1.Quncheng Fan, Huifen Chai, Zhihao Jin,Dissolution-precipitation-substitution mechanism of self-propagating high-temperature synthesis of β-NiAl(Cu)/α(Cu,Ni) composite, Intermitallics,
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 10(6): 541~554, 2002;
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 2.Quncheng Fan, Huifen Chai, Zhihao Jin, Effects of particle size of reactant on characteristics of combustion synthesis TiC-Fe cermet, Journal of Materials Science, 37(11): 2251~2257, 2002;
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 3.Quncheng Fan, Huifen Chai, Zhihao Jin, Dissolution-precipitation mechanism of self-propagating high-temperature synthesis of mononickel aluminide,Intermitallics, 9(7): 609~619, 2001;
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 4.Quncheng Fan, Huifen Chai, Zhihao Jin, Dual-solution-precipitation mechanism of combustion synthesis of TiC-Fe cermet with fine Ti powder, Journal of Materials Science, 36(23): 5559~5563, 2001;
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 5.Quncheng Fan, Huifen Chai, Zhihao Jin, Mechanism of combustion synthesis of TiC-Fe cermet, Journal of Materials Science, 34(1): 115~122, 1999;
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 6.Quncheng Fan, Huifen Chai, Zhihao Jin, Microstructural evolution of the titanium particles in the in-situ combustion of TiC-Fe by the combustion synthesis, Journal of Materials Processing Technology, 96(1-3):102~107, 1999;
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 7.Quncheng Fan, Huifen Chai, Zhihao Jin, Role of iron addition in the combustion synthesis of TiC-Fe cermet, Journal of Materials Science, 32(16): 4319~4323,1997;
(科技在线,版权所有,未经许可,请勿转载 http://www.xjtust.com) 8.Quncheng Fan, Huifen Chai, Zhihao Jin, Microstructural evolution in the combustion synthesis of titanium carbide, Journal of Materials Science, 31: 2573~2577, 1996
|