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为研究金刚石/铜复合材料界面传热对其导热性能的影响,采用放电等离子烧结制备了添加0.4~1.0 mass%TiO2的金刚石/铜复合材料,分析了其微观结构、物相组成和热导率,研究了TiO2对金刚石/铜复合材料导热性能的影响。结果表明:TiO2的添加使金刚石表面变得粗糙,且在金刚石和铜的界面处形成了TiC过渡层;TiC过渡层有效地改善了金刚石和铜的结合,从而减少了裂纹及孔洞的形成,提高了声子传热效率;添加0.8 mass%TiO2的金刚石/铜复合材料的热导率为421 W·m-1·K-1,达到理论热导率的73%,相比未添加TiO2的金刚石/铜复合材料(186 W·m-1·K-1)提高了1.26倍。
Abstract:In order to study the effect of interfacial heat transfer of diamond/copper composites on its thermal conductivity, the diamond/copper composites with TiO2 content of 0.4-1.0 mass% were prepared by spark plasma sintering, its microstructure, phase composition and thermal conductivity were analyzed, and the effect of TiO2 on the thermal conductivity of the diamond/copper composites was studied. The results show that the surface of diamond becomes rough with the addition of TiO2, and a TiC transition layer is formed at the interface between diamond and copper. The TiC transition layer effectively improves the combination of diamond and copper, thus reducing the formation of cracks and holes at the interface, and improving the phonon heat transfer efficiency. The thermal conductivity of the diamond/copper composites with TiO2 content of 0.8 mass% is 421 W·m-1·K-1, which reaches 73% of the theoretical thermal conductivity, and is 1.26 times higher than that of the diamond/copper composites without TiO2(186 W·m-1·K-1).
[1] Cui W,Xu H,Chen J H,et al.Effect of sintering on the relative density of Cr-coated diamond/Cu composites prepared by spark plasma sintering[J].International Journal of Minerals Metallurgy and Materials,2016,23(6):716-722.
[2] Lei L,Bolzoni L,Yang F.High thermal conductivity and strong interface bonding of a hot-forged Cu/Ti-coated-diamond composite[J].Carbon,2020,168(30):553-563.
[3] Wu X,Li L,Zhang W,et al.Effect of surface roughening on the interfacial thermal conductance of diamond/copper composites[J].Diamond and Related Materials,2019,98:107467.
[4] 熊美玲.镀Ti金刚石/铜复合材料界面结构与导热性能研究[D].哈尔滨:哈尔滨工业大学,2018.XIONG Mei-ling.Interface microstructure and thermal properties of titanium coated diamond/copper composites[D].Harbin:Harbin Institute of Technology,2018.
[5] 刘园,崔岩,郭开金,等.高导热金刚石/铝复合材料的研究进展[J].材料工程,2020,48(12):44-52.LIU Yuan,CUI Yan,GUO Kai-jin,et al.Research progress in high thermal conductivity diamond/aluminum composites[J].Journal of Materials Engineering,2020,48(12):44-52.
[6] Zhang Y,Zhang H L,Wu J H,et al.Enhanced thermal conductivity in copper matrix composites reinforced with titanium-coated diamond particles[J].Scripta Materialia,2011,65(12):1097-1100.
[7] Ciupiński ?,Kruszewski M J,Grzonka J,et al.Design of interfacial Cr3C2 carbide layer via optimization of sintering parameters used to fabricate copper/diamond composites for thermal management applications[J].Materials and Design,2017,120(15):170-185.
[8] Ke C,Jia C,Hong G,et al.On the thermal conductivity of Cu-Zr/diamond composites[J].Materials and Design,2013,45:36-42.
[9] Zhao D,Zha S,Liu D.Influence of sputtering and electroless plating of Cr/Cu dual-layer structure on thermal conductivity of diamond/copper composites[J].Diamond and Related Materials,2021,115:108296.
[10] Liu X,Wang L,Zhang Y,et al.Microstructural evolution of sandwiched Cr interlayer in Cu/Cr/diamond subjected to heat treatment[J].Thin Solid Films,2021,736(31):138911.
