Transactions of Materials and Heat Treatment

Title：Analysis on influence of forging on properties of aluminum matrix composites used in building

Authors： Chen Fang

Unit： Yichun University

KeyWords： forging aluminum matrix composites used in building wear resistance property mechanical properties initial forging temperature final forging temperature

ClassificationCode：TB331

year,vol(issue):pagenumber：2018,43(8):150-154

Abstract：

The aluminum matrix composites used in building were forged with different initial forging temperatures and final forging temperatures, and the wear resistance and mechanical properties of samples were tested and analyzed. The results show that with initial forging temperature varying from 450 ℃ to 550 ℃ and final forging temperature varying from 350 ℃ to 430 ℃, the wear volume of aluminum matrix composites used in building first decreases and then increases, the tensile strength first increases and then decreases and the elongation rate after fracture changes little, therefore the wear resistance and mechanical properties first increase and then decrease. When the initial forging temperature is 500 ℃, the wear volume and tensile strength of aluminum matrix composites used in building are reduced by 17×10-3 mm3 and increased by 37 MPa, respectively, comparing with the initial forging at 450 ℃. However, when the final forging temperature is 410 ℃, the wear volume and tensile strength of aluminum matrix composites used in builiding are reduced by 15×10-3 mm3 and increased by 30 MPa, respectively, comparing with the final forging at 350 ℃. Thus, the optimized initial forging temperature and final forging temperature of aluminum matrix composites used in building are 500 ℃ and 410 ℃, respectively.

Funds：

宜春市社科规划项目（YCSKJ2011-096）

陈芳（1982-），女，硕士，讲师 E-mail：36948640@qq.com

Reference：

［1］李虎，黄旭，黄浩，等.连续SiC纤维增强钛基复合材料界面反应研究
［J］. 锻压技术，2016，41（4）：103-108.

Li H，Huang X，Huang H，et al. Investigation on interface reaction in continuous SiC fiber reinforced titanium composites
［J］. Forging & Stamping Technology，2016，41（4）：103-108.

［2］原国森，张小翠，杨通胜. 热压烧结-热挤压复合工艺制备SiCp/6061Al基复合材料
［J］. 锻压技术，2017，42（2）：124-127.

Yuan G S，Zhang X C，Yang T S. Hot pressing sintering-hot extrusion compound method for SiCp/6061 Al composites
［J］. Forging & Stamping Technology，2017，42（2）：124-127.

［3］董志翔,杨茜,杨永顺，等.Si含量对铝基复合材料摩擦性能的影响
［J］.特种铸造及有色合金,2016,36(5):521-524.

Dong Z X,Yang X,Yang Y S,et al. Effects of Si content on friction-wear properties of aluminum alloys
［J］. Special Casting & Nonferrous Alloys,2016,36(5):521-524.

［4］季鹏飞,陈刚,周小亮,等.原位Al2O3颗粒增强Al-10Si基复合材料制备的研究
［J］.功能材料,2014,(7):7079-7083.

Ji P F,Chen G,Zhou X L,et al. Study on the preparation of in situ Al2O3 particle reinforced Al-10Si matrix composites
［J］. Journal of Functional Materials,2014,(7):7079-7083.

［5］徐潇,杨昭,程仁策,等.高速列车铝合金轴箱体锻造工艺设计及材料变形规律
［J］.锻压技术,2018,43(1):14-19.

Xu X,Yang Z,Cheng R C,et al. Forging process design and material deformation rules of aluminum alloy axle box body for high speed train
［J］. Forging & Stamping Technology, 2018,43(1):14-19.

［6］李炯利, 王旭东, 王少华,等.纳米B4C颗粒增强纳米晶铝基复合材料的粉体形貌及微观组织
［J］.稀有金属，2016,40（6）：521-527.

Li J L, Wang X D, Wang S H，et al.Morphology and microstructure of nanocrystalline aluminum-based composite powder reinforced with nanometric B4C particles
［J］.Chinese Journal of Rare Metal，2016,40（6）：521-527.

［7］付永红,何源,张冉阳，等.颗粒增强铝基复合材料制备及成形技术研究现状
［J］.热加工工艺,2010,39(14):75-79.

Fu Y H,He Y,Zhang R Y,et al.Research status on preparation and forming process for particle reinforced aluminum matrix composite
［J］. Hot Working Technology,2010,39(14):75-79.

［8］李云平,李溪滨,刘如铁，等.多次锻造的SiC颗粒增强耐热铝合金的研制与性能
［J］.粉末冶金技术,2000,18(4):247-251.

Li Y P,Li X B,Liu R T,et al. Study of high thermal stability aluminium matrix composite by hot forging
［J］. Powder Metallurgy Technology,2000,18(4):247-251.

［9］叶巍,杨乐.固溶处理温度对Al-6.5Si-0.8Ti-0.5In-0.5Mg合金风机叶片性能的影响
［J］.轻合金加工技术,2017,45(3): 46-50.

Ye W,Yang L. Effects of solid solution treatment temperature on the properties of AI-6.5Si-0.8Ti-0.5In-0.5Mg alloy fan blades
［J］. Light Alloy Fabrication Technology,2017,45(3): 46-50.

［10］冉娜,谢娥,李坤，等.SiC颗粒增强铝基复合材料的制备及性能
［J］.现代机械,2012,(2):84-85,94.

Ran N,Xie E,Li K,et al. Preparation and properties of SiC particulate reinforced aluminium matrix composites
［J］. Modern Machinery,2012,(2):84-85,94.

［11］刘慧.SiC颗粒增强铝基复合材料热模锻工艺的研究
［D］.沈阳：东北大学,2007.

Liu H. Research on Hot Die Forging Process of SiC Particle Reinforced Aluminum Matrix Composites
［D］. Shenyang:Northeastern University,2007.

［12］陈雷,毛昌辉,杨剑，等.(W+CeO2)p/2024Al复合材料锻造性能研究
［J］.兵器材料科学与工程,2008,31(6):24-27.

Chen L,Mao C H,Yang J,et al. Study on the forging properties of (W+CeO2)p/2024Al composites
［J］.Ordnance Material Science and Engineering,2008,31(6):24-27.

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