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轨梁轧辊表面激光熔覆改性技术(6)
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摘要:[7] 曹燕, 张军田, 王巍, 等. 高铬铸钢轧辊热疲劳过程的组织和性能[J]. 东北大学学报(自然科学版), 2011, 32(10): 1414-1417. CAO Yan, ZHANG Jun-tian, WANG Wei, , et al. Mi
[7] 曹燕, 张军田, 王巍, 等. 高铬铸钢轧辊热疲劳过程的组织和性能[J]. 东北大学学报(自然科学版), 2011, 32(10): 1414-1417. CAO Yan, ZHANG Jun-tian, WANG Wei, , et al. Microstructure and thermal fatigue properties of high chromium cast steel roll [J]. Journal of Northeastern University (natural science), 2011, 32(10): 1414-1417.
[8] 王建升, 孟惠民, 张瑞珠, 等. 铸钢轧辊电火花沉积WC-4Co 涂层组织和性能分析[J]. 焊接学报, 2010, 31(10): 43-46. WANG Jian-sheng, MENG Hui-min, ZHANG Rui-zhu, et al. Microstructure and properties analysis of WC-4Co coating on cast steel roll EDM [J]. Transactions of the China Welding Institution, 2010, 31(10): 43-46.
[9] 曹燕, 张军田, 殷福星, 等. 高铬铸钢轧辊外层凝固组织研究[J]. 钢铁研究学报, 2009, 21(11): 31-34. CAO Yan, ZHANG Jun-tian, YIN Fu-xing, et al. Solidifying microstructure at outer layer of high chromium steel roll [J]. Journal of iron and steel research, 2009, 21(11): 31-34.
[10] 郭桂芳, 陈芙蓉, 李林贺. 激光熔覆技术在钛合金表面改性中的应用[J]. 表面技术, 2006, 35(1): 66-69. GUO Gui-fang, CHEN Fu-rong, LI Lin-he. Application of laser cladding in surface modification of titanium alloy [J]. Surface technology, 2006, 35(1): 66-69.
[11] 蔡利芳, 席明哲, 张永忠, 等. 铝合金激光表面改性技术研究进展[J]. 材料保护, 2006(10): 49-53. CAI Li-fang, XI Ming-zhe, ZHANG Yong-zhong, et al. Research progress in laser surface modification of aluminum alloys[J]. Materials protection, 2006(10): 49-53.
[12] 王东生, 田宗军, 沈理达, 等. 钛合金激光表面改性技术研究现状[J]. 激光与光电子学进展, 2008(6): 24-32. WANG Dong-sheng, TIAN Zong-jun, SHEN Li-da, et al. Research states of laser surface modification technology on titanium alloys [J]. Laser & optoelectronics progress, 2008(6): 24-32.
[13] 刘宇刚, 游明琳, 李安书. 激光熔覆技术在数控刀具表面改性中的应用[J]. 工程与试验, 2010, 50(1): 58-60. LIU Yu-gang, YOU Ming-lin, LI An-shu. Application on laser cladding technology for surface modification research of CNC tool [J]. Engineering & test, 2010, 50(1): 58-60.
[14] 韩彬, 齐从华, 王勇, 等. 激光熔覆-离子渗硫复合改性层的减摩耐磨性能[J]. 中国表面工程, 2014, 27(4): 70-75. HAN Bin, QI Cong-hua, WANG Yong, et al. Properties of antifriction and wear resistance of laser cladding-ion sulfide layer [J]. China surface engineering, 2014, 27(4): 70-75.
[15] 韩彬, 张蒙科, 崔岗, 等. 镍基合金激光熔覆-离子渗硫复合改性层组织性能[J]. 焊接学报, 2016, 37(10): 1-4. HAN Bin, ZHANG Men-ke, HE Gang, et al. Microstructure and properties of Ni based alloy composite coating by laser [J]. Transactions of the China Welding Institution, 2016, 37(10): 1-4.
[16] 李鹏飞, 王宏宇, 汪涵, 等. 激光熔注氧化铈改性铝硅涂层的工艺优化及微观组织[J]. 材料热处理学报, 2017, 38(7): 145-150. LI Peng-fei, WANG Hong-yu, WANG Han, et al. Process optimization and microstructure of cerium oxide modified Al-Si coatings by laser melt injection[J]. Transactions of materials and heat treatment, 2017, 38(7): 145-150.
[17] 徐泽洲, 王志英, 何志军, 等. 激光功率对激光熔覆CeO2改性316L 涂层组织与性能的影响[J]. 稀有金属, 2019(6): 1-6. XU Ze-zhou, WANG Zhi-ying, HE Zhi-jun, et al. Effect of laser power on microstructure and properties of laser cladding CeO2modified 316L coating [J]. Chinese journal of rare metals, 2019(6): 1-6.
[18] 张昌春, 石岩. 激光熔覆高厚度涂层技术研究现状及发展趋势[J]. 激光技术, 2011, 35(4): 448-452. ZHANG Chang-chun, SHI Yan. Current status and development of high thickness coating by laser cladding technology [J]. Laser technology, 2011, 35(4): 448-452.
[19] KUSINSKI J, KAC S, KOPIA A, et al. Laser modification of the materials surface layer—A review paper[J]. Bulletin of the polish academy of sciences: Technical sciences, 2012, 60(4): 711-728.
GAN Wei, XU Ke, LIU Tao, et al. Laser cladding modification technology for cast steel BD1 roller surface[J]. Surface technology, 2020, 49(10): 205-213.
文章来源:《中国表面工程》 网址: http://www.zgbmgc.cn/qikandaodu/2021/0708/647.html
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