Ag/Ti3AlC2 Composites Prepared by Equal Channel Angular Pressing Followed by Heat Treatment

Dan-Dan WANG; Wu-Bian TIAN; Jian-Xiang DING; Ai-Bin MA; Pei-Gen ZHANG; Wei HE; Zheng-Ming SUN

doi:10.15541/jim20190242

[1] X DING J, M SUN Z, G ZHANG P et al. Current research status and outlook of Ag-based contact materials. Materials Reports, 32, 58-66(2018).

[2] M SUN Z. Progress in research and development on MAX phases: a family of layered ternary compounds. International Materials Reviews, 56, 143-166(2011).

[3] X DING J, B TIAN W, G ZHANG P et al. Arc erosion behavior of Ag/Ti₃AlC₂ electrical contact materials. Journal of Alloys and Compounds, 740, 669-676(2018).

[4] M LIU M, L CHEN J, H CUI et al. Ag/Ti₃AlC₂ composites with high hardness, high strength and high conductivity. Materials Letters, 213, 269-273(2018).

[5] X DING J, B TIAN W, D WANG D et al. Corrosion and degradation mechanism of Ag/Ti₃AlC₂ composites under dynamic electric arc discharging. Corrosion Science, 156, 147-160(2019).

[6] D WANG D, B TIAN W, B MA A et al. Anisotropic properties of Ag/Ti₃AlC₂ electrical contact materials prepared by equal channel angular pressing. Journal of Alloys and Compounds, 784, 431-438(2019).

[7] M ZHANG, B TIAN W, G ZHANG P et al. Microstructure and properties of Ag-Ti₃SiC₂ contact materials prepared by pressureless sintering. International Journal of Minerals. Metallurgy, and Materials, 25, 810-816(2018).

[8] X DING J, B TIAN W, G ZHANG P et al. Preparation and arc erosion properties of Ag/Ti₂SnC composites under electric arc discharging. Journal of Advanced Ceramics, 8, 90-101(2019).

[9] X DING J, B TIAN W, D WANG D et al. Microstructure evolution, oxidation behavior and corrosion mechanism of Ag/Ti₂SnC composite during dynamic electric arc discharging. Journal of Alloys and Compounds, 785, 1086-1096(2019).

[10] X DING J, B TIAN W, D WANG D et al. Arc erosion and degradation mechanism of Ag/Ti₂AlC composite. Acta Metallurgica Sinica, 55, 627-637(2019).

[11] P AFONIN M, V BOIKO A. Effect of structural anisotropy on contact properties in a silver-graphite composite. Powder Metallurgy and Metal Ceramics, 44, 84-87(2005).

[12] C XU, D YI, C WU et al. Microstructures and properties of silver- based contact material fabricated by hot extrusion of internal oxidized Ag-Sn-Sb alloy powders. Materials Science and Engineering: A, 538, 202-209(2012).

[13] YL CHEN, CF YANG, JW YEH et al. A novel process for fabricating electrical contact SnO₂/Ag composites by reciprocating extrusion. Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science, 36A, 2441-2447(2005).

[14] M BALOG, F SIMANCIK, O BAJANA et al. ECAP vs. direct extrusion-techniques for consolidation of ultra-fine Al particles. Materials Science and Engineering: A, 504, 1-7(2009).

[15] M SEGAL V. Materials processing by simple shear. Materials Science and Engineering: A, 197, 157-164(1995).

[16] A MA, Y NISHIDA, K SUZUKI et al. Characteristics of plastic deformation by rotary-die equal-channel angular pressing. Scripta Materialia, 52, 433-437(2005).

[17] D HAGHIGHI R, J JAHROMI S A, A MORESEDGH et al. A comparison between ECAP and conventional extrusion for consolidation of aluminum metal matrix composite. Journal of Materials Engineering and Performance, 21, 1885-1892(2012).

[18] R DERAKHSHANDEH H, J JAHROMI A. An investigation on the capability of equal channel angular pressing for consolidation of aluminum and aluminum composite powder. Materials & Design, 32, 3377-3388(2011).

[19] R LAPOVOK. Damage evolution under severe plastic deformation. International Journal of Fracture, 115, 159-172(2002).

[20] V NAGASEKHAR A, Y TICK-HON, S RAMAKANTH K. Mechanics of single pass equal channel angular extrusion of powder in tubes. Applied Physics A-Materials Science & Processing, 85, 185-194(2006).

[21] M LIU, J CHEN, H CUI et al. Temperature-driven deintercalation and structure evolution of Ag/Ti₃AlC₂ composites. Ceramics International, 44, 18129-18134(2018).

[22] Y SU L, F WANG P, B XU Z et al. Oscillatory shear-induced alignment of ketjen black conductive particles in polylactic acid and its effect on the electrical anisotropy. Journal of Polymer Science Part B-Polymer Physics, 54, 369-373(2016).

[23] X XU W, K JIA M, Z GONG. Thermal conductivity and tortuosity of porous composites considering percolation of porous network: from spherical to polyhedral pores. Composites Science and Technology, 167, 134-140(2018).

[24] W BARSOUM M. The M_n₊₁AX_n phases: a new class of solids; thermodynamically stable nanolaminates. Progress in Solid State Chemistry, 28, 201-281(2000).

微信扫一扫：分享

微信扫一扫：分享