Applications: annealing, hardening, forging, sintering, tempering of metals, heat treatment of glass and ceramics.
应用:退火,淬火,锻造,烧结,回火,玻璃和陶瓷的热处理。
The presence and size of such nanoparticles depend on the composition of substrate glass, implanted species, implantation parameters (energy and fluence), heat treatment and so on.
此纳米粒子的存在和尺寸大小与基底玻璃的成分、注入离子类型、注入参数(能量与剂量)和热处理等因素有关。
The influence of melting ambience, illumination time and heat treatment temperature on photosensitive of photoactive glass ceramic were studied. The samples were analyzed by XRD and SEM.
研究了熔制气氛、光照时间及热处理温度对铜光敏微晶玻璃光敏性的影响,利用XRD和SEM对样品进行了分析。
Microstructure of machinable glass-ceramics prepared in different processes of heat treatment was investigated by optical microscope.
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。
The main several preparations of cordierite-based glass ceramics are reviewed. And the properties control methods, such as component design, the heat treatment and the annealing are presented.
简要叙述了堇青石基微晶玻璃的主要制备方法。并以熔融法为主,对本系统微晶玻璃的性能控制工艺,如组成设计、热处理、退火工艺等进行了综述。
Objective: the purpose of this study was to learn the influence of heat treatment on fracture toughness of dental glass ceramic.
目的:探讨热处理过程对玻璃陶瓷断裂韧性的影响。
Compared with one-step crystallization heat treatment, the two-step crystallization heat treatment is helpful to improve the mechanical properties of glass-ceramics.
与一步法热处理相比,采用两步晶化热处理有利于提高微晶玻璃的力学性能。
Compared with one-step crystallization heat treatment, the two-step crystallization heat treatment is helpful to improve the mechanical properties of glass-ceramics.
与一步法热处理相比,采用两步晶化热处理有利于提高微晶玻璃的力学性能。
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