張國軍

1987年至1996年在中國建築材料科學研究院從事特種陶瓷的研究與開發工作。

1996年至2005年在日本產業技術綜合研究所（AIST九州中心和中部中心）從事先進陶瓷的研究與開發工作。

2005年獲中科院“百人計劃”基金資助回中國科學院上海硅酸鹽研究所工作。

現任高性能陶瓷和超微結構國家重點實驗室副主任，先進非氧化物陶瓷課題組組長，研究員，博士生導師。

長期從事非氧化物陶瓷（TiN、Ti(C,N)、TiB2、BN、B4C、ZrB2、Si3N4、SiC、AlN、HfB2、HfC、MoSi2等）的製備科學與力學性能表徵，多孔陶 瓷的製備與性能表徵，層狀陶瓷的設計製備與模型，陶瓷材料的反應合成以及金屬和玻璃熔體對陶瓷材料的潤濕與腐蝕行為等研究。

至今已發表SCI論文150餘篇，他人引用1000餘次，申請專利20餘項。

研究方向

1.超高溫陶瓷

Ultra-High TemperatureCeramics (UHTCs)

2.超高溫陶瓷纖維及複合材料

Ultra-High TemperatureCeramic Fibers and Composites

3.高導熱無機/有機複合材料

High Thermal ConductiveCeramic/Organic Polymer Composites

4.第四代先進核能系統(Gen IV)用陶瓷材料

Inert Matrix Fuels (IMF)for Gen IV Nuclear Systems

5.多層次及形貌可控高性能陶瓷粉體的合成與表面改性

Synthesis and SurfaceModification of High Performance Ceramic Powders with Controllable ParticleSize and Morphology

6.織構化先進非氧化物陶瓷材料

Textured AdvancedNon-Oxide Ceramics

7.氮化硼與碳化硼陶瓷

Boron Nitride and BoronCarbide Ceramics

8.高溫熔體對陶瓷材料的潤濕與腐蝕行為

High Temperature WettingBehavior of Ceramics with Molten Glass and Metals

論文著作

1. G. J. Zhang, Z. Z. Jinand X. M. Yue, “TiN-TiB2 Composites Prepared by Reactive Hot Pressing andEffects of Ni Addition,” J. Am. Ceram. Soc., 78 2831-2833 (1995).

2. G. J. Zhang, X. M. Yue,Z. Z. Jin and J. Y. Dai, “In-Situ Synthesized TiB2 Toughened SiC,” J. Eur.Ceram. Soc., 16, 409-412 (1996).

3. G. J. Zhang, X. M. Yueand Z. Z. Jin, “Preparation and Microstructure of TiB2-TiC-SiCPlatelet-Reinforced Ceramics by Reactive Hot-Pressing,” J. Eur. Ceram. Soc.,16, 1145-1148 (1996).

4. G. J. Zhang, X. M. Yueand T. Watanabe, “High-Temperature Multilayer Composites with SuperplasticInterlayers,” J. Am. Ceram. Soc., 82 3257-3259 (1999).

5. G. J. Zhang and T.Ohji, “Effect of BN Content on Elastic Modulus and Bending Strength of SiC-BNIn Situ Composites,” J. Mater. Res., 15 1876-1880 (2000).

6. G. J. Zhang, Z. Y.Deng, N. Kondo, J. F. Yang and T. Ohji, “Reactive Hot Pressing of ZrB2-SiCComposites,” J. Am. Ceram. Soc., 83 2330-2332 (2000).

7. G. J. Zhang, X. M. Yueand T. Watanabe, “In situ synthesis of Mo(Si,Al)2-SiC Composites,” J. Mater.Sci., 35 4729-4733 (2000).

8. G. J. Zhang, Y. Beppu,T. Ohji and S. Kanzaki, “Reaction Mechanism and Microstructure Development ofStrain Tolerant In Situ SiC-BN Composites,” Acta Mater., 49 77-82(2001).

9. G. J. Zhang, J. F. Yangand T. Ohji, “Fabrication of Porous Ceramics with Unidirectionally AlignedContinuous Pores,” J. Am. Ceram. Soc., 84 1395-1397 (2001).

10. G. J. Zhang and T.Ohji, “In Situ Reaction Synthesis of SiC-BN Composites,” J. Am. Ceram. Soc., 84 1475-1479 (2001).

11. G. J. Zhang, J. F.Yang, M. Ando and T. Ohji, “Reaction Synthesis of Aluminum Nitride-BoronNitride Composites Based on the Nitridation of Aluminum Boride,” J. Am. Ceram.Soc., 85 2938-2944 (2002).

12. G. J. Zhang, M. Ando,J. F. Yang, T. Ohji and S. Kanzaki, “Boron Carbide and Nitride as Reactants forIn Situ Synthesis of Boride-Containing Ceramic Composites,” J. Eur. Ceram.Soc., 24 171-178 (2004).

13. G. J. Zhang, J. F.Yang, M. Ando and T. Ohji, “Reactive Hot Pressing of Alumina-Silicon CarbideNanocomposites,” J. Am. Ceram. Soc., 87 299-301 (2004).

14. G. J. Zhang, J. F.Yang, M. Ando, T. Ohji and S. Kanzaki, “Mullite-Boron Nitride Composite withHigh Strength and Low Elasticity,” J. Am. Ceram. Soc., 87 296-298(2004).

15. G. J. Zhang, J. F.Yang, M. Ando, T. Ohji and S. Kanzaki, “Reactive Synthesis of Alumina-BoronNitride Composites,” Acta Mater., 52 1823-1835 (2004).

16. G. J. Zhang, M. Ando,T. Ohji and S. Kanzaki, “High-Performance Boron Nitride-Containing Compositesby Reaction Synthesis for the Applications in the Steel Industry,” Int. J.Appl. Ceram. Technol., 2 162–171 (2005).