采用粉末冶金方法研制出金属陶瓷导板。
A Copper-Tungsten ceramel guide has been developed by the powder metallurgy.
未装配的工具用金属陶瓷板、杆、刀头及类似品。
Plates, sticks, tips and the like for tools, unmounted, of cermets.
金属陶瓷复合材料是一种新兴的高性能材料。
The metal matrix composite (MMC) is a new material with high properties.
研究了粉末相组成对金属陶瓷组织及性能的影响。
Effe CTS of phase composition of powders on the microstructure and properties were studied.
着重介绍了国内对金属陶瓷惰性阳极材料的研究现状。
The current researches of metal inert anode in China are presented primarily.
本发明涉及一种新型金属陶瓷复合材料及其制备方法。
The invention relates to a novel metal ceramic composite material and a preparation method thereof.
本发明具体涉及一种金属陶瓷复合辊环及其制备方法。
The invention in particular relates to a metal ceramic composite roll collar and a preparation method thereof.
着重介绍了国内对金属陶瓷惰性阳极材料的研究现状。
Research of Cermet Inert Anode Materials for Aluminum Electrolysis;
其中金属陶瓷、金属合金和梯度材料是当前研究的重点。
Currently the cermets, alloys and functional grade materials (FGMs) are focus of researches.
随着金属陶瓷中金属相含量的增加,裂纹扩展速率降低。
The propagation rate of crack also decreases with increasing the binder content of cermets.
矫顽磁力不能作为评价金属陶瓷硬质相颗粒大小的判据。
The coercive force can't be used as a criterion to estimate the grain size in the alloys.
本文还研究了纳米改性金属陶瓷刀具的切削性能和磨损机理。
Next, the cutting characteristics and wearing mechanism of cermets cutters with nano-TiN modifications are discussed in detail.
装甲身体是基于“金属陶瓷与蜂窝填料三明治”的一种技术。
The armored body is based on a "metal-ceramic sandwich with cellular filler" technology.
利用燃烧合成技术,在碳钢表面上制备了金属陶瓷复合涂层。
The compound coating of metal and ceramics is prepared on the surface of carbon steel by combustion synthesis technology.
研究了金属陶瓷热冲击疲劳特性,重点探讨了裂纹的形成机制。
The thermal shock fatigue character of cermets has been studied and the formative mechanism of crack discussed in detail.
对金属陶瓷刀具高速干切削45钢时的磨损情况进行了试验和分析。
The test and analysis for wear of cermet cutter during high-speed dry cutting 45 steel are carried out.
原料方面,美奢锐金属陶瓷所采用的原料在四川省有着丰富的储藏。
About the raw material, the raw materials demanded by our metal ceramic are richly reserved in Sichuan province.
本发明涉及金属陶瓷复合材料的新制备方法及由该方法生产的产品。
This invention is related to new fabrication method of ceramal composite material and product.
介绍了稀土对金属陶瓷涂层微观组织改性作用的研究现状和应用进展。
The research status of surface modification on cermet coating microstructure by rare earths and its application development were introduced.
对碳钢表面金属陶瓷涂层的配方、涂敷工艺、热处理工艺等进行了研究。
The formulations, application process and heat treatment process, etc of metal ceramic coatings on carbon steel surface are researched.
研究了干式高速车铣d 60钢时金属陶瓷刀具的磨损机理和磨损特性。
A research is made on the Wearing mechanism and features of ceramic tool in high speed dry turning and milling of steel D60.
在大量科学试验基础上,提出一种金属表面形成金属陶瓷的新工艺方法。
A new process method used for producing metallic ceramic coatings on metals was proposed based on a lot of scientific experiments.
同时还介绍了铸造铝合金-金属陶瓷复合材料的试验情况及发展前景。
Meanwhile the paper also presents the experimental information and developing prospects of the cast aluminium alloy-ceramic metal compound material.
本发明使用的电解阳极材料优选为石墨或金属陶瓷、金属合金等惰性电极。
Electrolyzing anode material used in the invention is inert electrode such as graphite or cermet or metal alloy preferably.
硬质相颗粒的脱落是干式高速车铣D60钢时金属陶瓷刀具磨损的主要原因。
The main reason of ceramic tool Wearing is coming off the hard grain during the dry cutting of steel D60.
在真空烧结炉中通过原位反应液相烧结工艺制备出三元硼化物基金属陶瓷覆层。
Ternary boride based cermet cladding material was prepared by in situ reaction and liquid phase sintering technology in vacuum furnace.
采用真空液相烧结法,在Q 235钢表面制备三元硼化物基金属陶瓷覆层材料。
A ternary boride cermet clad material was fabricated on the Q235 steel substrate by means of the vacuum liquid phase sintering technique.
介绍了金属陶瓷复合材料用陶瓷粉的制备方法。陶瓷粉体通过凝胶溶胶形式制备。
The preparation of ceramics powder used in ceramics-metal composites was introduced. Ceramics powder was prepared by the method of sol-gel.
结果表明,金属陶瓷涂层具有更均匀的显微组织和高的硬度,没有孔洞及裂纹产生。
The results show that a more uniform microstructure and higher hardness were obtained in the ceramal layer, and there are no porosities and cracks in it.
结果表明,金属陶瓷涂层具有更均匀的显微组织和高的硬度,没有孔洞及裂纹产生。
The results show that a more uniform microstructure and higher hardness were obtained in the ceramal layer, and there are no porosities and cracks in it.
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