Microwave sintering is a very complex process.
微波烧结是一个非常复杂的过程。
The technology and property of nanometer cermet is studied with new microwave sintering technology.
采用微波烧结新技术研究了纳米金属陶瓷材料的烧结工艺与性能。
As a new method of ceramic material sintering, microwave sintering has been improved rapidly in recent years.
微波烧结作为一种陶瓷材料烧结的新方法,近年来得到飞速发展。
Microwave energy is a clean energy, and microwave sintering of magnetite concentrates is a new subject by microwave heating effect.
微波能是一种清洁型的新型能源,利用微波的热效应进行磁铁精矿微波烧结是一项全新的课题。
In experiment, microwave oven is used to simulate microwave sintering cavity, then temperature data are gained and model is established.
并通过试验,用微波炉模拟微波烧结腔体测得温度数据,建立模型。
Microwave Sintering, as a new aspect on the study of ZTA ceramics, improves the bending strength and the fracture toughness KIC of ZTA and the micro structure.
选用微波烧结新工艺,对ZTA陶瓷力学性能进行了研究,获得了较传统烧结工艺优良的陶瓷力学强度和断裂韧性。同时,新工艺改善了陶瓷体的显微结构。
Principles, characteristics and equipment of microwave sintering are introduced for ceramics. This paper introduced the coefficient of microwave sintering and its application technic.
介绍了微波烧结原理与特点、微波烧结设备与工艺参数以及微波烧结技术在陶瓷材料领域中的应用和所取得的研究成果。
After analyzing the feature of microwave sintering and the specialty of this system, we propose the computer two-stage structure to realize the reliable control of microwave sintering temperature.
本文在分析了微波烧结温度工作过程的特性和系统的特殊之处后,提出了计算机两级控制系统的结构对微波烧结温度进行了有效的控制。
It was found that simultaneous sintering and joining could be completed successfully by microwave.
结果表明,利用微波加热可以顺利实现陶瓷材料之间的同时烧结与连接。
To lower temperature sintering is desired for the fabrication of multiplayer microwave ceramics.
为满足多层微波元件低温烧结的需求,必须降低微波介质陶瓷的烧结温度。
The result indicates that the microwave plasma sintering can short the sintering time and improve the properties of CaZrO3 ceramics as compared with the routine methods.
结果表明,微波等离子体烧结技术与常规法相比,其烧结时间明显缩短,性能有所改善。
The result indicates that the microwave plasma sintering can short the sintering time and improve the properties of CaZrO3 ceramics as compared with the routine methods.
结果表明,微波等离子体烧结技术与常规法相比,其烧结时间明显缩短,性能有所改善。
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