1. The shape, distribution and density of etch pits on the (101) face was observed by metalloscope after chemical etching.
单晶,通过化学腐蚀和金相显微镜研究了(101)晶面蚀坑的形貌、分布特征及其密度的大小。

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2. The hardening layer was analyzed by metalloscope, microhardness, electronic probe and transmission electron microscopy.
用金相显微镜、显微硬度计、电子探针和透射电镜对硬化层进行分析。

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3. The change of martensite content of AISI304 stainless steels in corrosion solution was also studied by means of immersion test and metalloscope.
通过浸泡试验和金相显微镜研究了304不锈钢在腐蚀过程中马氏体含量的变化。

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4. A series of examinations and analysis have been made on the ruptured samples of the SWRH72A wire rod by way of optical metalloscope and scanning electron microscope (SEM).
用光学金相显微镜和扫描电子显微镜对SWRH72A盘条拉拔断裂试样进行一系列检验分析。

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5. Introduced the working principle of computer-metalloscope, compares it with conventional metallographic examination, and discuss the application of computer in metallographic examination.
介绍了计算机—金相显微镜系统的工作原理,同传统金相检测进行对比,论述了计算机在金相技术中的应用。

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6. In the present paper, both the process and new grain boundary of austenite recrystallized of 300m ultra high strength steel have been Oserved in-situ by means of high-temperature metalloscope and tem.
运用高温金相和TEM方法,对超高强度钢300m的奥氏体相变再结晶过程和新晶界进行了定位观察。

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7. In the present paper, both the process and new grain boundary of austenite recrystallized of 300m ultra high strength steel have been Oserved in-situ by means of high-temperature metalloscope and tem.
运用高温金相和TEM方法,对超高强度钢300m的奥氏体相变再结晶过程和新晶界进行了定位观察。

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