[1] 姚成武, 黄坚. 轧辊表面激光强化与修复技术的应用现状[J]. 热加工工艺, 2007, 36(8): 69-77.

    Yao Chengwu, Huang Jian. Application status of laser hardening and repairing technology on roller surface[J]. Material & Heat Treatment, 2007, 36(8): 69-77.

[2] 臧辰峰, 刘常升. 轧辊表面激光处理技术的研究进展[J]. 材料导报(综述篇), 2010, 24(2): 6-10.

    Zang Chenfeng, Liu Changsheng. Research progress of laser modification techniques used on roller surface[J]. Materials Review (Review Article), 2010, 24(2): 6-10.

[3] 孙桂芳, 刘常升, 陶兴启, 等. 高镍铬无限冷硬铸铁轧辊表面激光合金化的研究[J]. 东北大学学报(自然科学版), 2008, 29(6): 845-848.

    Sun Guifang, Liu Changsheng, Tao Xingqi, et al.. Research on laser alloying of high-Ni-Cr infinite chilled cast iron roller[J]. Journal of Northeastern University (Natural Science), 2008, 29(6): 845-848.

[4] 鲁建, 骆芳. 激光合金化技术提高轧辊寿命的研究[J]. 浙江冶金, 2007, (4): 41-45.

    Lu Jian, Luo Fang. Research on improving roller life by laser alloying technique[J]. Zhejiang Metallurgy, 2007, (4): 41-45.

[5] 孙荣敏, 冯树强, 温宗胤, 等. 低镍铬无限冷硬铸铁轧辊激光表面合金化的工艺研究[J]. 应用激光, 2009, 29(6): 493-496.

    Sun Rongmin, Feng Shuqiang, Wen Zongling, et al.. Research on laser alloying process of low-Ni-Cr infinite chilled cast iron roller[J]. Applied Laser, 2009, 29(6): 493-496.

[6] 陈长军, 张敏. 中镍铬无限冷硬铸铁轧辊激光表面强化[J]. 应用激光, 2010, 30(1): 26-31.

    Chen Changjun, Zhang Min. Laser surface strengthening of medium-Ni-Cr infinite chilled cast iron roller[J]. Applied Laser, 2010, 30(1): 26-31.

[7] 侯心愿, 魏国. 激光轧辊强化技术应用[J]. 河南冶金, 2007, 15(5): 46-47.

    Hou Xinyun, Wei Guo. The application of laser roller strengthens technology[J]. Henan Metallurgy, 2007, 15(5): 46-47.

[8] 宋阳, 朱世根, 渠彬, 等. 轧辊表面修复与强化的技术途径[J]. 机械设计与制造, 2005, 8: 113-115.

    Song Yang, Zhu Shigen, Qu bin, et al.. Methods to repair and strengthen surface of the roll[J]. Machinery Design & Manufacture, 2005, 8: 113-115.

[9] Tong Xin, Li Fuhai, Liu Min, et al.. Thermal fatigue resistance of non-smooth cast iron treated by laser cladding with different self-fluxing alloys[J]. Optics and Laser Technology, 2010, 42(7): 1154-1161.

[10] 张国栋, 黄安国, 李志远, 等. 高镍铬无限冷硬铸铁轧辊激光相变硬化[A]. 第六届全国表面工程学术会议论文集[C]. 2006.

    Zhang Guodong, Huang Anguo, Li Zhiyuan, et al.. Laser transformation hardening of high-Ni-Cr infinite chilled cast iron roller[A]. The Sixth National Conference on Surface Engineering[C]. 2006.

[11] 李朝晖. 激光表面强化技术处理轧辊的生产实践[J]. 河北冶金, 2008, (2): 29-30.

    Li Zhaohui. Practice to strengthen surface of roller with laser[J]. Hebei Metallurgy, 2008, (2): 29-30.

[12] Lin Chaowen, Wang Yong, Zhang Zhe, et al.. Influence of overlapping ratio on hardness and residual stress distributions in multi-track laser surface melting roller steel[J]. Optics and Lasers in Engineering, 2010, 48(12): 1224-1230.

[13] 吴国胜, 王玉涛. 激光表面强化处理高NiCr无限冷硬铸铁轧辊材料研究[J]. 武汉工程职业技术学院学报, 2008, 20(4): 1-3.

    Wu Guosheng, Wang Yutao. Laser surface hardening of high NiCr indefinite chill cast iron roll material[J]. Journal of Wuhan Engineering Institute, 2008, 20(4): 1-3.

[14] YB4052-1991,高镍铬无限冷硬离心铸铁轧辊金相检验[S]. 1991.

    YB4052-1991, Metallographic test of high-Ni-Cr infinite chilled centrifugal cast iron roller[S]. 1991.

[15] 石世宏. 激光熔覆工艺与粉末对覆层开裂行为的影响[D]. 长沙: 中南大学, 1998.

    Shi shihong. Influences of technology and powder in laser cladding treatment on cracking behavior of cladding layer[D]. Changsha: Central South University, 1998.

[16] 董秀花. 激光强化处理参数对轧辊表面性能的影响[J]. 包头钢铁学院学报, 2003, 22(3): 242-246.

    Dong Xiuhua. Effect of parameters of laser intensify treatment process on milling roll surface properties[J]. Journal of Baotou University of Iron and Steel Technology, 2003, 22(3): 242-246.

[17] Yungchun Lee, Chengyu Chiu. Roller-based laser-assisted direct imprinting for large-area and continuous nano-fabrication[J]. Microelectronic Engineering, 2010, 87: 35-40.

[18] Janne Nurminen, Jonne Nakki, Petri Vuoristo. Mcrostructure and properties of hard and wear resistant MMC coatings eposited by laser cladding[J]. Int J Refractory Metals & Hard Materials, 2009, 27: 472-478.