相变材料微胶囊已经广泛应用于纺织品、传热流体、建筑物、军事、农业等领域。
MEPCM has been widely applied in the filed of textile, heat transfer fluid, building, military, agriculture and so on.
相变材料微胶囊(MEPCM)悬浮液是一种高热容冷却介质,其应用可大幅提高高功率设备液体冷却性能。
Microencapsulated Phase Change Material (MEPCM) suspension liquid is a coolant with high heat capacity, which can enhance considerably liquid cooling performance.
综述了微胶囊相变材料及其在热红外隐身上的应用,展望了其在热红外隐身上的应用前景。
The microencapsulated phase change material and its application in thermal infrared stealth were reviewed in this paper and the prospect was predicted.
本文采用原位聚合法以十二醇为芯材,以三聚氰胺-甲醛树脂为壁材,制备微胶囊相变材料并对其进行性能表征。
The microencapsulated phase change materials were prepared with in situ polymerization using dodecanol as the core, melamine-formaldehyde resin as the shell.
介绍了微胶囊相变材料的特点、相变机理及在储热领域的应用,展望了微胶囊相变材料的发展前景。
The characteristics of microencapsulated phase change material, the phase change mechanism and its application to thermal storage field are introduced.
微胶囊相变材料是将微胶囊技术应用于相变材料而形成的新型复合相变材料。
Microencapsulated phase change materials, a new kinds of composite phase change materials, was prepared with microencapsulation technology.
采用FT - IR、DSC、激光粒度分布仪、OM和SEM等测试手段分析并表征了所制得的微胶囊相变材料。
Different properties of the microencapsulated phase change materials were characterized by FT-IR, DSC, Laser Particle Size Analyzer, OM and SEM.
结果表明微胶囊相变材料既能够有效地模拟真目标的红外热特征,也能有效地遮蔽目标的红外热特征,具有红外隐真—示假的双重功能。
The results showed that microcapsule PCM could both simulate and cover the IR thermal signature of true target, and the microcapsule PCM has double function.
本文采用微胶囊技术,以不同树脂对不同相变材料进行包裹,并对微胶囊相变材料的性能进行了较系统的研究。
The micro-encapsulation technology, including the core and the shell materials, different significant synthesize process, various characterization methods are studied in this thesis.
研究采用了以三聚氰胺-甲醛为壁材,正十四烷为芯材原位聚合法制备微胶囊相变材料。
Microcapsules loaded with tetradecane as the core material are prepared by in-situ polymerization methods.
而通过TG分析可看出,相变材料十二醇的微胶囊化可使其热稳定性得到提高。
And the TG analysis showed the thermal stability of phase change material dodecanol rised gently as microencapsulated.
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。
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。
Microencapsulated phase change material was prepared by situ polymerization with butyl stearate as phase change material, melamine-formaldehyde resin as wall material.
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