[1] Yan Yongnian, Li Shengjie, Zhang Renji et al.. Rapid prototyping and manufacturing technology: principle, representative technics, applications, and development trends[J]. Tsinghua Science & Technology, 2009, 14(s1): 1~12
[5] L. Dong, A. Makradi, S. Ahzi et al.. Three-dimensional transient finite element analysis of the selective laser sintering process[J]. Journal of Materials Processing Technology, 2009, 209(2): 700~706
[7] J. C. Nelson , S. Xue, J. W. Barlow et al.. Model of the selective laser sintering of bisphenol-A polycarbonate[J] . Industrial & Engineering Chemistry Research, 1993, 32(10): 2305~2317
[8] Li Junchang.Diffraction of Laser and Calculation on Thermal Acting[M]. Beijing:Science Press, 2002
[10] Lin Ruitai. Heat Conduction Theory and Methods[M]. Tianjin: Tianjin University Press, 1992
[11] Hou Zhenbing, He Shaojie, Li Shuxian. Heat Conduction in Solid[M]. Shanghai:Shanghai Scientific and Technical Publishers, 1984
[13] Li Junchang, Li Xingyi, Fan Zebin et al.. Studies of the processing time and the temperature field of laser quenching on material surface[C]. SPIE, 1998, 3550: 190-4
[14] Xu Chengting, Shen Yifu, Gu Dongdong et al.. Progress in temperature field research into selective laser sintering process[J]. Foundry, 2004, 53(7): 511~515
[15] S. Yagi, D. Kunni. Studies on efective thermal conductivities in packed beds[J]. A I ch E J, 1957, 3: 83~95
[16] Lu Yuanjing, Wang Xiang, Nie Shizhen et al.. Experimental research on influence of compactness in SLS of PA6 powder material[J]. Modern Manufacturing Engineering, 2009, (10): 49~52
[17] Ma Zhigeng, Ren Lingbai. Manual of Modern Engineering Materials[M]. Beijing: National Defense Industry Press, 2005
[18] Li Hechang, Fang Cuihao. Thermal properties measurement system with transient method[J]. Measurement Technique, 2004, (4): 16~18