Diamond grinding wheels are widely used as grinding tools in manufacturing of hard and brittle materials, such as hard alloy, engineering ceramics, optical glass, semiconductor materials, and granite.
金刚石砂轮广泛用作硬质合金、工程陶瓷、光学玻璃、半导体材料、花岗岩等硬脆难加工材料的磨削工具。
Electrical, optical, magnetic, and mechanical properties of metals, semiconductors, ceramics, and polymers.
金属、半导体、陶瓷和聚合物的电性、光学性、磁性和机械特性。
Suggested Applications: Applied to manufacturing resin bond grinding wheels, coated diamond products; grinding and polishing optical glass, ceramics and medium toughness stone, etc.
建议用途:适用于树脂结合剂砂轮、电镀产品,加工光学玻璃、陶瓷、中等硬度石材等的研磨抛光。
Recommended Applications: PCD, metal bonded products, ceramic bonded products, electroplated diamond products; optical glass, fine ceramics and gem stone grinding and polishing.
适用范围:适用于PCD、金属结合剂、陶瓷结合剂、电镀产品,用于光学玻璃、精细陶瓷、宝石等产品的研磨抛光。
Recommended Applications: Resin bonded grinding wheels, electroplated products; grinding and polishing optical glass, ceramics and medium toughness stone, etc.
适用范围:适用于树脂结合剂砂轮、电镀产品,加工光学玻璃、陶瓷、中等硬度石材等的研磨抛光。
Recommended Applications: Wafer, Optical glass and ceramics lapping, grinding and polishing.
适用范围:适用于硅化、光学玻璃、陶瓷等材料的切割、研磨和抛光。
The use of piezoelectric ceramics to force into electrical energy conversion features, you can create a piezoelectric igniter, mobile X optical power, shells detonating device.
利用压电陶瓷将外力转换成电能的特性,可以制造出压电点火器、移动X光电源、炮弹引爆装置。
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。
Application: Mainly used as in piezoelectric ceramics, domestic ceramics, refractory, electron and optical glass industry.
用途:主要用于压电陶瓷制品,日用陶瓷、耐火材料、电子行业、光学玻璃等。
The phase compositions and characteristics of glass-ceramics products were determined by the comprehensive methods such as optical microscopy, X-ray diffraction, physical and chemical properties test.
通过光学显微分析、X射线衍射分析、物理化学性能测试等手段确定了微晶玻璃的物相组成及性能特征。
The phase compositions and characteristics of glass-ceramics products were determined by the comprehensive methods such as optical microscopy, X-ray diffraction, physical and chemical properties test.
通过光学显微分析、X射线衍射分析、物理化学性能测试等手段确定了微晶玻璃的物相组成及性能特征。
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