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2020 | OriginalPaper | Buchkapitel

Effect of Directional Grain Structure on Microstructure, Mechanical and Ballistic Properties of an AA-7017 Aluminium Alloy Plate

verfasst von: Pradipta Kumar Jena, K. Siva Kumar, R. K. Mandal, A. K. Singh

Erschienen in: Advances in Lightweight Materials and Structures

Verlag: Springer Singapore

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Abstract

The present work illustrates the correlation of microstructure along three directions namely, longitudinal (L), long-transverse (LT) and short-transverse (ST) on mechanical and ballistic properties of an AA-7017 aluminium alloy plate. The microstructure in L and LT direction exhibits high aspect ratio deformed grains, whereas low aspect ratio grains are observed in ST direction. The plate displays the highest strength value along LT, followed by ST and L directions. The L and ST direction samples show the highest and lowest impact energy values, respectively. Ballistic properties of the plate in three directions is evaluated by impacting with high hardness steel projectiles. It is noticed that the AA-7017 plate exhibits the best ballistic performance in ST direction.

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Literatur
1.
Zurück zum Zitat Barlat F, Lege DJ, Brem JC (1991) A six-component yield function for anisotropic materials. Int J Plast 7(7):693–712 Barlat F, Lege DJ, Brem JC (1991) A six-component yield function for anisotropic materials. Int J Plast 7(7):693–712
2.
Zurück zum Zitat Seidt JD, Gilat A (2013) Plastic deformation of 2024–T351 aluminum plate under a wide range of loading conditions. Int J Solids Struct 50(10):1781–1790 Seidt JD, Gilat A (2013) Plastic deformation of 2024–T351 aluminum plate under a wide range of loading conditions. Int J Solids Struct 50(10):1781–1790
3.
Zurück zum Zitat Chen Y, Clausen AH, Hopperstad OS, Langseth M (2009) Stress-strain behavior of aluminium alloys at a wide range of strain rates. Int J Solids Struct 46(21):3825–3835 Chen Y, Clausen AH, Hopperstad OS, Langseth M (2009) Stress-strain behavior of aluminium alloys at a wide range of strain rates. Int J Solids Struct 46(21):3825–3835
4.
Zurück zum Zitat Lee WS, Liu MH (2014) Effect of directional grain structure and strain rate on impact properties and dislocation substructure of 6061–T6 Aluminum alloy. Key Eng Mat 626:50–56 Lee WS, Liu MH (2014) Effect of directional grain structure and strain rate on impact properties and dislocation substructure of 6061–T6 Aluminum alloy. Key Eng Mat 626:50–56
5.
Zurück zum Zitat Khan R (2013) Anisotropic deformation behavior of Al2024T351 Aluminum alloy. J Eng Res 10(1):80–87 Khan R (2013) Anisotropic deformation behavior of Al2024T351 Aluminum alloy. J Eng Res 10(1):80–87
6.
Zurück zum Zitat Vignjevic R, Bourne NK, Millett JCF, De Vuyst T (2002) Effects of orientation on the strength of the aluminum alloy 7010–T6 during shock loading: Experiment and simulation. J Appl Phys 92:4342–4348 Vignjevic R, Bourne NK, Millett JCF, De Vuyst T (2002) Effects of orientation on the strength of the aluminum alloy 7010–T6 during shock loading: Experiment and simulation. J Appl Phys 92:4342–4348
7.
Zurück zum Zitat Jena PK, Mishra B, RameshBabu M, Aravindha B, Singh AK, SivaKumar K, Bhat TB (2010) Effect of heat treatment on mechanical and ballistic properties of a high strength armour steel. Int J Impact Eng 37:242–249 Jena PK, Mishra B, RameshBabu M, Aravindha B, Singh AK, SivaKumar K, Bhat TB (2010) Effect of heat treatment on mechanical and ballistic properties of a high strength armour steel. Int J Impact Eng 37:242–249
8.
