PDF《姓名： 张朝晖 出生年月： 1972 年11 月》

Design. 2014, 64, 625-630. [4] J.F. Lu, Z.H. Zhang, F.C. Wang. Microstructure Characteristics and Mechanical Properties of In Situ TiB/Ti Composites Prepared by Arc-melting Technique. Advanced Materials Research. 2014, 881-883, 867-871. [5] X.B. Shen, Z.H. Zhang, M.S. Cao, F.C. Wang. Efffect of Spark Plasma Sintering Temperature on Mechanical Properties of In-situ TiB/Ti Composites. Advanced Materials Research. 2014, 881-883, 923-926. [6] W.C. Zhai, Z.H. Zhang, F.C.Wang, S.K. Li. Effects of Particle Size on Microstructures and Properties of Si/Al Composites. Advanced Materials Research. 2014, 873, 361-365. [7] W.C. Zhai, Z.H. Zhang, F.C. Wang, X.B. Shen, S.K. Lee, L. Wang. Effect of Si content on microstructure and properties of Si/Al composites. Transactions of Nonferrous Metals Society of China. 2014, 24(4), 982-988. [8] S. Wei, Z.H. Zhang, F.C. Wang, X.B. Shen, H.N. Cai, S.K. Lee, L. Wang. Effect of Ti content and sintering temperature on the microstructures and mechanical properties of TiB reinforced titanium composites synthesized by SPS process. Materials Science and Engineering A. 2013, 560(10-11), 249-255. [9] Z.H. Zhang, X.B. Shen, F.C. Wang, S. Wei, S.K. Lee, H.N. Cai. Microstructure characteristics and mechanical properties of TiB/Ti-1.5Fe-2.25Mo composites synthesized in situ using SPS process. Transactions of Nonferrous Metals Society of China. 2013, 23(9), 2958-2604 [10] Z.H. Zhang, X.B. Shen, C. Zhang, S. Wei, S.K. Lee, F.C. Wang. A new rapid route to in-situ synthesize TiB-Ti system functionally graded materials using spark plasma sintering method. Materials Science and Engineering A. 2013, 565, 326-332. [11] Z.H. Zhang, L. Qi, X.B. Shen, F.C. Wang, S.K. Lee. Microstructure and mechanical properties of bulk carbon nanotubes compacted by spark plasma sintering. Materials Science and Engineering A. 2013, 573, 12-17. [12] M.Y. Sun, Z.H. Zhang, F.C. Wang, R. Yang, S.K. Lee. Numerical simulation of stress wave propagation and attenuation at arc-shaped interface inlayered SiC/Al composite. Journal of Beijing Institute of Technology 2013,22(4),557-562. [13] Z.H. Zhang, F.C. Wang, M.Y. Sun, R. Yang, S.K. Lee. Finite element analysis and experimental investigation of the hydrostatic extrusion process of deforming two-layer Cu/Al composite. Journal of Beijing Institute of Technology 2013,22(4),544-549. [14] S. Wei, Z.H. Zhang, X.B. Shen, F.C. Wang, M.Y. Sun, R. Yang, S.K. Lee. Simulation of temperature and stress distributions in functionally graded materials synthesized by a spark plasma sintering process. Computational Materials Science. 2012, 60, 168-175 [15] S. Wei, Z.H. Zhang, X.B. Shen, F.C. Wang, S.K. Lee. Numerical simulation for residual stresses of the spark plasma sintered Ti-TiB composites. Journal of Computational and Theoretical Nanoscience. 2012, 9(9), 1180-1184 [16] Z.H. Zhang, X.B. Shen, F.C. Wang, J. Luo, S.K. Lee. Sintering mechanism of the in situ spark plasma synthesized TiB-TiB2 ceramic composites. Journal of Northeastern University. 2012, 33(S2), 46-49. [17] Z.H. Zhang, X.B. Shen, F.C. Wang, S.K. Lee, Q.B. Fan, M.S. Cao. Low-temperature densification of TiB2 ceramic by spark plasma sintering process with Ti as a sintering aid. Scripta Materialia. 2012, 66, 167-170. [18] S. Wei, Z.H. Zhang, X.B. Shen, F.C. Wang, S.K. Lee. Simulation of the temperature distribution of gradient Ti-TiB composites prepared by spark plasma sintering process. Advanced Materials Research. 2011, 295-297, 2321-2324. [19] Z.H. Zhang, X.B. Shen, F.C. Wang, S.K. Lee. A new rapid route for in situ synthesizing monolithic TiB ceramic. Journal of the American Ceramic Society. 2011, 94(9), 2754-2756. [20] Hamza Cheloui, Z.H. Zhang, X.B. Shen, F.C. Wang, S.K.Lee. Microstructure and mechanical properties of TiB-TiB2 ceramic matrix composites fabricated by spark plasma sintering. Materials Science and Engineering A. 2011, 528(10-11), 3849-3853. [21] X.B. Shen, Z.H. Zhang, S. Wen, F.C. Wang, S.K. Lee. Microstructures and mechanical properties of the situ TiB-Ti metal-matrix composites synthesized by spark plasma sintering process. Journal of Alloys and Compounds. 2011, 509(29), 7692-7696. [22] Z.H. Zhang, F.C. Wang, J. Luo, S.K. Lee, L. Wang. Microstructures and mechanical properties of spark plasma sintered Al-SiC composites containing high volume fraction of SiC. Materials Science and Engineering: A. 2010, 527(27-28), 7235-7240. [23] Z.H. Zhang, X.B. Shen, F.C. Wang, S.K. Lee, L. Wang. Densification behavior and mechanical properties of the spark plasma sintered monolithic TiB2 ceramics. Materials Science and Engineering: A. 2010, 527(21-22), 5947-5951. [24] Z.H. Zhang, X.B. Shen, S. Wen, J. Luo, S.K. Lee, F.C. Wang. Situ reaction synthesis of Ti-TiB composites containing high volume fraction of TiB by spark plasma sintering process. Journal of Alloys and Compounds. 2010, 503(1), 145-150. [25] Z.H. Zhang, C. Zhang, F.C. Wang, S.K. Lee. Effect of annealing process on microstructure and mechanical properties of ultrafine copper prepared by spark plasma sintering. Journal of Beijing Institute of Technology. 2010, 19(1): 82-86 [26] Z.H. Zhang, F.C. Wang, J. Luo, S.K. Lee, L. Wang. Processing and characterization of fine-grained monolithic SiC ceramic synthesized by spark plasma sintering. Materials Science and Engineering: A. 2010, 527(1-2): 2099-2103 [27] 张朝晖, 陈焕德, 王富耻, 李树奎