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Home > Archive>Volume 53, Issue 3, 2024 >870-881. DOI:10.12442/j.issn.1002-185X.20230124
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Research progress on corrosion behavior and microstructure of Al-Si alloys produced by selective laser melting
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1.College of Metallurgical Engineering,Xi'an University of Architecture and Technology,Xi'an;2.Institute of Engineering Technology,University of Science and Technology Beijing

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陕西省重点研发计划项目(2020GY-255)

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    Abstract:

    Al-Si alloys prepared by selective laser melting (SLM) have great potential in the development of aerospace materials customization and lightweight. However, corrosion behavior affecting the life of SLM forming parts has not been widely concerned. Based on current literature reports, this paper analyzed the formation reasons for metallurgical defects and microstructure according to solidification characteristics in the SLM process. Combined with the corrosion mechanism of traditional casting Al-Si alloy in chlorine compounds, the corrosion mechanism of Al-Si alloy prepared by SLM was further discussed. The effects of metallurgical defects, microstructure, and heat treatment on corrosion behavior are summarized. It is found that the relative density, surface topography (roughness) of the sample, eutectic Si content, morphology, and distribution has important effects on corrosion performance. On this basis, it is pointed out that the existing technological parameters in the corrosion research of Al-Si alloy under the SLM process are not systematic, the effects of Mg, Fe, and other elements are ignored, the research methods and scope are not perfect, and the future development direction.

