在感应淬火中,通过改变加热时间、加热功率和冷却速度可以改变淬硬层深度和硬度梯度。
The hardening case depth and hardness curve can be changed by adjusting heating time, heating power and cooling speed during induction hardening.
本文对铸件退火时如何控制加热速度、保温时间、冷却速度进行了充分的研究和探讨,为合理制定铸件退火工艺指出了方向。
In this article, a thorough investigation has been conducted into heating rate, holding time and cooling speed in an effort to work out an optimum ingot annealing process.
研究了锻造后的冷却速度对T10钢等用球化退火加热温度和保温时间的影响。
The influences of cooling rate after the forge on the heating temperature and time of apheroidized annealing of steel T10 was studied.
影响细化效果的主要因素有:加热速度、保温时间、冷却速度和循环次数。
The main factors that affect the grain refinement are heating and cooling rate, holding time and cycle index.
爆击玩家会降低50%的移动速度,和50%的防御持续,持续暗10秒。4秒的冷却时间。
Critical wounds player reducing speed by 50% and armor by 50% for 10 seconds. 4 second cooldown.
邪恶灵气改变:死亡骑士灌注邪恶的狂热,提高攻击速度和移动速度15%,所有技能的公共冷却时间减少0.5秒。同一时间只能激活一种灵气。
Unholy Presence changed to: Infuses the death knight with unholy fury, increasing attack speed by 15%, movement speed by 15% and reducing the global cooldown on all abilities by 0.5 SEC.
观察其显微组织和晶粒度,测定其显微硬度,分析了金相组织、晶粒度和硬度随固溶退火温度、保温时间、冷却速度的变化。
The microstructure was observed and the grain size and Vickers hardness were measured, the changes of microstructure, grain size, hardness and solid solution annealing process were discussed.
观察其显微组织和晶粒度,测定其显微硬度,分析了金相组织、晶粒度和硬度随固溶退火温度、保温时间、冷却速度的变化。
The microstructure was observed and the grain size and Vickers hardness were measured, the changes of microstructure, grain size, hardness and solid solution annealing process were discussed.
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