[1]
Xu Binshi. Development of Surface Engineering in China. Chinese Mechanical Engineering Society 60th anniversary of the academic set of advanced manufacturing technology 1996: P23-28.
Google Scholar
[2]
Ma Xiang, Bai Dezhong. Large forging manufacturing process. Inner Mongolia, the second machine. Mechanical Staff College. P55-57.
Google Scholar
[3]
Throop J Underwood JH, Leger G S. Thermal Relaxation in Autofrettage Cylinders ADA 13210. (1982).
Google Scholar
[4]
Xu Binshi, Ma Shining, Liu and other parameters. Surface Engineering and re-manufacturing engineering. Materials Protection . 2000: P2-4.
Google Scholar
[5]
Vlatsos A E. Near-infrared Radiation Intensity from Exploding Wire. Journal of Applied Physics, 1973, 43 (10): P3521-3526.
Google Scholar
[6]
Zeng Ziying. Gun Barrel strength design theory. National Defense Industry Press, 2004: P60.
Google Scholar
[7]
Chen talent. Domestic Gun Barrel Life Extension Technology Research. Ordnance Technology, 2006 02: P11-18.
Google Scholar
[8]
electrothermal explosion spraying process and equipment development and application of technical reports., Branch of Zhejiang Academy of Machinery Science Co., Ltd. P24-27.
Google Scholar
[9]
in the large-caliber smoothbore gun barrel bore chrome ablative layer specifications, (GJB3565A-2007). Defense Science, Technology and Industry Committee issued. P1-6.
Google Scholar
[10]
Qiu Fen. Modern scattered refractory metals and metal analysis. Beijing. Chemical Industry Press. 2006: P88-148.
Google Scholar
[11]
tank gun barrel bore chrome local ablative layer specifications, (GJB5981-2007). Defense Science, Technology and Industry Committee issued. P1-5.
Google Scholar
[12]
Metal on metal matrix coating adhesion test method, (GB5210-85). National Bureau of Standards published. P1-5.
Google Scholar
[13]
ablative material ablation test method, (GJB323A-96). Defense Science, Technology and Industry Committee issued. P1-5.
Google Scholar
