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- low temperature glow plasma 低温辉光等离子
- Synthesis of Diamond Films at Low Temperature Via Glow Plasma Assisted Hot Filament Chemical Vapor Deposition 辉光等离子体辅助化学气相沉积低温合成金刚石薄膜的研究
- The food should be kept at low temperature. 这种食品应低温保存。
- For this reason, there has been increasing interest in APDs, especially atmospheric pressure glow discharge (APGD), in the global low temperature plasma fields. 正是这个原因,有关大气压产生稳定的非平衡等离子体的放电,特别是大气压辉光放电的研究,已经成为国内外低温等离子体领域的一个研究热点。
- Lead will fuse at quite a low temperature. 铅会在相当低的温度下熔化。
- Mo alloy layer is formed by double glow plasma alloying process. 然后作固溶处理,使金属间化合物溶于基体中;
- Lead fuses at a low temperature. 铅在低温下就熔化。
- Treats the tussah fabrics with low temperature plasma before dyeing. 应用低温等离子体对柞丝织物进行染色前处理。
- The low temperature froze my flowers. 低温把我的花冻死了。
- Lead will fuse at a relatively low temperature. 铅不需要太高温度即能溶化。
- The low temperature will freeze my flowers. 低温会把我的花冻死。
- It presents an advanced and effective approach to the prediction of properties of the double glow plasma carbonizing. 试验结果验证了性能预报神经网络模型的可靠性,为解决双辉离子渗碳性能预报问题提供了一条先进、合理的途径。
- At a low temperature, water turns into ice. 水在低温时就结成冰。
- High conversion of feed and yield of CO were obtained in abnormal glow plasma reaction of CH4 and CO2 mixture at atmospheric pressure. 反应转化率均随输入功率的增大而增大,随放电间距的增大而增大,随反应原料气流量的增大而减小; 产物中H2/CO摩尔比随原料气中CH4含量的增加而增大。
- Water freezes at a low temperature. 水在低温时结冰。
- The type, constitutes, function, structure, principle of double glow plasma discharge alloying process equipment for surface was briefly introduced. 简要介绍了双层辉光等离子表面合金化设备的类型、组成、功能、结构、原理等。
- In double glow plasma surface alloying(DGPSA), the alloy poorness insurface layer of the workpiece is mainly caused by two mechanisms. 离子渗金属中,工件表层合金贫化主要通过两种机构发生。
- Alignment requires low temperature. 取向排列需要低温。
- The food must be kept at a low temperature. 这食物必须在低温下保存。
- Using the double glow plasma hydrogen-free carburizing method carry through surface strengthen to enhance titanium alloy surface intension,Can avoid brittleness. 采用双层辉光离子无氢渗碳的方法对钛合金进行表面强化处理,提高了钛合金的表面强度,改善了其耐磨性;同时避免了氢脆的产生。