    Reference
    [1] Gao Qingwei(郜庆伟),Zhao Jian(赵健),Shu Fengyuan(舒凤远) et al.Journal of Materials Engineering(材料工程)[J],2019,47(11):32-42
    [2] Kenevisi M S,Yu Y F,Lin F.Materials Science and Technology[J],2021,37(9):805-829
    [3] Fiocchi J,Tuissi A,Biffi C.Materials and Design[J],2021,204:109651
    [4] Deng Yunlai(邓运来),Zhang Xinming(张新明).The Chinese Journal of Nonferrous Metals(中国有色金属学报)[J],2019,29(9):2115-2141
    [5] Gu Dongdong(顾冬冬),Zhang Hongmei(张红梅),Chen Hongyu(陈洪宇) et al.Chinese Journal of Lasers(中国激光)[J],2020,47(5):0500002
    [6] Chu Fuzhong(褚夫众),Zhang Xi(张曦),Huang Wenjing(黄文静) et al.Materials Reports(材料导报)[J],2021,35(11): 11111-11119
    [7] Ma Rulong(马如龙),Peng Chaoqun(彭超群),Wang Richu(王日初) et al.The Chinese Journal of Nonferrous Metals(中国有色金属学报)[J],2020,30(12): 2773-2788
    [8] Martin J H,Yahata B D,Hundley J M et al.Nature[J],2017,549(7672):365-369
    [9] Chang Tianxing(常天行),Liu Bin(刘彬),Fang Xuewei(方学伟) et al.Aerospace Materials and Technology(宇航材料工艺)[J],2022,52(2): 76-84
    [11] Wang W L,Liu W Q,Yang X et al.Journal of Materials Science and Technology[J],2022,119:11-24
    [12] Wang W L,He L,Yang X et al.Journal of Alloys and Compounds[J],2021,868:159107
    [13] Wang W L,Yang X, Wang K K et al.Materials Today Communications[J],2021,28:102517
    [14] Zhang J L,Song B,Wei Q S et al.Journal of Materials Science and Technology[J],2019,35(2):270-284
    [15] Zhao L,Santos Macías J G,Ding L P et al.Materials Science and Engineering A[J],2019,764:138210
    [16] Wu H,Ren Y J,Ren J Y et al.Journal of Alloys and Compounds[J],2021,873:159823
    [17] Hastie J C,Kartal M E,Carter L N et al.Materials Characterization[J],2020,163:110225
    [18] Patakham U,Palasay A,Wila P et al.Materials Science and Engineering A[J],2021,821:141602
    [19] Li X G,Zhang D W,Liu Z Y et al.Nature[J],2015,527(7579):441-442
    [20] Li Ni(李妮).Thesis for Master(硕士论文)[D].University of Science and Technology Beijing,2021
    [21] Kong D C,Dong C F,Ni X Q et al.npj Materials Degradation[J],2019,3(24)
    [22] Lefebvre W,Rose G,Delroisse P et al.Materials and Design[J],2021,197:109264
    [23] Wang W L,Yang X,Wang K K.Materials Characterization[J],2022,189:111980
    [24] Sander G,Tan J,Balan P et al.Corrosion[J],2018,74(12):1318-1350
    [25] Tang C,Tan J L,Wong C H.International Journal of Heat and Mass Transfer[J],2018,126:957-968
    [26] Khairallah S A,Anderson A T,Rubenchik A et al.Acta Materialia[J],2016,108:36-45
    [27] Khairallah S A,Martin A A,Lee J R I et al.Science[J],2020,368(6491):660-665
    [28] Shrestha S,Chou K.Manufacturing Letters[J],2022,32:19-23
    [29] Wei H L,Mukherjee T,Zhang W et al.Progress in Materials Science[J],2021,116:100703
    [30] Zheng M,Wei L,Chen J et al.Journal of Materials Research and Technology[J],2021,11:392-403
    [31] Zhang B,Seede R,Xue L et al.Additive Manufacturing[J],2021,46: 102018
    [32] Hamza H M,Deen K M,Khaliq A et al.Critical Reviews in Solid State and Materials Sciences[J],2022,47(1):46-98
    [33] Aboulkhair N T,Simonelli M,Parry L et al.Progress in Materials Science[J],2019,106:100578
    [34] DebRoy T,Wei H L,Zuback J S et al.Progress in Materials Science[J],2018,92:112-224
    [35] Zhao L,Song L B,Santos Macías J G et al.Additive Manufacturing[J],2022,56:102914
    [36] Ao X H,Xia H X,Liu J H et al.Materials and Design[J],2020,185:108230
    [37] DebRoy T,Mukherjee T,Wei H L et al.Nature Reviews Materials[J],2021,6(1):48-68
    [38] Prashanth K G,Eckert J.Journal of Alloys and Compounds[J],2017,707:27-34
    [39] Liu X H,Zhao C C,Zhou X et al.Materials and Design[J],2019,168:107677
    [40] Zhou L,Mehta A,Schulz E et al.Materials Characterization[J],2018,143:5-17
    [41] Thijs L,Kempen K,Kruth J P et al.Acta Materialia[J],2013,61(5):1809-1819
    [42] Brandl E,Heckenberger U,Holzinger V et al.Materials and Design[J],2012,34:159-169
    [43] Li X P,Wang X J,Saunders M et al.Acta Materialia[J],2015,95:74-82
    [44] Van Cauwenbergh P,Samaee V,Thijs L et al.Scientific Reports[J],2021,11(1):1-15
    [45] De Damborenea J,Conde A,Gardon M et al.Journal of Materials Research and Technology[J],2022,18:5325-5336
    [46] Takata N,Kodaira H,Sekizawa K et al.Materials Science and Engineering A[J],2017,704:218-228
    [47] Birbilis N,Buchheit R G.Journal of The Electrochemical Society[J],2005,152(4):140-151
    [48] McCafferty E.Corrosion Science[J],1995,37(3):481-492
    [49] Liu Y,Cheng Y F.Journal of Applied Electrochemistry[J],2011,41(2):151-159
    [50] MacDonald D D.Electrochimica Acta[J],2011,56(4):1761-1772
    [51] Pech-Canul M A,Pech-Canul M I,Bartolo-Pérez P et al.Electrochimica Acta[J],2014,140:258-265
    [52] Natishan P M,O’Grady W E.Journal of The Electrochemical Society[J],2014,161(9):421-432
    [53] Zeng F L,Wei Z L,Li J F et al.Transactions of Nonferrous Metals Society of China[J],2011,21(12):2559-2567
    [54] Chen H W,Zhang C Q,Jia D et al.Metals[J],2020,10(1)
    [55] Yang Y,Chen Y,Zhang J X et al.Materials and Design[J],2018,146:239-248
    [56] Fathi P,Mohammadi M,Duan X L et al.Journal of Materials Processing Technology[J],2018,259:1-14
    [57] Revilla R I,Liang J W,Godet S et al.Journal of The Electrochemical Society[J],2017,164(2):27-35
    [58] Leon A,Shirizly A,Aghion E.Metals[J],2016,6(7)
    [59] Leon A,Aghion E.Materials Characterization[J],2017,131:188-194
    [60] Cabrini M,Lorenzi S,Pastore T et al.Journal of Materials Processing Technology[J],2016,231:326-335
    [61] Brito C,Vida T,Freitas E et al.Journal of Alloys and Compounds[J],2016,673:220-230
    [62] Revilla R I,De Graeve I.Journal of The Electrochemical Society[J],2018,165(13):926-932
    [63] Chen Y,Zhang J X,Gu X H et al.Journal of Alloys and Compounds[J],2018,747:648-658
    [64] Cabrini M,Lorenzi S,Pastore T et al.Corrosion Science[J],2019,152:101-108
    [65] Cabrini M,Calignano F,Fino P et al.Materials[J],2018,11(7)
    [66] Rubben T,Revilla R I,De Graeve I.Corrosion Science[J],2019,147:406-415
    [67] Gu X H,Zhang J X,Fan X L et al.Journal of Alloys and Compounds[J],2019,803:314-324
    [68] Gu X H,Zhang J X,Fan X L et al.Acta Metallurgica Sinica[J],2020,33(3):327-337
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[Guo Lintong, Wang Wenli, Yang Haiou, Liu Wenqiang. Research progress on corrosion behavior and microstructure of Al-Si alloys produced by selective laser melting[J]. Rare Metal Materials and Engineering,2024,53(3):870~881.]
DOI:10.12442/j. issn.1002-185X.20230124

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History
  • Received:March 09,2023
  • Revised:June 10,2023
  • Adopted:June 26,2023
  • Online: March 27,2024
  • Published: March 20,2024

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