复合材料中存在着晶须补强和相变增韧等双重强韧化机制。
Both phase transformation toughening and whisker reinforcing are existed in the composite system.
介绍了相变储能复合材料的研究结果,包括制备方法、储能性能和耐久性能等;
The research results of phasechanging composite material, including the fabrication method, its energy storage performance and durability were introduced.
能预测复合材料的宏观本构列式和弹性基体约束下的形状记忆合金的相变特性。
The constitutive relations of the composite and dynamic equations of the SMA transformation were predicted.
其中,微波将在原子扩散、结晶相变和复合材料设计中发挥特殊的优势。
And indicated some special merits of microwave treatment of atom diffusion, transformation and composite design.
该研究拓展了新型相变储能复合材料制备研究的领域,同时也为推进其更广泛的研发应用奠定了基础。
This work set a new direction for preparation of composite phase change energy storage materials, and laid the groundwork for practical applications in the future.
本发明为一种多孔石墨基相变储能复合材料及其制备方法。
The present invention relates to one kind of composite porous graphite base phase change energy-storing material and its preparation process.
弹塑性基体复合材料的特征相变温度偏移随纤维体积分数的变化规律与弹性基体复合材料的变化规律不同,其热相变特性有显著的区别。
The results show that the characteristics of thermal transformation behavior of SMA composites with elastic matrix are different markedly from those with elastoplastic matrix.
本发明采用多孔石墨基相变储能复合材料微粉和钢管等材料制作相变储能单元。
The invention adopts porous graphite-base phase change energy-accumulating composite material powder and steel tube to make phase change energy-accumulating cell.
本研究采用粉末烧结工艺将陶土分别同性能优良的高温熔融盐复合,成功地制备出蓄热密度高、耐腐蚀性好且成本低廉的相变蓄热复合材料。
We have succeeded in making a kind of phase change material (PCM) of high thermal storage density, good corrosion-resistant performance and low cost of preparation by powder sintering method.
本研究采用粉末烧结工艺将陶土分别同性能优良的高温熔融盐复合,成功地制备出蓄热密度高、耐腐蚀性好且成本低廉的相变蓄热复合材料。
We have succeeded in making a kind of phase change material (PCM) of high thermal storage density, good corrosion-resistant performance and low cost of preparation by powder sintering method.
应用推荐