張暉(中國科學院國家納米科學中心副研究員)

1998至2002年在航天材料及工藝研究所工作，主要從事聚合物基防熱燒蝕材料製備工藝和性能的研究。

2006年在德國凱澤斯勞滕大學獲得博士學位。

2007年加入國家納米科學中心工作。目前已發表SCI論文十餘篇。

1）聚合物基納米複合材料在不同應力條件下的力學行為，主要包括疲勞、斷裂、蠕變、摩擦磨損等；

2）納米複合材料的細觀力學行為；

3）功能納米複合材料；

4）納米複合材料的宏量製備技術及套用研究。

納米複合材料

1. Jiang, H-H., Zhou, H-J., Zhang, H.: Study on the flame-retardant mechanism of PET fibers, Journal of Beijing University of Chemical Technology

2. Zhang, H., Zhang, Z., and Breidt, C.: Comparison of short carbon fiber surface treatment on epoxy composites: I. Enhancement of the mechanical properties, Composites Science and Technology

3. Zhang, H., Zhang, Z.: Comparison of short carbon fiber surface treatment on epoxy composites: II. Enhancement of the wear resistance, Composites Science and Technology

4. Yang, J-L., Zhang, Z., Zhang, H.: The essential work of fracture of polyamide 66 filled with TiO2 nanoparticles, Composites Science and Technology

5. Chang, L., Zhang, Z., Zhang, H. and Friedrich, K.: Effect of nanoparticles on the tribological behaviour of short carbon fibre reinforced poly(etherimide) composites, Tribology International

6. Chang, L., Zhang, Z., Zhang, H. and Schlarb, A.K.: On the sliding wear of nanoparticles filled polyamide 6,6, Composites Science and Technology

7. Zhang, H., Zhang, Z., Yang, J-L., Friedrich, K.: Temperature dependence of crack initiation fracture toughness of various nanoparticles filled polyamide 66, Polymer

8. Zhang, H., Zhang, Z., Friedrich, K.: Properties improvements of in situ epoxy nanocomposites with reduced interparticle distance at high nanosilica content, Acta Materialia

9. Song, L., Zhang, H., Zhang, Z. and Xie, S.S.: Processing and mechanical performance of SWNT paper reinforced PEEK nanocomposites, Composites Part A

10. Zhang, H., Zhang, Z., Friedrich, K.: Effect of fibre length on the wear resistance of short carbon fibre reinforced epoxy composites, Composites Science and Technology

11. Jiang, Z-Y., Zhang, H., Liu, S., Zhang, Z.: Improved interfacial bonding of carbon fiber/epoxy matrix modified by well-dispersed nano-SiO2 particles, Journal of Experimental Mechanics

12. Zhang, H., Zhang, Z.: Influence of surface-modified TiO2 nanoparticles on fracture behavior of injection molded polypropylene, Frontiers of Materials Science in China

13. Zhang, H., Tang, L-C., Zhang, Z. Friedrich, K., Sprenger, S: Fracture behaviors of in situ silica nanoparticle-filled epoxy at different temperatures, Polymer

14. Liu, S., Zhang, H., Zhang, Z., Sprenger, S.: Epoxy nanocomposites with high volume content nanosilica particles. Journal of Nanoscience and Nanotechnology

15. Starkova, O., Zhang, Z., Zhang, H., Park, H-W.: Limits of the linear viscoelastic behaviour of polyamide 6,6 filled with TiO2 nanoparticles: Effect of strain rate, temperature, and moisture. Materials Science and Engineering A

16. Liu, S., Zhang, H., Zhang, Z., Zhang, TH., Sprenger S.: Tailoring the mechanical performance of epoxy resin by various nanoparticles. Polymers and Polymer Composites

17. Jiang, Z-Y., Zhang, H., Zhang, Z., Murayama, H., Okamoto, K.: Improved bonding between PAN-based carbon fibers and fullerene-modified epoxy matrix. Composites Part A

18. Zhang, H., Zhang, H., Tang, L-C., Zhang, Z., et al.: Wear-resistant and transparent acrylate-based coating highly filled with nanosilica particles. Tribology International (accepted after minor revision).