提出了实际条件下煤体放热强度和耗氧速度的计算方法,并通过实验得出了煤体粒度影响函数。
The calculation method of oxygen consumption rate and heat liberation intensity is put forward on actual condition, and influence function of particle size is gained by experiment.
介绍了高效减水剂对混凝土水化温度升高、放热率及强度影响的试验结果。
Testing results for effects of high range water reducing agent on hydration temperature elevation, heat emission and strength of the concrete were presented.
实际工作中,我们可以应用这个表达式来定量求出放热面积,对树脂固化的最终强度、硬度、收缩等远期性能作超前的定量的比较。
In our practical work, we can apply it to quantify exothermic area. And we can also apply it to compare quantitatively the last intensity, hardness and contraction of resin solidification.
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