成与分析

1·The microstructure and mechanical properties of a new type wear-resistant white cast iron with the boride as wear-resistant phase were investigated.

研究以硼化物为耐磨相的新型耐磨白口铸铁的组织特点与力学性能。

2·New type cemented carbide of ternary complex boride base prepared by reaction boronizing sintering technique has excellent physical, chemical and mechanical properties.

反应硼化烧结法制备的三元复合硼化物基新型硬质合金，具有优良的物理、化学、力学性能。

3·Microstructures of carbide and boride reinforced respectively titanium alloy matrix composites by different fabrication methods were reviewed.

论述了不同制备方法中分别以碳化物和硼化物为增强相的钛基复合材料的微观组织。