1) short isothermal time
短时等温
1.
The results show that the upper bainite formed with short isothermal time has rod-like micromorphology.
结果表明,380℃短时等温获得短棒状上贝氏体组织;随等温时间延长,新的上贝氏体小棒于原贝氏体棒两侧形成,上贝氏体小棒的平行排列使上贝氏体变为粗棒;随等温时间的进一步延长,粗棒状上贝氏体平行排列组合近似羽毛状;长时间等温,贝氏体碳化物析出使上贝氏体组织具有羽毛状形貌。
2.
Fine structures of upper and lower bainite formed within short isothermal time have been observed by transmission electron microscopy.
针对工业用9SiCr钢,通过X射线衍射分析、金相组织观察研究了奥氏体化后的冷却速度与贝氏体转变等温时间等因素对贝氏体相变产物显微组织形态的影响,采用透射电子显微镜观察分析了短时等温获得的上、下贝氏体组织的精细结构。
2) high-temperature and short-term
高温短时
1.
The kinetics of high-temperature and short-term Carburizing in liquid cast iron was studied.
研究了低碳钢在铸铁液中进行高温短时渗碳的动力学,并分析了渗层组织和渗碳的机制。
3) temporary heat treatment
短时升温
1.
Applications of temporary heat treatment in fruit storage;
短时升温在果实贮藏上的应用
2.
The applications of temporary heat treatment technology in delaying fruit senescence and controlling fruit postharvest diseases have been emphasized in recent years.
温度是影响果实代谢过程、品质与贮藏寿命的重要因子,应用短时升温处理技术延缓果实衰老和控制采后病害是近年来果实保鲜领域研究热点。
4) isothermal treatment for short time
短时保温
5) short-term heating
短时高温
1.
Effect of short-term heating on bud dormancy in “Zaolu”peach trees(Prunus persica var. comperessa Bean.);
短时高温打破早露蟠桃花芽休眠效应研究
2.
) for analyzing some physiological changes in dormant floral buds and shoot cortex under short-term heating treatments, investigating and calculating the chilling requirements of peach floral buds.
本试验以4年生早露蟠桃为试材,通过对其花芽和枝皮中一些生理生化变化的研究,来探讨短时高温处理对桃花芽自然休眠的调控作用,并调查计算了其需冷量。
6) over-high temperature for a short time
短时超温
1.
The result shows that the cracking is related to over-high temperature for a short time.
结果表明,致使D57 mm×3 mm炉管发生爆裂的原因与短时超温有关。
补充资料:短榻
1.低矮的卧榻。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条