1) mesophase pitch
中介相沥青
1.
The application of mesophase pitch and its carbon fiber in composite materials, thermal conducting materials, heat resistant radiation proof materials, accumulator anode, high temperature lubricator and carbon foam was reviewed.
介绍了中介相沥青及其碳纤维作为复合材料、导热和绝热防辐射材料、高级电池阳极、高温润滑剂、碳泡沫等的各种用途,重点讨论了含碳复合材料的各种制备方法和应用。
2.
Mechanical property of high-performance mesophase pitch-based carbonfiber is systematically reviewed.
系统地论述了高性能中介相沥青基碳纤维的力学性能及其与原料、纺丝工艺、氧化/碳化/石墨化温度、纤维形状及尺寸、超分子结构和环境温度等之间的关系。
2) mesophase pitch
中间相沥青
1.
Mesophase pitch-phenolic resin binder for MgO-C brick;
镁碳砖用中间相沥青-酚醛树脂结合剂的研制
2.
Effect of modification of mesophase pitches on performance of ultra-high surface area activated carbons with nanometer level micropore;
中间相沥青的调制对纳米级微孔超高表面积活性炭性能的影响
3.
Preparation and properties of mesophase pitch-based anode material;
中间相沥青基炭负极材料的制备及性能
3) mesophase pitch
沥青中间相
1.
SEM, X-ray Diffraction and Reflected Polarized Micrography using crossed polarizers were employed to investigate the orientation of unidirectional C/C composites' matris mesophase pitch in 0.
本工作利用扫描电镜、X射线衍射仪及正交偏光显微镜研究了沥青中间相以及单向C/C复合材料基体中间相在800mT磁场中处理后的取向,证实了沥青中间相的层片平行于磁场方向;在本工艺条件下,制造的单向C/C复合材料基体中间相层片垂直于碳纤维。
4) Pitch mesophase
沥青中间相
1.
A pitch mesophase can be prepared from petroleum pitch andcoal tar pitch.
从石油沥青和煤沥青中制取沥青中间相物质。
5) mesophase pitch fibers
中间相沥青纤维
1.
Block carbon materials with high thermal conductivities were prepared from mesophase pitch fibers by using their high preferred orientation of pitch molecular and appropriate thermoplasticity through a hot-pressing method.
利用中间相沥青纤维中沥青分子的高度择优取向和适度的热塑性热压制备高导热块体炭材料。
6) Mesophase pitch microbeads
中间相沥青微球
1.
In order to prepare the high surface area activated mesocarbon microbeads with high mesopore content, mesophase pitch microbeads were activated with KOH at 850 ℃ and the effects of the weight ratio of KOH/MMB to the structure and morphology of activated carbon microbeads were investigated in this paper.
为了制备中孔含量高的高比表面积活性炭微球,以KOH为活化剂,在850℃下对中间相沥青微球(MMB)进行了活化处理,考察了不同KOH配比对活性炭微球孔结构及其表面形态的影响,并对KOH活化中间相沥青微球的反应机理进行了初步探讨。
2.
In this paper,the coal tar pitch-based mesophase pitch microbeads (MMB) were activated by chemical activation with KOH in different activation condition.
以煤焦油系中间相沥青微球为原料,KOH为活化剂,在不同活化条件下制备活性炭微球。
补充资料:沥青碳纤维增强体(见沥青碳纤维)
沥青碳纤维增强体(见沥青碳纤维)
earbon fibre reinforeementsmade of piteh
沥青碳纤维增强体Carbon fibre reinforeement。made of Pitch以沥青为原料制成、用于复合材料中起承载增强作用和改善性能的碳纤维〔见沥青碳纤维)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条