An electrical heating rope is proposed based on numerical results for improving surface temperature uniformity of the simulation spherical shell.
在数值模拟基础上,提出并试验验证了能有效提高球壳外表面温度均匀性的电加热绳方案。
So the damage temperature of the microcapsule shell was determined by TGA. The strength of shell is also evaluated through observing the surface change under pressure by means of SEM.
采用TGA技术测得微胶囊壁破裂时温度,应用SEM观察微胶囊受力后的形貌,对其强度进行评价。
High tech. design, no direct hot transmit between high temperature zone and out shell. The temperature of the out-surface is low.
利用高新技术,精心设计,高温与外壳表面不发生直接传热,外壳表面处于低温状态。
Since the shell body is made of plastic material and has lower surface temperature, people can not be scalded easily;
壳本体为塑胶材质,表面温度低,不易烫伤人;
Since the shell body is made of plastic material and has lower surface temperature, people can not be scalded easily;
壳本体为塑胶材质,表面温度低,不易烫伤人;
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