头像
发表论文
Email:
Office:
Address:
PostCode:
Fax:
  • [40] Chunzhi Xia, Weiwei Sun, Yi Zhou, Xiangping Xu. Thermal fatigue damage and residual mechanical properties of W-Cu/Ag-Cu/1Cr18Ni9 brazed joint. Journal of Alloys and Compounds, 2018, 741:155-160.

    [39] Yi Zhou, Chunzhi Xia,  Jun Yang, Xiangping Xu and Jiasheng Zou. Investigation of  microstructure and properties  of W75-Cu/W55-Cu brazed joint with  Cu-Mn-Co filler metal. Science and Engineering of Composite Materials,  2018, 25(1):17-23.

    [38] C. Z. Xia, J. Yang, X. P. Xu and J. S. Zou. Microstructure and properties of W-Cu composite / Fe-based powder alloy vacuum brazed joint with different filler metals. High Temperature Materials and Processes, 2017, 36(5): 477-483.

    [37] Chunzhi Xia, Lei Wu, Xiangping Xu, Jiasheng Zou. Phase constitution and fracture analysis of vacuum brazed joint of 50Mo-50Re refractory alloys. Vacuum, 2017, 136: 97-100.

    [36] Chunzhi Xia, Lei Wu, Xiangping Xu, and Jiasheng Zou. Microstructure and fracture analysis of 50Mo-50Re alloys vacuum brazed joint with Fe-Si-B filler metal. Proceedings of IIW 2017 International Conference. June, 29-30, Shanghai, P. R. China. Page. F716-F721.

    [35] Xiangping Xu, Chunzhi Xia, Weiwei Sun and Jiasheng Zou. Microstructure and performance study of brazing W-Cu/18-8 by improved NiMnSiCu-Zr rapid cooling solder. Proceedings of IIW 2017 International Conference. June, 29-30, Shanghai, P. R. China. Page. F704-F715.

    [34] 吴磊夏春智, 刘鹏. 钼铼合金焊接技术研究现状. 焊接, 2017, (2): 13-16.

    [33] K. Feng, P. Liu, C. Xia, M. Cao, C. Jing, G. Zhang. Amorphization of Al-Cu-Mg alloys by friction stir welding. Kovove Materialy-Metallic Materials, 2017, 55(3): 169-173.

    [32] Kun Liu, Yajiang Li, Chunzhi Xia, Juan Wang. Effect of bonding time on interfacial microstructure and shear strength of vacuum diffusion bonding super-Ni/NiCr laminated composite to Ti-6Al-4V joint without interlayer. Vacuum, 2017, 143: 195-198.

    [31] C. Z. Xia, J. Yang, J. S. Zou, X. P. Xu. Influence of brazing clearance on microstructure and properties of W-Cu/1Cr18Ni9 steel brazed joint with Ni-Cr-Si-B amorphous filler metal. Kovove Materialy-Metallic Materials, 2016, 54(3): 159-165.

    [30] Qiuhui Liang, Chunzhi Xia, Xiangping Xu and Jiasheng Zou. Research on vacuum brazing of W-Cu composite to stainless steel with Cu-Mn-Co brazing metal. Science and Engineering of Composite Materials, 2015, 22(3):245-250.

    [29] 杨骏, 夏春智, 许祥平, 邹家生. 不同钎料真空钎焊 W‐Cu/Fe 基粉末合金的接头组织与性能分析. 第十二届华东六省一市焊接技术交流会. 201510, 青岛

    [28] 吴磊, 夏春智, 许祥平, 邹家生. 钼铼合金焊接技术研究现状. 第十二届华东六省一市焊接技术交流会. 201510, 青岛

    [27] Jianing Li, Chunzhi Xia, Peng Liu, Guanghui Pan, Congwei Wang. Physical properties and microstructure performance of ultrafine nanocrystals reinforced laser 3D print microlaminates. Journal of Alloys and Compounds, 2015, 645:504-508.

    [26] C. Z. Xia, Q. H. Liang, J. S. Zou and X. P. Xu. Microstructural Investigation of W-Cu Composite and 1Cr18Ni9 Stainless Steel Brazed Joint with Ag-Cu Filler Metal. High Temperature Materials and Processes, 2014, 33(3): 293-298.

    [25] 夏春智, 梁秋会, 邹家生, 许祥平. 采用Fe基非晶钎料钎焊W-Cu复合材料界面组织与弯曲强度. 焊接, 2014, (1): 39-42.

    [24] 夏春智, 汪从喜, 梁秋会, 邹家生, 许祥平. W-Cu复合材料与不锈钢真空钎焊材料研究. 焊接, 2014, (9): 24-28.

    [23] 梁秋会, 夏春智, 邹家生, 许祥平. W-Cu复合材料与不锈钢的真空钎焊材料研究. 第十八次全国焊接学术会议. 201310, 南昌.

