Study on Tensile Properties and Microstructures of Different Sites in Al-Si Alloy Casting Component

Tao, Jianquan; Xiang, Lin; Chen, Xidong; Sun, Jipeng; Wang, Yanbin; Du, Chuanhang; Peng, Feifei; Gao, Shiqing; Chen, Qiang

doi:10.24425/amm.2023.142438

Artykuł - szczegóły

Tytuł artykułu

Study on Tensile Properties and Microstructures of Different Sites in Al-Si Alloy Casting Component

Autorzy

Tao Jianquan , Xiang Lin , Chen Xidong , Sun Jipeng , Wang Yanbin , Du Chuanhang , Peng Feifei , Gao Shiqing , Chen Qiang

Treść / Zawartość

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DOI

10.24425/amm.2023.142438

Warianty tytułu

Języki publikacji

Abstrakty

The tensile properties and microstructures of ZL114A alloy component with a complex shape are investigated at room temperature and 200°C, using the tensile tests, scanning electron microscopy and electron backscattering diffraction. Both thin wall and thick structure exhibit excellent properties, of which max ultimate tensile strength and elongation at break reach 314 MPa and 2.5% at room temperature, respectively. The ultimate tensile strengths of thin wall are 40 MPa and 25 MPa greater than those of thick structure at room temperature and 200°C, respectively. Moreover, the eutectic Si phases of thin wall exhibit a predominantly spherical morphology while of the morphology of thick structure are rod-like, resulting in the different mechanical properties between thin wall and thick structure. The fracture morphologies of thin wall and thick structure are studied to explain the difference in performance between thin wall and thick structure.

Słowa kluczowe

ZL114A alloy plaster-mold casting tensile properties microstructure fracture

Wydawca

Institute of Metallurgy and Materials Science of Polish Academy of Sciences
Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences

Czasopismo

Archives of Metallurgy and Materials

Rocznik

2023

Tom

Vol. 68, iss. 2

Strony

585--589

Opis fizyczny

Bibliogr. 18 poz., fot., rys., tab.

Twórcy

autor

Tao Jianquan

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Xiang Lin

xlin0731@163.com

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Chen Xidong

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Sun Jipeng

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Wang Yanbin

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Du Chuanhang

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Peng Feifei

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Gao Shiqing

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

autor

Chen Qiang

Southwest Technology and Engineering Research Institute, Chongqing 400039, China

Bibliografia

[1] M. Qi, Y. Kang, Q. Qiu, W. Tang, J. Li, Microstructures, mechanical properties, and corrosion behavior of novel high-thermal-conductivity hypoeutectic Al-Si alloys prepared by rheological high pressure die-casting and high pressure die-casting, J. Alloys Compd. 15 (745), 487-502 (2018).
[2] V. Dao, S. Zhao, W. Lin, C. Zhang, Effect of process parameters on microstructure and mechanical properties in AlSi9Mg connecting-rod fabricated by semi-solid squeeze casting, Mater. Sci. Eng. A 558, 95-102 (2012).
[3] H.J. Kang, P.H. Yoon, G.H. Lee, J.Y. Park, B.J. Jung, J.Y. Lee, C.U. Lee, E.S. Kim, Y. S. Choi, Evaluation of the gas porosity and mechanical properties of vacuum assisted pore-free die-cast Al-Si-Cu alloy, Vacuum 184, 109917 (2020).
[4] X. Wang, M. Guo, L. Cao, J. Luo, J. Zhang, L. Zhuang, Effect of heating rate on mechanical property, microstructure and texture evolution of Al-Mg-Si-Cu alloy during solution treatment, Mater. Sci. Eng. A 621, 8-17 (2015).
[5] L. Zuo, B. Ye, J. Feng, Q. Bao, X. Kong, H. Jiang, W. Ding, Phases formation and evolution at elevated temperatures of Al-12Si-3.8Cu-2Ni-1Mg alloy, Adv. Eng. Mater. 19 (3), 1600623 (2016).
[6] X. Li, S.M. Xiong, Z. Guo, Correlation between porosity and fracture mechanism in high pressure die casting of AM60B alloy, J. Mater. Sci. Technol. 32 (1), 54-61 (2016).
[7] Z. Yuan, Z. Guo, S.M. Xiong, Effect of as-cast microstructure heterogeneity on aging behavior of a high-pressure die-cast A380 alloy, Mater. Char. 135, 278-286 (2018).
[8] H.X. Cao, Q.C. Sun, Q.Q. Pu, L.H. Wang, M.T. Huang, Z.W. Luo, J.Q. Che, Effect of vacuum degree and T6 treatment on the microstructure and mechanical properties of Al-Si-Cu alloy die castings, Vacuum 172, 109063 (2020).
[9] R.X. Liu, J. Zheng, L. Godlewski, J. Zindel, M. Li, W.K. Li, S.Y. Huang, Infuence of pore characteristics and eutectic particles on the tensile properties of Al-Si-Mn-Mg high pressure die casting alloy, Mater. Sci. Eng. A 7, 13928083 (2020).
[10] X.G. Dong, J. Zhou, Y.J. Jia, B. Liu, Effect of alloying on high temperature fatigue performance of ZL114A (Al-7Si) alloy, Trans. Nonferrous Met. Soc. China 22, 661-667 (2012).
[11] L.T. Jiang, G.H. Wu, W.S. Yang, Y.G. Zhao, S.S. Liu, Effect of heat treatment on microstructure and dimensional stability of ZL114A aluminum alloy, Trans. Nonferrous Met. Soc. China 20, 2124-2128 (2010).
[12] H.J. Kang, H.S. Jang, S.H. Oh, P.H. Yoon, G.H. Lee, J.Y. Park, E.S. Kim, Y.S. Choi, Effects of solution treatment temperature and time on the porosities and mechanical properties of vacuum die-casted and T6 heat-treated Al-Si-Mg alloy, Vacuum 193, 110536 (2021).
[13] R.S. Bonatti, Y.A. Meyer, A.D. Bortolozo, D. Costa, W.R. Osorio, Morphology and size effects on densification and mechanical behavior of sintered powders from Al-Si and Al-Cu casting alloys, J. Alloys Compd. 786, 717-732 (2019).
[14] J.F. Hao, B.Y. Yu, J.C. Bian, L. Zheng, S.N. Nie, R.X. Li, Comparison of the semisolid squeeze casting and gravity casting proces on the precipitation behavior and mechanical properties of the Al-Si-Cu-Mg alloy, Mater. Charact. 180, 111404 (2021).
[15] G. Urrutia, M.A. Muñoz-Morris, D.G. Morris, Contribution of microstructural parameters to strengthening in an ultrafne-grained Al-7% Si alloy processed by severe deformation, Acta Mater. 55, 1319-1330. (2007)
[16] Z. Zribi, H.H. Ktari, F. Herbst, V. Optasanub, N. Njah, EBSD, XRD and SRS characterization of a casting Al-7wt%Si alloy processed by equal channel angular extrusion: dislocation density evaluation, Mater. Charact. 153, 190-198 (2019).
[17] S. Shivkumar, S. Ricci, C. Keller, D. Apelian, Effect of solution treatment parameters on tensile properties of cast aluminum alloys, J. Heat Treat. 8, 63-70 (1990).
[18] D.L. Zhang, L.H. Zheng, D.H. StJohn, Effect of a short solution treatment time on microstructure and mechanical properties of modifed Al-7wt.%Si-0.3wt.%Mg alloy, J. Light Met. 2, 27-36 (2002).

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Bibliografia

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