另外研究发现高温回火并不是引起零件表面脱碳的主要原因。
部件上有密布(稀疏但附着力很强)鳞片和脱碳痕迹,至少在部分区域如此。
对RH精炼工艺的钢液循环流动、脱碳、脱气的原理以及影响因素进行了分析。
根据邢钢线材表面脱碳层深度统计数据的变化规律,对脱碳层深度的变化情况进行了研究。
钢铁产品.用非合金结构钢和特殊结构钢热处理.脱碳深度的测定
同AOD过程一样,采用过程质谱的好处在于能精确地判断脱碳的终点。
测定硬化和回火螺纹钢螺栓,螺钉和螺柱螺栓的脱碳和渗碳的试验方法
微波等离子体刻蚀对WC-Co硬质合金基体金刚石薄膜附着力的影响
1·Quenching crack propagation characteristics of the organizations on both sides without decarburization phenomenon significant difference between crack and materials and forging cracks.
淬火裂纹的组织特征是裂纹两侧无脱碳现象,明显区别与锻造裂纹和材料裂纹。
2·The fine carbon additive in feedstock powders not only increases the hardness of the coatings but also decreases the degree of decarburization.
喷涂粉末中加入细碳粉不仅有利于提高涂层的硬度,而且可减小涂层脱碳程度。
3·It analyzed main factors of arising spectrum analysis error which including specimen decarburization layer depth, surface roughness, describing, etc.
分析了引起光谱分析误差的主要因素,如试样脱碳层深度、表面粗糙度、描迹等。
4·The decarburization rate in bath was proportional to the intensity of oxygen supply and the utilization ratio of oxygen was enhanced with the oxygen pressure rising.
在高碳范围内熔池脱碳反应速度与供氧强度和氧气利用率成正比,而提高吹氧压力可以提高氧气利用率。
5·The decarburization rate in bath is proportional to the intensity of oxygen supply and the utilization ratio of oxygen depends on the oxygen pressure.
在高碳范围内熔池脱碳反应速度与供氧强度和氧气利用率成正比。而提高吹氧压力可以提高氧气利用率。