Effect of Al90Y10 Amorphous Alloy Refiner on Microstructure and Mechanical Properties of A356 Aluminum Alloy
-
摘要: 在A356铝合金熔体中添加Al90Y10非晶合金细化剂进行细化处理,研究了细化剂质量分数(0,0.2%,0.4%,0.6%,0.8%,1%)对铝合金显微组织及力学性能的影响,分析了细化机制。结果表明:随Al90Y10细化剂含量增加,A356铝合金的二次枝晶间距先减小后增大,抗拉强度、屈服强度、断后伸长率和硬度先升高后降低,拉伸断裂形式由准解理断裂转变为准解理与微孔聚集型混合断裂;当细化剂质量分数为0.6%时,A356铝合金的二次枝晶间距比未细化的下降了39.68%,合金力学性能最好;适量添加Al90Y10细化剂后形成的钇聚集相能够减少脆性相析出,阻碍α-Al相和共晶硅相进行溶质交换,从而细化晶粒,改善力学性能。
-
关键词:
- Al90Y10非晶合金 /
- 稀土元素 /
- 铝合金 /
- 晶粒细化
Abstract: Al90Y10 amorphous alloy was added to A356 aluminum alloy melt as refiner to refine the alloy. The effect of refiner mass fraction (0, 0.2%, 0.4%, 0.6%, 0.8%, 1%) on the microstructure and mechanical properties of the aluminum alloy was studied. The results show that with the increase of Al90Y10 refiner content, the secondary dendrite spacing of the A356 aluminum alloy decreased first and then increased, the tensile strength, yield strength, elongation after fracture and hardness increased first and then decreased, and the tensile fracture form changed from quasi-cleavage fracture to quasi-cleavage and micropore aggregation mixed fracture. When the mass fraction of the refiner was 0.6%, the secondary dendrite spacing of the A356 aluminum alloy was 39.68% lower than that of the unrefined alloy, and the alloy showed the best mechanical properties. The yttrium aggregate phase formed after adding Al90Y10 refiner in moderation could reduce the precipitation of brittle phase, hinder the solute exchange between α-Al phase and eutectic silicon phase, thereby refining grains and improving mechanical properties.-
Keywords:
- Al90Y10 amorphous alloy /
- rare earth element /
- aluminum alloy /
- grain refinement
-
-
[1] KUMMARI C A,BIRRU A K.Grain refinement of Al-3.5FeNb-1.5C master alloy on pure Al and Al-9.8Si-3.4Cu alloy[J].China Foundry, 2018,15(4):314-319.
[2] DING J H, CUI C X, SHI J J, et al. Effect of Al-5Ti-B4C-Y refiner on the microstructure and properties of Al-Cu-Mn alloy[J]. Materials Research Express, 2018, 6(1): 016542.
[3] LIN B, LI H Y, XU R, et al. Precipitation of iron-rich intermetallics and mechanical properties of Al-Si-Mg-Fe alloys with Al-5Ti-B[J]. Materials Science and Technology, 2018, 34(17): 2145-2152.
[4] JING L J,PAN Y,LU T,et al.Application of Al-2La-1B grain refiner to Al-10Si-0.3Mg casting alloy[J].Journal of Materials Engineering and Performance, 2018,27(6):2838-2843.
[5] ZHAO B Y,CAI Q Z,LI X W,et al.Effect of TiC nanoparticles supported by Ti powders on the solidification behavior and microstructure of pure aluminum[J].Metals and Materials International, 2018,24(5):945-954.
[6] SAMUEL A M,MOHAMED S S,DOTY H W,et al.Grain refining of Al-Si alloys using Al-10%Ti master alloy:Role of Zr addition[J].International Journal of Cast Metals Research, 2019,32(1):46-58.
[7] SANTOS J, KALLIEN L H, JARFORS A E W, et al. Influence of grain refinement on slurry formation and surface segregation in semi-solid Al-7Si-0.3Mg castings[J]. Metallurgical and Materials Transactions A, 2018, 49(10): 4871-4883.
