王海滨,宋晓艳,刘雪梅,王学政,贺定勇.WC-Co复合粉末的原位合成及于硬质合金涂层制备中的应用[J].表面技术,2016,45(9):10-17.
WANG Hai-bin,SONG Xiao-yan,LIU Xue-mei,WANG Xue-zheng,HE Ding-yong.Fabrication of Cemented Carbide Coating with In-situ Synthesized WC-Co Composite Powder[J].Surface Technology,2016,45(9):10-17 |
| WC-Co复合粉末的原位合成及于硬质合金涂层制备中的应用 |
| Fabrication of Cemented Carbide Coating with In-situ Synthesized WC-Co Composite Powder |
| 投稿时间:2016-03-10 修订日期:2016-09-20 |
| DOI:10.16490/j.cnki.issn.1001-3660.2016.09.002 |
| 中文关键词: WC-Co复合粉 原位合成 团聚造粒 硬质合金涂层 韧性 耐磨性 |
| 英文关键词:WC-Co composite powder in-situ synthesis granulation cemented carbide coating toughness wear resistance |
| 基金项目:863 计划主题项目 (2013AA032001);国家杰出青年科学基金 (51425101);北京市自然科学基金重点和青年基金项目 (2131001、2154045) |
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| Author | Institution |
| WANG Hai-bin | College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China |
| SONG Xiao-yan | College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China |
| LIU Xue-mei | College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China |
| WANG Xue-zheng | College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China |
| HE Ding-yong | College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China |
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| 中文摘要: |
| 目的 为解决超细/纳米WC-Co热喷涂时易于脱碳等瓶颈问题,制备具有高的硬度、断裂韧性、耐磨性和表面质量等优异综合性能的超细及纳米结构硬质合金涂层,并推广其在工业领域中的应用。方法 以原位合成技术批量制备的超细/纳米WC-Co复合粉末为原料,利用团聚造粒技术制备得到具有高球形度和致密性,并保持原有超细/纳米结构的喷涂喂料粉末,利用超音速火焰喷涂工艺制备低脱碳、高致密的超细结构WC基涂层。结果 降低喂料粉末孔隙度可有效减少涂层中W2C等脱碳相的含量,在优化工艺下制备的超细结构WC基涂层的硬度达到1450HV0.3以上,韧性相对于常规微米结构涂层提高40%以上,在两种载荷和磨料条件下均表现出更高的耐磨性。结论 利用原位反应技术批量合成的超细/纳米WC-Co复合粉制备的硬质合金涂层具有优良的综合性能,可应用于对涂层的硬度、耐磨性、强韧性配合和表面质量有较高要求的工况。 |
| 英文摘要: |
| Objective This work aims at solving the problems that the ultrafine/nano WC-Co raw powders were easy to suffer from decarburization during thermal spraying and thus preparing the ultrafine/nanostructured cermet coatings with excellent comprehensive properties such as high hardness, toughness, wear resistance and surface quality for extending their applications in industries. Methods The ultrafine and nanoscale WC-Co composite powders were prepared in batch by the in-situ synthesis technique. Through a granulation process, the composite powders were agglomerated into the thermal spray feedstock powders, which had good spherical shape and high density while keeping the original ultrafine/nanostructures. After that, the ul-trafine-structured WC-based coating with low decarburization and high density was obtained using the high velocity oxy-fuel spraying. Results The content of W2C in the coating could be greatly decreased by reducing the porosity of the feedstock particles. By optimizing the spray parameters, the prepared ultrafine-structured coating had hardness above 1450 HV0.3, and toughness increased by over 40% as compared with the conventional micron-scaled coatings. Thus, the ultrafine-structured coating had better wear resistance at different testing conditions. Conclusion The cemented carbide coatings prepared by using the ultrafine or nanoscale WC-Co composite powders with the in-situ synthesis technique have excellent comprehensive properties. The composite powders are applicable to prepare coatings that meet demands of high hardness, wear resistance, toughness and surface quality as high-quality spraying materials. |
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