    [22] C. Z. Xia, Q. H. Liang, D. F. Chen. Investigation of microstructure and properties near the interface of Copper/Aluminum brazed joint. Kovove Materialy-Metallic Materials,2013, 51(4): 235-239.

    [21] 夏春智, 梁秋会, 邹家生, 许祥平. 基于Fe基非晶钎料钎焊W-Cu复合材料界面组织与弯曲强度. 第二十届全国钎焊及特种连接技术交流会. 20139, 西安.

    [20] 夏春智, 许祥平, 邹家生. 工科高校特色专业人才教育教学的实践与思考—以江苏科技大学焊接技术与工程专业为例. 新校园, 2013, (11): 46.

    [19] 梁秋会, 夏春智, 许祥平, 邹家生. 不同钎料真空钎焊W-Cu/18-8钢接头组织与性能分析. 焊接技术, 2013, 42(9): 14-17.

    [18] 夏春智, 李亚江, 王娟. 粉末高温合金焊接的研究进展. 焊接, 2012, (3): 14-17.

    [17] Y. J. Li, C. Z. Xia, J. Wang. Stress distribution near the diffusion bonding interface of Fe3Al and Cr18-Ni8 stainless steel. Kovove Materialy-Metallic Materials, 2012, 50(3): 193-197.

    [16] 夏春智, 梁秋会, 李亚江. Cu/Al 直接钎焊接头组织性能研究. 第十六次全国焊接学术会议. 201110, 镇江.

    [15] Xia Chunzhi, Li Yajiang, Wang Juan, et al. Studies on weldability of nichrome-laminated powder alloy using TIG welding. Kovove Materialy-Metallic Materials, 2010, 48(4): 257-263.

    [14] Xia Chunzhi, Li Yajiang, U.A. Puchkov, et al. Microstructural study of super Ni laminated composite/1Cr18Ni9Ti steel dissimilar welded joint. Materials Science and Technology, 2010, 26(11): 1358-1362.

    [13] 夏春智, 李亚江, U.A. Puchkov, 王娟. Super-Ni叠层复合材料与18-8TIG焊接头区显微组织的研究. 中国有色金属学报, 2010, 20(6): 1149-1154.

    [12] 李亚江, 夏春智, U.A.Puchkov, 王娟. Super-Ni/NiCr叠层复合材料与18-8钢的焊接性. 焊接学报, 2010, 31(2): 13-16.

    [11] 李亚江, 夏春智, 石磊. 国内镍基高温合金的焊接研究现状. 现代焊接,2010, (7): 1-4.

    [10] Xia Chunzhi, Li Yajiang, U.A. Puchkov, et al. Crack Analysis near the Vacuum Brazing Interface of Cu/Al Dissimilar Materials using Al-Si Brazing Alloy. Materials Science and Technology, 2009, 25(3): 383-387.

    [9] 夏春智, 李亚江, 王娟. 基于Sn-Pb钎料的Cu/Al钎焊接头组织结构分析. 焊接, 2009, (3): 42-45.

    [8] 李亚江, 夏春智, U.A.Puchkov, 陈谦. 高能束流焊接技术在航空发动机耐热材料中的应用. 航空制造技术, 2009,(8): 42-46.

    [7] 李亚江, 夏春智, U.A.Puchkov, 王娟.Super-Ni叠层材料与 1Cr18Ni9Ti钢焊接性的研究. 中国科技论文在线学报, 2009, 4(4): 253-258.

    [6] Juan wang, Yajiang Li, Chunzhi Xia. Stress Distribution at Diffusion-bonded Interface of Fe3Al with Cr18-Ni8 Steel. China Welding, 2008, 17(3): 46-50.

    [5] Xia Chunzhi, Li Yajiang, U.A. Puchkov, et al. Microstructure and phase constitution near the interface of Cu/Al vacuum brazing using Al-Si filler metal. Vacuum, 2008, 82 (8): 799-804.

    [4] 夏春智, 李亚江, 王娟. Cu/Al异种金属连接的研究现状. 焊接, 2008, (1): 17-20.

    [3] Xia Chunzhi, Li Yajiang. Wang Juan, et al. Microstructure and phase constitution near interface of Cu/Al vacuum brazing. Materials Science and Technology, 2007, 23 (7): 815-818.

    [2] 夏春智, 李亚江, 王娟. 工艺参数对Fe3AlQ235扩散焊接头应力分布的影响. 焊接技术, 2006. 35(5): 10-12.

    [1] Yajiang Li, Juan wang, Chunzhi Xia. Interface Microstructure and Diffusion Mechanism in the Diffusion Bonding of Copper and Aluminum. International Journal for the Joining of Materials, 2006, 18(3-4): 94-98.