[8] DONG X X, ZHANG Y J, JI S X. Enhancement of mechanical properties in high silicon gravity cast AlSi9Mg alloy refined by Al3Ti3B master alloy[J]. Materials Science and Engineering: A, 2017, 700: 291-300.
[9] LI P T,LIU S D,ZHANG L L,et al.Grain refinement of A356 alloy by Al-Ti-B-C master alloy and its effect on mechanical properties[J].Materials & Design, 2013,47:522-528.
[10] WANG Y, FANG C M, ZHOU L, et al. Mechanism for Zr poisoning of Al-Ti-B based grain refiners[J]. Acta Materialia, 2019, 164:428-439.
[11] TAHIRI H,SAMUEL A M,DOTY H W,et al.Effect of Sr-grain refiner-Si interactions on the microstructure characteristics of Al-Si hypereutectic alloys[J].International Journal of Metalcasting, 2018,12(2):307-320.
[12] CHEN Z W,GAO J P,YAN K.Formation of twin boundaries in commercial purity aluminum with addition of Ti refiner[J].Materials Letters, 2018,221:1-3.
[13] QIU C R,MIAO S N,LI X R,et al.Synergistic effect of Sr and La on the microstructure and mechanical properties of A356.2 alloy[J].Materials & Design, 2017,114:563-571.
[14] LA TORRE E A,PÉREZ-BUSTAMANTE R,CAMARILLO-CISNEROS J,et al.Mechanical properties of the A356 aluminum alloy modified with La/Ce[J].Journal of Rare Earths, 2013,31(8):811-816.
[15] 苏云高,崔振铎,朱胜利,等.用非晶合金细化变质处理A356铝合金的显微组织和力学性能[J].机械工程材料,2017,41(1):65-71. [16] BAI Z H,QIU F,ZHANG T,et al.A new approach to refine grains in Al alloys[J].Advanced Engineering Materials, 2015,17(6):796-801.
[17] 张春芝,李辉平.非晶态钎料-非晶合金作为功能材料应用的新思路[J].功能材料,2015,46(9):9019-9025. [18] INOUE A,OHTERA K,MASUMOTO T.New amorphous Al-Y,Al-La and Al-Ce alloys prepared by melt spinning[J].Japanese Journal of Applied Physics, 1988,27(5):736-739.
[19] 秦晓雄, 杨运宇, 冯绍凯, 等. Al-5Ti-B细化剂对A356合金微观组织的影响[J]. 材料研究与应用, 2017, 11(1): 9-12. [20] DING W W, LI C F, CHEN T L, et al. Grain refinement of Al-5Ti-0.62C-0.2Nd grain refiner for commercial pure aluminum and its effect on mechanical properties[J]. Materials Research, 2018, 22(1): e20180302.
[21] 李桂荣,赵玉涛,李季,等.稀土钇强化Al-Zn-Mg-Cu铝合金的组织特征[J].江苏大学学报(自然科学版),2010,31(1):49-52. [22] 陈国庆, 张秉刚, 杨勇, 等. SiCp /2024与2219铝合金电子束焊接[J]. 焊接学报, 2015, 36(3): 27-30. [23] 陈华标,龙木军,陈登福,等.稀土铈对钢中溶质碳偏析影响的热力学研究[J].稀有金属材料与工程,2018,47(7):2093-2099. [24] 刘启阳,李庆春.稀土对铝硅合金凝固过程的变质作用[J].铸造,1990,39(4):13-17. [25] 卫爱丽, 李建春, 梁伟. 稀土钇对Zn-25Al铸态组织及力学性能的影响[J]. 新技术新工艺, 2010(6): 67-69. [26] 李桂荣, 王宏明, 赵玉涛, 等. 稀土钇对7055铝合金熔炼和凝固过程的作用机制[J]. 稀有金属材料与工程, 2010, 39(1): 80-84. [27] 唐多光.铸造铝合金精炼变质的好材料——稀土合金[J].特种铸造及有色合金,1999,19(5):42-44.
计量
- 文章访问数: 2
- HTML全文浏览量: 0
- PDF下载量: 0
下载:
