评述了具有弱界面结构的可加工陶瓷的研究进展。
The research progress in machinable ceramics with weak interfaces in microstructure was reviewed in this paper.
根据模糊数学理论提出一种可加工陶瓷材料可加工性的综合评判方法。
How to make a comprehensive evaluation of the machinability for processible ceramic materials is put forward according to fuzzy mathematics.
为了客观评价陶瓷材料的可加工性,建立了可加工陶瓷材料可加工性评价的数据包络分析模型。
In order to evaluate machinability of ceramics materials objectively, data envelopment analysis (DEA) model for machinability evaluation of machinable ceramic materials was established.
随着可加工陶瓷材料的研发与应用,可加工陶瓷材料的机械加工技术逐渐成为当今的研究热点之一。
With the research and application of machinable ceramics, machining technologies of machinable ceramic have gradually been one of investigated focuses nowadays.
由于具有比工程塑料更高的尺寸稳定性,这种可加工陶瓷材料在用于制造元器件及用于制作技术陶瓷样品方面十分有效。
Providing better dimensional stability than engineering plastics, machinable ceramics are effective for manufacturing components and for prototyping in advance of technical ceramics.
通过陶瓷自身显微结构设计来增强陶瓷材料的可加工性是解决陶瓷难加工问题的关键。
Improving machinability of engineering ceramic materials via microstructural design is the key to resolving the problem of difficult machining of ceramic materials.
结果表明:对材料的可加工性评价排序结果与试验结果吻合,该方法可用于陶瓷材料可加工性的评价。
The experimental results were in accordance with the rank of machinability evaluation of ceramics. This method can be used in machinability evaluation of ceramic materials.
金属及其合金表面进行陶瓷化可以改善金属基体的硬度低、耐磨耐蚀性差、可加工性差等不足,并且能保证原金属材料的使用性能。
The ceramic coatings on the surface of some metals can improve the shortcomings of low microhardness, poorly corrosion and wear resistance, in the same time maintain the property of the metals.
研究了一种新型的钙云母为主相高强度的可切削玻璃陶瓷的力学性能、可加工性、表面耐腐蚀性、耐磨耗性。
Mechanical strength, machinability, surface corrosive and wear abrasion of a new type glass ceramic composed of fluorophlgopite Ca-mice were studied in this article.
在光学显微镜下考察了不同热处理制度下可加工微晶玻璃陶瓷的组织和结构。
Microstructure of machinable glass-ceramics prepared in different processes of heat treatment was investigated by optical microscope.
该设备针对陶瓷、石材进行深加工的设备,该机器可加工楼梯踏步、地脚线、45度斜边等。
The equipment for the ceramic, stone deep processing equipment, the machine can process staircase, foot line, 45-degree bevel and so on.
这种陶瓷材料可加工成灯状、管状和板状加热元件,并可用于溶炉表面作涂层。
The ceramics have been employed to manufacture lamps, tubes and plate heating elements, as well as coatings for use on the surface of furnace.
通过对含稀土磷酸盐的氧化物复合陶瓷材料的可加工性等级分析,证明该方法是可行的。
This method has been used to analyze the machinability ranks for the compound oxide ceramics containing lanthanide pho...
通过对含稀土磷酸盐的氧化物复合陶瓷材料的可加工性等级分析,证明该方法是可行的。
This method has been used to analyze the machinability ranks for the compound oxide ceramics containing lanthanide pho...
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