Microstructures and Mechanical Properties of Vanadium Carbide Films Grown by Reactive Magnetron Sputtering

反应磁控溅射 碳化 钒薄膜的微结构与力学性能

Study on the Preparation Processing of Vanadium Carbide Reinforced Ferrous Matrix Composite Based on Powder Metallurgical Reactive Synthesis Technology

粉末冶金反应合成 碳化 钒 颗粒增强铁基复合材料制备工艺基础研究

Review on Growth Mechanism and Morphology Control of Vanadium Carbide in Fe-C Alloy with High Vanadium Content

高钒铁碳合金中 碳化 钒的生长机制及形态控制研究综述

Growth of vanadium carbide crystal with a single phase and homogeneous composition

单相均匀组分 碳化 钒单晶生长

Study of the coating layer of vanadium carbide on iron and steel and Its Applications

钢铁表面 碳化 钒覆层的研究与应用

The results showed that due to the ordered vacancy of carbon atom the simple hexagonal superlattice V_6C_5 were formed in vanadium carbide .

结果发现： 碳化 钒中由于碳的有序缺位形成了V6C5简单六方超点阵结构；

Vanadium carbide coating can greatly increase wear resistance and corrosion resistance . Its wear mechanism was the abrasive due to fatigue peeling . 5 .

碳化 钒覆层可大幅度提高钢的耐磨性和耐腐蚀性能，其磨损机理主要为疲劳剥落磨损。

Besides when carbon is up to 4.2 % the morphology of vanadium carbide is nodular and even distributed ( K and D is 0.86 0.78 μ m differently ) .

高 钒高速钢当碳含量达到4.2%时，K为0.86和当量直径D为0.78μm， 碳化物呈团球状均匀分布。

The effects of vanadium ( 0 ~ 4 % ) on the morphology and amount of eutectic carbide in high speed steels were studied systematically by SEM and image analyzer . The mechanism of vanadium affecting eutectic carbide is discussed emphatically in this paper .

本文运用扫描电镜及图像分析仪系统研究了钒（0～4%）对高速钢共晶碳化物形态及数量的影响，着重分析了 钒影响共晶 碳化物的机制。

Quantitative analysis software is invented for effective analysis of different vanadium carbide 's morphology and the form factor K can represent the morphology of different vanadium carbide .

针对 碳化 钒的不同形态，设计出定量分析软件，并利用形状因子K，实现了高钒高速钢不同碳化物形态数值化处理，当K介于0.785~1.000之间碳化钒形态为团球状；

Vanadium Carbide Diffusion Coating for Cold-Worked Die Steels

冷作模具钢的 碳化 钒覆层扩散处理

The results show that typical morphologies of vanadium carbide appears in the shape of sphericity and strip and chromium carbide appears lump and lath .

结果表明，钒 碳化物为球状和条状，铬碳化物为块状和板条状。

Vanadium nitride and carbide as a solid solution is an important additive to steel .

碳氮化 钒是氮化 钒 和 碳化 钒的固溶体，是重要的钢中添加剂。

Research on the Coated Vanadium Carbide Process with Powder Method

粉末法 被覆 碳化 铌工艺的研究

Effect of vanadium content on the microstructure and mechanical properties of ( Ti V ) C35CrMo steel bonded carbide

V含量对（Ti，V）C35CrMo钢结 硬质 合金组织与力学性能的影响

The original surface of a steel specimen was identified by pure nickel so as to study the formation process of a vanadium carbide coating on the surface of the steel specimen through TD treatment .

利用纯镍标识钢的原始表面，研究了钢经TD处理所产生的 碳化 钒覆层形成过程。

Formation Process of Vanadium Carbide Coating through TD Treatment

TD处理的 碳化 钒覆层形成过程

This paper introduces the process of coated vanadium carbide with powder method in place of coated metal vanadium carbide with salt bath treatment . The experimental results are given here .

介绍了用粉末法 被覆 碳化 铌工艺代替盐浴被覆金属碳化铌工艺，并给出实验结果。

The excellent wear properties of the Fe-C alloy with high vanadium contents and the important roles of vanadium carbide phases on wear properties are described .

阐述了高钒合金优良的耐磨性能及碳化钒相对于耐磨性的意义，有关 碳化 钒形态的 试验和理论研究。

The wear mechanism of high vanadium high-speed steel is combined micro-cutting and fatigue wear with carbide particle breaking and peeling off under stress .

高 钒高速钢干滑动磨损机理为显微切削和疲劳磨损的复合，并且有应力作用下 碳化物的碎裂及脱落。