金刚石颗粒增强铝基(diamond/Al)复合材料是最受关注的新一代电子封装材料.本文采用气体压力熔渗法制备了金刚石体积分数达到65%的diamond/Al复合材料;通过对相组成及断口形貌的分析,明确了复合材料的界面优化机制及破坏方式,在此基础上,系统研究了复合材料的热物理性能和力学性能随金刚石粒度的变化规律.气体压力熔渗法制备diamond/Al复合材料可以依靠基体铝与金刚石间的扩散反应实现界面优化,显著改善界面形貌,提高结合强度,复合材料断口微观形貌则呈现出典型的塑性断裂特征;依靠两相原位反应优化后的界面可以更加有效的实现热载流子的耦合移动和应力的传递,从而保证复合材料可以获得更为优异的热导率和力学性能;随着金刚石颗粒直径减小,两相界面的影响得以加强,因此复合材料热导率降低,热膨胀系数小幅减小,而力学性能提高,在本文选择的粒度范围内(30~ 150 μm),复合材料的热导率、热膨胀系数以及抗拉、抗压、抗弯强度的相应变化区间分别为400~760 W·m-1·K-1、4.5 ~5.3×10-6 K-1、143~ 94 MPa、603 ~ 363 MPa和429 ~ 277 MPa.
参考文献
| [1] | 江泽民.新时期我国信息技术产业的发展[J].上海交通大学学报,2008(10):1589-1607. |
| [2] | Carl Zweben .Thermal Materials Solve Power Electronics Challenges[J].Power Electronics Technology,2006(2):40-47. |
| [3] | Y. Zhang;H.L. Zhang;J.H. Wu .Enhanced thermal conductivity in copper matrix composites reinforced with titanium-coated diamond particles[J].Scripta materialia,2011(12):1097-1100. |
| [4] | Xue, C.;Yu, J.K..Enhanced thermal conductivity in diamond/aluminum composites: Comparison between the methods of adding Ti into Al matrix and coating Ti onto diamond surface[J].Surface & Coatings Technology,2013:46-50. |
| [5] | Jianhua Wu;Hailong Zhang;Yang Zhang;Jianwei Li;Xitao Wang .Effect of copper content on the thermal conductivity and thermal expansion of Al-Cu/diamond composites[J].Materials & design,2012(Aug.):87-92. |
| [6] | Kiyoshi Mizuuchi;Kanryu Inoue;Yasuyuki Agari;Yoshiaki Morisada;Masami Sugioka;Motohiro Tanaka;Takashi Takeuchi;Jun-ichi Tani;Masakazu Kawahara;Yukio Makino .Processing of diamond particle dispersed aluminum matrix composites in continuous solid-liquid co-existent state by SPS and their thermal properties[J].Composites, Part B. Engineering,2011(4):825-831. |
| [7] | Kiyoshi Mizuuchi;Kanryu Inoue;Yasuyuki Agari;Yoshiaki Morisada;Masami Sugioka;Motohiro Tanaka;Takashi Takeuchi;Masakazu Kawahara;Yukio Makino .Thermal conductivity of diamond particle dispersed aluminum matrix composites fabricated in solid-liquid co-existent state by SPS[J].Composites, Part B. Engineering,2011(5):1029-1034. |
| [8] | K.A. Weidenmann;R. Tavangar;L. Weber .Mechanical behaviour of diamond reinforced metals[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2009(1/2):226-234. |
| [9] | K.A. Weidenmann;R. Tavangar;L. Weber .Rigidity of diamond reinforced metals featuring high particle contents[J].Composites science and technology,2009(10):1505-1515. |
| [10] | M. Schobel;H.P. Degischer;S. Vaucher;M. Hofmann;P. Cloetens .Reinforcement architectures and thermal fatigue in diamond particle-reinforced aluminum[J].Acta materialia,2010(19):6421-6430. |
| [11] | 丁兰英,傅玉灿,陈燕,苏宏华,向孙祖,徐九华,徐鸿钧.Ag-Cu-Ti/TiC复合钎料钎焊细粒度金刚石的研究[J].人工晶体学报,2013(08):1509-1514. |
| [12] | 姚怀,张楠楠,王璐,丁留亮.金刚石表面化学镀铜的研究[J].人工晶体学报,2014(04):986-990. |
