碳素材料

论述了超声波、X射线及声发射三种无损检测方法在碳素材料内部质量检测中的应用状况。

The application condition of inner quality testing of carbon material by ultrasonic , X ray and acoustic emission was introduced .

碳素材料超声检测的信号处理方法

Method to The Signal Processing in Ultrasonic Testing of Carbon Materials

碳素材料内部缺陷检测方法的探讨

Discussion on the Detection Methods for the Internal Flaws in Carbon Material

新型自烧结功能碳素材料的研究

A Study on a New-type Carbon Material with Self-sintering Function

三种生物碳素材料表面的血小板粘附研究

Research of adhesion of platelets on three biomaterial carbonaceous materials

用沥青制造碳素材料的方法

The method for manufacturing of carbon material from pitch

几种碳素材料的特性及在模铸保护渣中的作用

The characteristics of some carbonaceous materials and their functions in the mold fluxes

碳素材料的断裂特性分析

The Analysis of the Fracture Characteristics of Carbon Materials

碳素材料用作电池负极材料的现状和前景

Present Situation & prospect of Carbon Material Used as Negative Pole of Cell

包埋碳素材料高分子凝胶球去除苯酚的研究

The Study of Removal of Phenol by Macromolecule Gel Beads Entrapped Carbon Materials

生物碳素材料表面血小板黏附的实验研究

Probe into the Platelets Adhesion to Carbonaceous Biomaterials

碳素材料裂纹实验分析

Experimental analysis of cracking in carbon material

3种生物碳素材料表面的血液相容性

Surface Hemocompatibility of Three Biomedical Carbonaceous Materials

用表面界面性能评价生物碳素材料血液相容性的可行性研究

A Feasibility Study on Use of Surface and Interface Properties for Evaluating Hemocompatibility of Carbonaceous Biomaterials

评价生物碳素材料的血液相容性，血小板变形度比血小板消耗率更有价值；

Deformation degree of platelets is more important hemocompatibility index than consumption ratio of platelets for carbonaceous materials ;

碳素材料是兼有金属、陶瓷和高分子材料三者特殊性能于一身的独特材料，具有广泛的适用性。

Carbon material , a kind of special material , integrates with many advantage properties of metal , ceramic and polymer .

实验结果表明，某些碳素材料和硫酸钠等添加剂可以提高电极的活性物质利用率。

The results showed that some conductive carbon materials and sodium sulphate could improve the utilization coefficient of the active material of positive electrode .

综述了锂离子电池负极材料的研究进展，介绍了碳素材料、锡氧化物和锡基复合氧化物负极材料。

The progress in research on anode materials for lithium_ion secondary batteries are reviewed . Anode materials of carbon , tin_based composite oxide are summarized .

为此，本实验对碳素材料制成的不同外形的两种齿根进行了比较研究。

For the research purpose , our experiment comparatively investigated two types of tooth roots which are made from carbon and molded in different external forms .

蛋白吸附介导的血小板薪附与变形，是生物碳素材料的主要凝血机制。

Adhesion and deformation of platelets occurred in succession on material surfaces resulting from protein adsorption are the major mechanism of blood coagulation of carbonaceous biomaterials .

目前用于制备超级电容器的极化电极材料主要分为碳素材料、金属氧化物材料和导电聚合物材料。

There are three types of materials that can be used for manufacturing supercapacitors . They are carbon-based materials , metal oxide materials and conductive polymer materials .

通过实验分析了碳素材料高温处理时产生裂纹的原因，并提出减少裂纹的一种重要方法。

The reasons for appearing crack in carbon material under high temperature treatment were analyzed by experiment and an important method of reducing the cracking was put forwarded .

研究结果指出，在一定的工艺条件下，碳素材料在摩擦材料的配方中，应仔细选择其合适的粒度和用量。

The research result indicated that , under fixed technological conditions suitable grain size and dosage of carbon material in the formula of friction material must be choosed carefully .

自1991年被发现以来，这种新型碳素材料以其独特的性能和潜在的应用价值，引起了人们的广泛关注，已成为富勒烯领域的一个主要的研究热点。

For many unique performance and potential application of the new carbonaceous materials , they have generated great interest since their discovery in 1991 , producing a main focus of fullerene field .

作者还指出了以后的工作重点应放在探索合适的前驱体有机物及裂解条件和对碳素材料的修饰、改性进行系统的研究等方面，以便能进一步推动高性能锂离子电池的发展。

In order to promote the development of high-performance lithium ion battery , the future research work should be focused on searching appropriate precursors and pyrolysis parameters and the modification of carbon materials .

自从1991年发现和提出碳纳米管以来，这种新型碳素材料独特的性能引起了物理、化学和材料科学界的广泛兴趣。

Since carbon nanotubes were discovered and designated in 1991 , the particular capabilities of this new carbon material absorbed extensive interest of many areas such as physics , chemistry and materials science .

动态凝血时间与溶血率和血小板消耗率之间具有跷跷板效应，因而可等效地用动态凝血时间评价生物碳素材料的血液相容性。

There was " seesaw effect " between kinetic clotting time and hemolysis or platelet consumption , hence the hemocompatibility of carbonaceous biomaterials could be equivalently evaluated by using kinetic clotting time as an index .

证实：以血浆蛋白吸附为先导的血小板黏附、变形而致血栓形成，是生物碳素材料的主要凝血机制；

It has been confirmed : ( 1 ) successive occurrences , including adhesion , deformation and collection of platelets on the material surfaces as results of protein adsorption , are the major mechanism of blood coagulation of carbonaceous materials ;

利用电厂灰、高炉渣、沸石粉及锂盐渣等工业废渣为基料，添加部分助溶剂和碳素材料研制成膨胀复合保护渣系。

A kind of expansible compound casting flux was developed by utilizing the industrial waste materials , such as ashes from electric power plant , blast furnace slag and zeolite powder , with some fluxing agents and carbon materials added in .

本文研究了碳素材料的断裂行为和断裂韧性的试验方法，并分析了碳素材料的成份、孔隙等因素对断裂韧性的影响。

The testing methods of the fracture behaviors and fracture toughness of carbon materials are studied and the influences of the factors such as composition , holes etc , of the materials on the fracture toughness are analysed in this article .