Influence of Grain Refinement by Al-5Ti-1B on the Microstructure and Mechanical Properties of Aluminium Alloy A356
Keywords:
Aluminium alloy-A356, Grain refinement, Modification of α- phase, Microstructure, Mechanical propertiesAbstract
An investigation was carried out to understand the effect of grain refinement on the microstructure and mechanical properties of Al-alloy A356 by addition of varying weight percentage of Al-5Ti-1B. Grain refinement and modification of α- phase in Al-Si alloys are considered as important task resulting from solidification process. Two different approaches to grain refinement by solidification process have been pursued physically induced and chemically stimulated. The physical relies mainly on the use of external field, such as ultrasonic vibration, while the chemical approach depends primarily on addition of grain refiner, which is the subject of this research work. The effect of grain refiner on the solidification of the A356 alloy was studying and the obtained samples were characterized by optical microscopy. The mechanical properties (σuts, σ0.2 and δ) of the refined A356 alloys were investigated as a function of the addition level of Al-Ti-B master alloy (0, 1, 3,5 wt.%). The results indicated that the primary α- phase aluminium are significantly refined and the microstructures changed from coarse dendrites to fine equiaxed α-Al dendrites, without any change in the morphology of the eutectic Si particles. Additionally, the tensile strength, yield strength and elongation are increased noticeably with addition of grain refinement. The tensile strength, yield strength and elongation of the A356 with 3 wt % grain refine of (Al -5Ti- 1B) are 156.3 MPa, 104.3 MPa and 4.9%, i. e., the percentage of improvement was 12 %, 6 % and 8.9 %, respectively.
References
. Yücel Birol, Grain Refining Efficiency of Al-Ti-C alloys, Journal of Alloys and Compounds, 422 (2006), pp. 128-131.
. Pengting Li, Sida Liu , Lili Zhang and Xiangfa Liu, Grain Refinement of A356 Alloy by Al–Ti–B–C Master Alloy and its Effect on Mechanical Properties, Material and Design,47(2013) p522-528
. Vencl A, Rac A, Bobić I, Tribological Behaviour of Al-Based MMCs and their Application in Automotive Industry, Tribology Industry, 26, Jan 2004, pp 31–38.
. Amulya B. P., Satyabrat D., Bharat B. J. and Nedumbilly P., Effects of Al-5Ti-1 Grain Refiner to the Microstructure, Mechanical Properties and Acoustic Emission Characteristics of Al-5052 Aluminium Alloy, Journal of Materials Research and Technology,Vol.4,issue 2, 2015, Pages 171-179.
. Hong-Liang Zhao, Jin-Sheng Yue,Ya Gao and Kang-Rong Weng, Grain and Dendrite Refinement of A356 Alloy with Al–Ti–C–RE Master Alloy, Rare Met.(2013), 32(1), pp.12–17.
. Apparao KC and Birru AK, Influence of Grain Refiner and Modifier on the Microstructure and Mechanical Properties of A356 Alloy, IOP Conf Series: Materials Science and Engineering, Vol. 303, 2018, p. 012012.
. Bannaravuri P.K., Birru A.K., Strengthening of Mechanical and Tribological Properties of Al-4.5%Cu Matrix Alloy with the Addition of Bamboo Leaf Ash, Results in Physics, Sep.2018,Vol.10:pp.360–373.
. Polmear I.J., Light Alloys From Traditional Alloys to Nanocrystals, Fourth Edition, Melbourne, Australia, 2006, pp. 205-216.
. Zhongtao Z., Jie L., Hongyun Y., Jian Z. and Tingju L., Microstructure Evolution of A356 Alloy Under Compound Field, Journal of Alloys and Compounds, Vol.484,2009, pp. 458–462.
. Annual Book of ASTM Standard, 2006, “Metals Mechanical Testing; Elevated and Low Temperature Tests; Metallography “, USA.
. Puga, H., Costa, S., Barbosa, J., Ribeiro, S., and Prokic., M., Influence of Ultrasonic Melt Treatment on Microstructure and Mechanical Properties of AlSi9Cu3 Alloyʼʼ, Journal of Materials Processing Technology, 2011,pp. 1-7.
. Das, A., and Kotadia., H.R., Effect of High-Intensity Ultrasonic irradiation on the Modification of Solidification Microstructure in a Si-rich Hypoeutectic Al–Si Alloy, Materials Chemistry and Physics, Vol. 125, 2011,pp. 853-859.
. Seyed Ebrahimi, S.H., Emamy M., Effects of Al–5Ti–1B and Al–5Zr Master Alloys on the Structure, Hardness and Tensile Properties of a Highly Alloyed Aluminum Alloy, Materials and Design 31(1),Jan 2010, pp. 200–209.
. Alipour M., Emamy M., Effects of Al–5Ti–1B on the Structure and Hardness of a Super High Strength Aluminium Alloy Produced by Strain-Induced Melt Activation Process, Materials and Design, Vol. 32, 2011,pp.4485–4492.
. Zhu M., Yang G., Yao L., Cheng S., and Zhou Y., Influence of Al-Ti-B Addition on the Microstructure and Mechanical Properties of A356 alloys, Rare Metals, Vol. 28, No. 2, Apr 2009, pp. 181 -188.
. Shabani M.J., Emamy M., Nemati N., Effect of Grain Refinement on the Microstructure and Tensile Properties of Thin 319 Al Castings, Materials and Design, Vol. 32, 2011, pp. 1542-1547.
