Physical Basis of Nondestructive Evaluation on Microstructure Parameters in Cemented Carbides WC-Co
摘 要
根据γ相磁性分析法用物理性能测定数据进行计算或用体视金相学技术直接测定γ相平均自由程,所得真实γ相平均自由程λ和通称γ相平均自由程λγ的关系规律一致。依据λ和λγ的关系确定了γ相平均自由程λ或WC晶粒邻接度CWC分别与γ相体积分数fγ和WC平均晶粒尺寸LWC的试验关系。阐明了用物理性能测定取代体视学测量无损鉴定WC-Co硬质合金显微结构参数的物理基础。结果表明:两相WC-Co合金的显微结构特征可用两个基本参数fγ和LWC确定;fγ和LWC分别主要取决于合金的钴配量和原料WC粉末平均颗粒尺寸,并在液相烧结过程中受γ相成分的制约;延长烧结时间将加剧LWC的长大程度,但不影响fγ的数量;烧结过程中fγ的增量和LWC的长大程度分别随合金碳含量的改变呈反向和正向变化,因而烧结过程中fγ的增加无助于WC晶粒尺寸的长大。
Abstract
The consistent numerical value relationship regularity between the true γ-phase mean free path λ and the nominal γ-phase mean free path λγ was deduced by means of both calculating physical property measured data with the γ-phase magnetism analysis and measuring directly γ-phase mean free path with stereo-metallographic technique. The respective relationships of the γ-phase mean free path λ or the WC-grain contiguity CWC with the elemental parameters γ-phase volume fraction fγ and WC mean grain size LWC were deduced from the relation between λ and λγ. The physical basis evaluating nondestructively microstructure parameters in cemented carbides WC-Co by use of to replace stereo-metallographic test by physical property measurement was expounded. The results showed that the microstructure feature of two-phase WC-Co alloy could determined by the two basic parameters fγ and LWC;fγ and LWC were respectively determined by cobalt content and WC mean partical size in raw material and were restricted by γ-phase composition under sintering;the LWC growth degree bore a positive-going relation to sintering time, but the fγ value bore no relation to sintering time;the fγ increment and the LWC growth degree bore opposite-going and positive-going relation to the carbon content increment in alloy respectively, so the fγ increment was helpless to the WC grain size growth by recrystallization under sintering.
中图分类号 TB303 TF125.3
所属栏目 试验与研究
基金项目
收稿日期 2014/4/21
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备注刘寿荣(1939-),男,教授级高级工程师。
引用该论文: LIU Shou-rong. Physical Basis of Nondestructive Evaluation on Microstructure Parameters in Cemented Carbides WC-Co[J]. Physical Testing and Chemical Analysis part A:Physical Testing, 2014, 50(11): 796~799
刘寿荣. 无损鉴定WC-Co硬质合金显微结构参数的物理基础[J]. 理化检验-物理分册, 2014, 50(11): 796~799
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参考文献
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【2】刘寿荣.WC-Co硬质合金的显微结构参数[J].材料热处理学报,2005,26(1):62-64.
【3】刘寿荣.无损鉴定WC-Co硬质合金成分的物理基础[J].理化检验-物理分册,2013,49(9):568-575;2014,50(1):66.
【4】CHERMANT J L, OSTERSTOCK F. Fracture toughness and fracture of WC-Co compositions[J].J of Materials Science,1976,11:1939-1951.
【5】株洲硬质合金厂.硬质合金的生产[M].北京:冶金工业出版社,1974:263.
【6】EXNER H E. Physical and chemical nature of cemented carbides[J].International Metals Reviews, 1979,24(4):149-173.
【7】ALMOND E A, ROEBUCK B. The origin of WC substructure and the effect of processing on microstructure of WC/Co hardmetals[C]//Proceed 10th Plansee Seminar, Metallwark Plansee Reutte, Austria:[s.n.],1981:659-672.
【8】FANG Z, EASON W J. Nondestructive evaluation of WC-Co composites with magnetic properties[J].The Int J of Powder Met,1993,29(3):259-265.
【9】株洲硬质合金厂.国外硬质合金[M].北京:冶金工业出版社,1976:502.
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