[11] Nie Q,Chen G,Wang B,et al.Effect of Invar particle size on microstructures and properties of the Cu/Invar bi-metal matrix composites fabricated by SPS[J].Journal of Alloys and Compounds,2022,891:162055.
[12] Wu X Z,Wan D Q,Zhang W,et al.Constructing efficient heat transfer channels at the interface of Diamond/Cu composites[J].Composite Interfaces,2021,28(6):1-11.
[13] Wu X,Li L,Zhang W,et al.Effect of surface roughening on the interfacial thermal conductance of diamond/copper composites[J].Diamond and Related Materials,2019,98:107467.
[14] 陈冰威,韩金江,余威,等.金刚石表面改性及基体合金化对金刚石/铜复合材料导热性能的影响[J].粉末冶金技术,2022,40(3):258-266.CHEN Bing-wei,HAN Jin-jiang,YU Wei,et al.Effects of diamond surface modification and matrix alloying on the thermal conductivity of copper/diamond composites[J].Powder Metallurgy Technology,2022,40(3):258-266.
[15] Wang Y,Duan K,Wang K,et al.Structure and thermal properties of layered Ti-clad diamond/Cu composites prepared by SPS and HP[J].Rare Metal Materials and Engineering,2018,47(7):2011-2016.
[16] 邓志银,高新亮,汪锋,等.钒钛磁铁矿碳热还原的试验研究[J].中国冶金,2011,21(2):15-19.DENG Zhi-yin,GAO Xin-liang,WANG Feng,et al.Experimental study on carbothermic reduction of vanadium-titanium magnetite[J].China Metallurgy,2011,21(2):15-19.
[17] 刘彦祥,侯新梅,周国治.TiO2-C体系在不同气氛下的反应[J].耐火材料,2013,47(6):401-405.LIU Yan-xiang,HOU Xin-mei,ZHOU Guo-zhi.Reactions of TiO2-C system in different atmospheres[J].Refractories,2013,47(6):401-405.
[18] Zheng Y,Yue J T,Zhang P,et al.Analysis of parameter influence law of waveguide Bragg grating[J].Optics and Laser Technology,2022,146:107576.
[19] 冯孟奇,贾淑果,李韶林,等.铜/碳复合材料的研究进展[J].材料热处理学报,2020,41(12):25-36.FENG Meng-qi,JIA Shu-guo,LI Shao-lin,et al.Research progress of Cu/C composites[J].Transactions of Materials and Heat Treatment,2020,41(12):25-36.
[20] Zhang H,Zhang J,Liu Y,et al.Unveiling the interfacial configuration in diamond/Cu composites by using statistical analysis of metallized diamond surface[J].Scripta Materialia,2018,152:84-88.
[21] Hasselman D P H,Johnson L F.Effective thermal conductivity of composites with interfacial thermal barrier resistance[J].Journal of Composite Materials,1987,21(6):508-515.
[22] Monachon L,Weber L,Dames C.Thermal boundary conductance:A materials science perspective[J].Annual Review of Materials Research,2016,46(1):433-463.
[23] Chang R,Graham L J.Low-temperature elastic properties of ZrC and TiC[J].Journal of Applied Physics,1966,37:3778-3783.
[24] Wu X,Wan D,Zhang W,et al.Constructing efficient heat transfer channels at the interface of diamond/Cu composites[J].Composite Interfaces,2021,28:625-635.
[25] Li Y,Zhou H,Wu C,et al.The interface and fabrication process of diamond/Cu composites with nanocoated diamond for heat sink applications[J].Metals,2021,11:1-13.
基本信息:
DOI:10.13289/j.issn.1009-6264.2022-0470
中图分类号:TN04;TB333
引用信息:
[1]李灏博,赵志伟,王顺,等.TiO_2对金刚石/铜复合材料导热性能的影响[J],2023,44(04):32-39.DOI:10.13289/j.issn.1009-6264.2022-0470.
基金信息:
国家自然科学基金(52274362);; 河南省重点研发专项项目(2211112330800)