The invention relates to a novel nano composite phase-change material and a preparation method thereof.
本发明是关于一种新型纳米复合相变材料及其制备方法。
According to the properties of desulfurization gypsum and phase-change material separately, the feasibility that applying the two materials to preparing the thermal insulation mortar is analyzed.
根据脱硫石膏和相变材料各自的特点,分析将这两种材料共同用于制备无机相变保温砂浆的可行性。
The 98% pure Heneicosane(C21H44) was used as the phase change material(PCM).
采用纯度为98%的正21烷(C21H44)作为相变材料(PCM)。
The new material offers an approach that is radically different from a promising type of storage called "phase-change memory" being pursued by I.B.M., Intel and other companies.
这种新材料提供的方法完全不同于i.b.m .英特尔和其他公司在设计的被称为“相变存储器”的新型存储。
It shows that ceramic material with good performance can be obtained by sintered technique to change crystal phase in ceramics product.
这表明,可以通过烧结工艺改变陶瓷制品中的晶相,从而获得性能优良的陶瓷材料。
The mechanism forming solid - solid phase change material was examined.
探讨了该固-固相转变材料形成的机理。
Material phase change and thermally induced phase separation of materials are controlled by controlling the spray head and working chamber temperatures.
通过对喷头温度和成形室温度的控制,实现了对材料的相变和热致相分离过程的控制。
The enthalpy model was used in calculating the solidification period of a new kind of phase change material in cool storage ball.
采用了焓法模型对一种新型的相变材料在球内的凝结过程进行了数值求解。
Presents an optimal design method for PCM (phase change material) packed bed based on the heat transfer characteristics.
根据相变材料蓄冷堆积床的传热特性,提出了一种堆积床的优化设计方法。
As phase change material (PCM) is a new kind of material for energy storage, its thermal properties are key factors which determine the application areas and actual effect.
摘要相变材料是一种新型储能材料,其热学性质是决定相变材料应用领域和应用效果的关键因素。
The characteristics and types of phase change material (PCM) were introduced. The properties and applications of solid liquid and solid solid phase change material were discussed.
本文介绍了相变贮热材料的特点和种类,讨论了固液相变、固固相变贮热材料的性能和应用。
Dislocation and plastic deformation was produced in crystal material under shock loading. phase change could occur when shock loading was strong.
在冲击加载下,晶体材料中产生了位错和塑性变形。在强冲击时还可出现相变变化。
The characteristics of microencapsulated phase change material, the phase change mechanism and its application to thermal storage field are introduced.
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 lower conductive plug is in contact with a phase change material pattern disposed on the lower interlayer dielectric layer.
下导电栓与设置于下层间介电层上的相变材料图案接触。
The pressure melting process of phase change material (the ice) around a horizontal elliptical cylinder with finite length is studied.
本文研究相变材料(冰)围绕水平椭圆柱,在有限长接触时的压力熔化过程。
The advantages of phase change material are elaborated.
阐述了相变材料储能装置的优点。
The thermal conductivity of the phase change material can be improved effectively by using silicon dioxide as a supporting material.
同时二氧化硅作为基体材料形成空间传热网格,较大的提高了相变材料的导热性能。
To investigate the characteristics of cool storage of a PCM(phase change material), the enthalpy finite element method was employed to study the solidification characteristics of the PCM.
为了研究一种相变材料的蓄冷特性,采用焓式有限元法对该材料的凝固特点进行了研究。
The microencapsulated phase change material and its application in thermal infrared stealth were reviewed in this paper and the prospect was predicted.
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 test result demonstrates that compared with normal materials the olefin phase change energy storage material has excellent effect of thermoregulation, energy-saving and stability.
检测结果表明,含石蜡相变储能材料相对于普通材料具有优越的调温效果、节能效果,稳定性良好。
The finite length contact melting of phase change material around a moving horizontal elliptical cylinder driven by temperature difference was investigated.
提出并研究了相变材料围绕水平椭圆柱,在有限长接触时的温差熔化过程。
In this paper, we propose a Phase Change Material (PCM) for the temperature control.
在本文中,我们计划使用相变材料(PCM)作为温度控制材料。
The research progress of microencapsulated phase change material suspensions is introduced.
介绍了微胶囊相变悬浮液的研究进展。
The solar dynamic power module proposed for the space station uses the heat of fusion of a phase change material (PCM) to efficiently store thermal energy for use during eclipse periods.
利用相变材料(PCM)的熔化潜热来蓄热可以保证空间站太阳能热动力系统在轨道的阴影期内仍能连续发电。
The nucleator of barium hydroxide and its different content for the inorganic phase change material calcium chloride hexahydrate have been studied in this paper.
本文着重研究了以氢氧化钡为成核剂和不同用量的无机相变材料六水氯化钙。
And the phase change energy storage material was tested on its performance of temperature adjustment, stability and energy-saving with self-designed testing device.
并通过自行设计的检测设备检测该相变储能材料的调温性能、稳定性和节能效果。
The thermal energy storage unit involves a triplex concentric tube with phase change material (PCM) filling in the middle channel.
通过数值模拟与实验,研究了三重同心套管内的相变传热过程。
The 98% pure Heneicosane(C21H44) was used as the phase change material(PCM), and it was filled in the copper foam through a vacuuming procedure.
采用纯度为98%的正21烷(C21H44)作为相变材料(PCM),通过抽真空灌注的方法将其灌注到泡沫铜内部,封装并作绝热处理后作为试验件。
The 98% pure Heneicosane(C21H44) was used as the phase change material(PCM), and it was filled in the copper foam through a vacuuming procedure.
采用纯度为98%的正21烷(C21H44)作为相变材料(PCM),通过抽真空灌注的方法将其灌注到泡沫铜内部,封装并作绝热处理后作为试验件。
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