Zurück zum Zitat Jordon JB, Horstemeyer MF, Solanki K, Bernard JD, Berry JT, Williams TN (2009) Damage characterization and modeling of a 7075–T651 aluminum plate. Mater Sci Eng A 527:169–178 Jordon JB, Horstemeyer MF, Solanki K, Bernard JD, Berry JT, Williams TN (2009) Damage characterization and modeling of a 7075–T651 aluminum plate. Mater Sci Eng A 527:169–178
9.
Zurück zum Zitat Rout PK, Ghosh KS (2012) Aging and electrochemical behavior of 7017 Al-Zn-Mg Alloy of various tempers. Mater Sci Forum 710:665–670 Rout PK, Ghosh KS (2012) Aging and electrochemical behavior of 7017 Al-Zn-Mg Alloy of various tempers. Mater Sci Forum 710:665–670
10.
Zurück zum Zitat Dikshit SN, Kutumbarao VV, Sundararajan G (1995) The influence of plate hardness on the ballistic penetration of thick steel plates. Int J Impact Eng 16(2):293–320 Dikshit SN, Kutumbarao VV, Sundararajan G (1995) The influence of plate hardness on the ballistic penetration of thick steel plates. Int J Impact Eng 16(2):293–320
11.
Zurück zum Zitat Jung J, Cho YJ, Kim SH, Lee YS, Kim HJ, Lim CY, Park YH (2020) Microstructural and mechanical responses of various aluminum alloys to ballistic impacts by armor piercing projectile. Mater Charact 159:110033 Jung J, Cho YJ, Kim SH, Lee YS, Kim HJ, Lim CY, Park YH (2020) Microstructural and mechanical responses of various aluminum alloys to ballistic impacts by armor piercing projectile. Mater Charact 159:110033
12.
Zurück zum Zitat Jena PK, Sivakumar K, Mandal RK, Singh AK (2019) An experimental study on the fracture behavior of different aluminium alloys subjected to ballistic impact. Procedia Struct Integr 17:957–964 Jena PK, Sivakumar K, Mandal RK, Singh AK (2019) An experimental study on the fracture behavior of different aluminium alloys subjected to ballistic impact. Procedia Struct Integr 17:957–964
13.
Zurück zum Zitat Mondal C, Mishra B, Jena PK, Sivakumar K, Bhat TB (2011) Effect of heat treatment on the behavior of an AA7055 aluminium alloy during ballistic impact. Int J Impact Eng 38(8–9):745–754 Mondal C, Mishra B, Jena PK, Sivakumar K, Bhat TB (2011) Effect of heat treatment on the behavior of an AA7055 aluminium alloy during ballistic impact. Int J Impact Eng 38(8–9):745–754
14.
Zurück zum Zitat Mishra B, Ramakrishna B, Jena PK, Sivakumar K, Gupta NK (2013) Experimental studies on the effect of size and shape of holes on damage and microstructure of high hardness armour steel plates under ballistic impact. Mat Des 43:17–24 Mishra B, Ramakrishna B, Jena PK, Sivakumar K, Gupta NK (2013) Experimental studies on the effect of size and shape of holes on damage and microstructure of high hardness armour steel plates under ballistic impact. Mat Des 43:17–24
15.
Zurück zum Zitat Zhang P, Wang Z, Zhao P, Zhang L, Jin XC, Xu Y (2019) Experimental investigation on ballistic resistance of polyurea coated steel plates subjected to fragment impact. Thin-Walled Struct 144:106342 Zhang P, Wang Z, Zhao P, Zhang L, Jin XC, Xu Y (2019) Experimental investigation on ballistic resistance of polyurea coated steel plates subjected to fragment impact. Thin-Walled Struct 144:106342
16.
Zurück zum Zitat Ryan S, Li H, Edgerton M, Gallardy D, Cimpoeru SJ (2016) The ballistic performance of ultra-high hardness armour steel: An experimental investigation. Int J Impact Eng 94:60–73 Ryan S, Li H, Edgerton M, Gallardy D, Cimpoeru SJ (2016) The ballistic performance of ultra-high hardness armour steel: An experimental investigation. Int J Impact Eng 94:60–73
Metadaten
Titel
Effect of Directional Grain Structure on Microstructure, Mechanical and Ballistic Properties of an AA-7017 Aluminium Alloy Plate
verfasst von
Pradipta Kumar Jena
K. Siva Kumar
R. K. Mandal
A. K. Singh
Copyright-Jahr
2020
Verlag
Springer Singapore
DOI
https://doi.org/10.1007/978-981-15-7827-4_41

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