The analysis shows that both temperature and material of dielectrics affect the accumulation of wall charges, resulting in the change of temporal behavior of discharge.
分析表明,电介质温度以及材料均影响壁电荷的积累,进而使放电特性发生改变。
Microencapsulated phase change material was prepared by situ polymerization with butyl stearate as phase change material, melamine-formaldehyde resin as wall material.
本文以硬脂酸丁酯为相变材料,蜜胺树脂为壁材,采用原位聚合法制备了微胶囊相变材料。
The lower temperature shape stabilized phase change material is an ideal material for accumulation of energy used in building wall. It can increase heat storage capacity of the wall and save energy.
低温定形相变材料是应用于建筑物墙体中的理想储能材料,它可增加墙体的蓄热能力,节约建筑能耗。
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