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熔覆铜合金再制造技术修复立柱缸体的研究与应用 被引量:6
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作者 马忠昌 《中国煤炭》 2020年第10期92-95,共4页
液压支架立柱在煤矿井下使用一段时间后,立柱缸体内壁会出现不同程度的麻斑剥落、深浅不等的针孔、拉痕,这些缺陷导致立柱产生内泄,表现出初撑力不够。这些缺陷一旦形成,液压缸体在使用中会加速缺陷的进一步扩大,造成密封圈损坏导致密... 液压支架立柱在煤矿井下使用一段时间后,立柱缸体内壁会出现不同程度的麻斑剥落、深浅不等的针孔、拉痕,这些缺陷导致立柱产生内泄,表现出初撑力不够。这些缺陷一旦形成,液压缸体在使用中会加速缺陷的进一步扩大,造成密封圈损坏导致密封失效。为了保证使用质量,液压支架升井大修时通常采用更换新缸体,维修成本居高不下,形成系统性浪费。笔者分析了液压立柱缸体损坏的原因,详细介绍了熔覆铜合金再制造技术工艺及技术参数。实际应用表明,通过该工艺修复的缸体内表面能够大幅度提高缸体抗腐蚀和耐磨性能,提高缸体的使用寿命,降低维修成本。 展开更多
关键词 熔覆铜合金 再制造技术 立柱缸体修复 液压支架
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Effect of Fe content on microstructure and mechanical properties of Cu-Fe-based composite coatings by laser induction hybrid rapid cladding 被引量:1
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作者 Sheng-feng ZHOU Jian-bo LEI +3 位作者 Zheng XIONG Jin-bo GUO Zhen-jie GU Hong-bo PAN 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2016年第12期3196-3204,共9页
To select the proper composition and obtain an overall material?microstructure?property relationship for Cu?Fe alloy, theeffect of Fe content on microstructure and properties of Cu?Fe-based composite coatings by laser... To select the proper composition and obtain an overall material?microstructure?property relationship for Cu?Fe alloy, theeffect of Fe content on microstructure and properties of Cu?Fe-based composite coatings by laser induction hybrid rapid claddingwas investigated. Microstructure characterization of the composite coatings was tested utilizing SEM, XRD and EDS. Microhardnessmeasurement was executed to evaluate the mechanical properties of the composite coatings. The results show that for low Fe content,the composite coating presents a feature that Fe-rich equiaxed dendrites are embedded in the Cu-rich matrix. With increasing Fecontent, the Fe-rich particles are dispersed in the Cu-rich matrix. With further increasing Fe content, large amounts of Cu-richparticles are homogeneously dispersed in the interdendrite of the Fe-rich matrix. Correspondingly, the average microhardness of thecomposite coatings increases gradually with the increase of Fe content and the microhardness of Cu14.5Fe83Si2C0.5 coating is muchtwice higher than that of the substrate. 展开更多
关键词 composite coating laser induction hybrid rapid cladding Cu.Fe alloy liquid phase separation microstructure mechanical properties
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