| [13] | Zhanqiu Tan;Zhiqiang Li;Genlian Fan;Qiang Guo;Xizhou Kai;Gang Ji;Lanting Zhang;Di Zhang .Enhanced thermal conductivity in diamond/aluminum composites with a tungsten interface nanolayer[J].Materials & design,2013(May):160-166. |
| [14] | Liang, X.;Jia, C.;Chu, K.;Chen, H.;Nie, J.;Gao, W. .Thermal conductivity and microstructure of Al/diamond composites with Ti-coated diamond particles consolidated by spark plasma sintering[J].Journal of Composite Materials,2012(9):1127-1136. |
| [15] | Yang Zhang;Xitao Wang;Senbao Jiang;Jianhua Wu .Thermo-physical Properties of Ti-coated Diamond/Al Composites Prepared by Pressure Infiltration[J].Materials Science Forum,2010(Pt.3):2572-2575. |
| [16] | Wu, J.H.;Zhang, H.L.;Zhang, Y.;Li, J.W.;Wang, X.T..The role of Ti coating in enhancing tensile strength of Al/diamond composites[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2013:33-37. |
| [17] | pH值对金刚石表面化学镀镍的影响[J].人工晶体学报,2012(06):1629-1633. |
| [18] | Zhanqiu Tan;Zhiqiang Li;Genlian Fan;Xizhou Kai;Gang Ji;Lanting Zhang;Di Zhang .Fabrication of diamond/aluminum composites by vacuum hot pressing: Process optimization and thermal properties[J].Composites, Part B. Engineering,2013(Apr.):173-180. |
| [19] | Zhanqiu Tan;Zhiqiang Li;Genlian Fan.Diamond/aluminum composites processed by vacuum hot pressing: Microstructure characteristics and thermal properties[J].Diamond and Related Materials,2013:1-5. |
| [20] | I.E. Monje;E. Louis;J.M. Molina.Optimizing thermal conductivity in gas-pressure infiltrated aluminum/diamond composites by precise processing control[J].Composites, Part A. Applied science and manufacturing,2013:9-14. |
| [21] | Jianping Long;Xin Li;Dedi Fang .Fabrication of diamond particles reinforced Al-matrix composites by hot-press sintering[J].International Journal of Refractory Metals & Hard Materials,2013(NOV.):85-89. |
| [22] | P.W. Ruch;O. Beffort;S. Kleiner .Selective interfacial bonding in Al(Si)-diamond composites and its effect on thermal conductivity[J].Composites science and technology,2006(15):2677-2685. |
| [23] | O. Beffort;F.A. Khaltd;L. Weber .Interface formation in infiltrated Al(Si)/diamond composites[J].Diamond and Related Materials,2006(9):1250-1260. |
| [24] | 梁雪冰,褚克,贾成厂.放电等离子烧结制备Diamond/Al复合材料[J].复合材料学报,2008(06):192-197. |
| [25] | R. Tavangar;J.M. Molina;L. Weber .Assessing predictive schemes for thermal conductivity against diamond-reinforced silver matrix composites at intermediate phase contrast[J].Scripta materialia,2007(5):357-360. |
| [26] | 陈奎,张莉,臧传义,郑喜贵,朱永刚.快速合成立方六面体金刚石大单晶晶体的质量研究[J].人工晶体学报,2013(04):620-624,634. |
| [27] | 吴建华,张海龙,张洋,李建伟,王西涛.金刚石颗粒增强铝基复合材料的力学性能[J].功能材料,2012(23):3308-3311,3315. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%