Materials Reports  2020, Vol. 34 Issue (Z1): 351-355 |
| METALS AND METAL MATRIX COMPOSITES |
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| A Review and Prospect of TLP Bonding Particle ReinforcedAluminum Matrix Composites |
| ZHOU Changzhuang1, MA Lin1,2, CUI Qinghe1, LIANG Jindi1
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1 College of Material Science and Engineering, Shenyang Aerospace University, Shenyang 110000, China;
2 University of Queensland,Australia 4072 |
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Abstract Particle-reinforced aluminum-based composites are one of the research hotspots in the field of materials science and engineering because of their excellent properties. Transient liquid phase (TLP) bonding has attracted much attention as one of the effective bonding methods for joining aluminum-based composites. The research status of particle-reinforced aluminum-based composite TLP bonding technology abroad is discussed. This paper discusses and explores the current problems and future development of TLP welding technology for particle-reinforced aluminum-based composites. The results show that the TLP method can be used to achieve the connection of particle-reinforced aluminum-based composites. Compared with other methods, the temperature and pressure required by the TLP technology are relatively low. However, how to solve the problems of oxide film obstruction, particle segregation, and poor wetness are still the main problems to be overcome in the future. External field assistance such as compound ultrasound is one of the feasible directions to solve the existing problems of TLP.
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Published: 01 July 2020
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| Fund:This work was financially supported by National Natural Science Foundation of China Youth Fund Project (51705338, 51905355), Natural Fund Surface Project of Liaoning Province (20180550471). |
| About author:: Changzhuang Zhou graduated from Shenyang Aerospace University in June 2018 with a bachelor's degree in engineering. Now he is a postgraduate of material science and engineering college of Shenyang Aerospace University, conducting research under the guidance of associate professor Lin Ma. At present, the main research field is ultrasonic composite connection technology ; Lin Ma is an associate professor and postgraduate tutor at the School of Materials Science and Engineering, Shenyang Aerospace University. In 2015, she obtained her Ph.D. in material processing engineering from Harbin Institute of Technology. From April 2019 to present, she is a visiting scholar at the University of Queensland and University of Southern Queensland, Australia. In 2018, she was selected as one of the “Hundred, Thousand, Ten thousand” talent projects in Liaoning Pro-vince. She mainly engaged in the research of advanced ultrasonic-assisted bonding technology. In recent years, more than 30 papers have been published in the direction of ultrasonic-assisted brazing, friction stir welding and diffusion welding. |
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1 Surappa M K.Sadhana,2003,28(1-2),319.
2 牛济泰,程东锋,高增,等.焊接学报,2019,40(3),155.
3 马宗义,肖伯律,等.中国材料进展,2010,29(4),8.
4 孔亚茹,郭强,张荻.材料导报:综述篇,2015,29(5),34.
5 潘利文,林维捐,唐景凡,等.材料导报,2016,30(专辑27),511.
6 姜瑞姣,李美霞.材料导报:综述篇,2015,29(4).138.
7 Youssef Y, El-Sayed M.International Review of Mechanical Engineering,2016,10(4),261.
8 Xu Z, Ma L, Yan J, et al.Composites Part A: Applied Science and Manufacturing,2012,43(3),407.
9 Sun J, Chen G, Wang B, et al.Journal of Materials Engineering and Performance,2019,28(5),2697.
10 Urena A, Escalera M D, Gil L.Composites Science and Technology,2000,60(4),613.
11 Zhang X P, Quan G F, Wei W E I.Composites Part A: Applied Science and Manufacturing,1999,30(6),823.
12 Prado R A, Murr L E, Shindo D J, et al.Scripta Materialia,2001,1(45),75.
13 Huseyin Uzun.Materials and Design,2007,28,144.
14 Zhang X P, Ye L, Mai Y W, et al.Composites Part A: Applied Science and Manufacturing,1999,30(12),1415.
15 Kenevisi M S, Khoie S M M. Materials & Design,2012,38,19.
16 Klehn R, Eagar T W. WRC Bulletin,1993,385,1.
17 Huang J H, Wan Y, Zhao H T, et al.Materials Science and Technology,2007,23(1),87.
18 Maity J, Pal T K, Maiti R.Journal of Materials Science,2010,45(13),3575.
19 Maity J, Pal T K.Journal of Materials Engineering and Performance,2012,21(7),1232.
20 Cooke K O, Khan T I, Oliver G D.Metallurgical and Materials Transactions B,2013,44(3),722.
21 Wang W, Fan D, Huang J, et al.Materials Letters,2015,143,237.
22 Lee C S, Li H, Chandel R S.Journal of Materials Processing Technology,1999,89-90,326.
23 Yan J C, Xu H B, Xu Z W, et al. Materials Science and Technology,2004,20,1.
24 Urena A, Gómez de Salazar J M, Escalera M D. Key Engineering Mate-rials,1995,104,523.
25 Huang Jihua, Dong Yueling, Wan Yun, et al. Journal of Materials Processing Technology,2007,190,312.
26 Li Z, Fearis W, North T H. Materials Science and Technology,1995,11(4),363.
27 Zhai Y, North T H. Journal of Materials Science,1997,32(6),1393.
28 陈铮.焊接学报,2001,22(5),27.
29 陈铮.焊接学报,2001,22(6),57.
30 Shao H, Wu A, Bao Y, et al. Ultrasonics sonochemistry,2017,37,561.
31 Lai Z, Xie R, Pan C, et al. Journal of Materials Science & Technology,2017,33(6),567.
32 Lai Z, Chen X, Pan C, et al. Materials Letters,2016,166,219.
33 Huang Z, Du H, Liu L, et al. Ultrasonics Sonochemistry,2018,43,101.
34 Wang Q, Chen X, Zhu L, et al. Ultrasonics Sonochemistry,2017,34,947.
35 Ma L, Xu Z, Zheng K, et al. Ultrasonics,2014,54(3),929.
36 Xu Z, Yan J, Chen W, et al. Materials Letters,2008,62(17-18),2615.
37 Xu Z, Ma L, Yan J, et al. Materials Chemistry and Physics,2014,148(3),824.
38 Leng X, Yang W, Zhang J, et al. Materials Science and Technology,2018,34(6),660.
39 张洋,闫久春.焊接学报,2009,30(3),89. |
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