A Critical review on severe plastic deformation

Authors(3) :-P. Veena , D. Maheshwari Yadav, C. Naga Kumar

Severe Plastic Deformation (SPD) is defined as metal forming process in which a very large plastic strain is imposed on a bulk process in order to make an ultra-fine grained metal. The objective of the SPD process is to produce light weight parts by using high strength metal for the safety and reliability of micro parts and for environmental harmony. In the current work, SPD techniques like Equal Channel Angular Pressing (ECAP), Accumulating Roll Bonding (ARB), Repetitive Corrugation and Straightening (RCS), High Pressure Torsion (HPT), Reciprocating Extrusion Compression (REC), Severe Torsion Straining (STS), Cyclic Closed Die Forging (CCDF), Super Short Multi-pass Rolling (SSMR), Cyclic Channel Die Compression (CCDC), Mechanical Alloying, Asymmetric Rolling etc., are reviewed.

Authors and Affiliations

P. Veena
Mechanical Engineering Department, Vidya Jyothi Institute of Technology, Hyderabad, Andhra Pradesh, India
D. Maheshwari Yadav
Mechanical Engineering Department, Vidya Jyothi Institute of Technology, Hyderabad, Andhra Pradesh, India
C. Naga Kumar
Mechanical Engineering Department, Vidya Jyothi Institute of Technology, Hyderabad, Andhra Pradesh, India

Ultrafine grain materials, severe plastic deformation, Forming, Strain, Metal.

  1. Valiev RZ, Islamgaliev RK, Alexandrov IV (2000) Bulk nanostructured materials from severe plastic deformation. progress in marterials science 45(2);103- 189.
  2.  Valiev RZ, Kornznikov AV, Mulyukov RR (1993) structure and properties of ultrafine - grained materials produced by severe plastic deformation. materials science and engineering A 168(2): 141-148.
  3. Rosochowski A, Olejnik l, Richert M (2004)metal forming technology for producing bulk nanostructured metals. steel grips 2:35-44.
  4. Rosochowski A (2005) Processing metals by sever plastic deformation. solid state phenomena 101-102: 13-22.
  5. Horita z, (ED) (20050, Nnomaterials by svere plastic deformation . materials science forum, pp,503-504.
  6. Azushima A(2003) Trend of ultrafine grained steel. proceedings of the 245th symposium on Technology of plasticity, 225, 53-60. ( in Japanese).
  7. Tsuji N, Sito Y, Lee SH , Minamino Y (2003) ARB (accumulative roll bonding) and oher New techniques to produce Bulk ultrafine Grained Materials. Advanced engineering materials 5(50);338-334.
  8. N. Tsuji, R . Ujei , Y. Ito, H.W. Kim , ultrafine grained materials IV . ,Ed. by Y.T. Zhu; t. langolon, Y. Horita, M.J. Zehetbauer , S.I. Semiatin, T.C. Lowe, TMS( the minerals, metals and materials society 0 2006, 81.
  9. H. Miysmoto, K. ota , T. mimaki , Scripta materialia , 54(2006) 1725.
  10. T.C. Lowe , R.Z. valiev (Eds.), Investigation and applications of severe plastic deformation (Kluwer, Doelrecht, 2000).
  11. TMS Zbornik.
  12. J. Zrnik, metallic materials , 44(2006).
  13. Segal, V.M. (1november 1999). " Equal channel angular extrusion : from Macromechanics to structure formation". Materials science of engineering; A.271(1-2) : 322-333.
  14. Mutiuf Erinoscho, member , LAENG, and Esther T A Kinalabi, member, LAENG " Arevie : plastic deformation through equal channel angular pressing ". Proceedings of the world congress on engineering 2016 Vol II WCE 2016, june 29- july 1, 2016, lomdon , U.K .
  15. Zhilyaev, A; London , T (1st August 2008 ). " Using high pressure torsion for metal processing : Fundamentals and applications ". progress in material science. 53(6): 893-979.
  16. J.ZRNIK, S.V. DOBTKIN, I.MAMUZIC. " Processing of metals by sever plastic deformation (SPD)- Structure and Mechanical properties Respond ". METALURGUA 47(2008)3,211-216.
  17.  Saito, Y.; Utsunomiya, H.; Tsuj; N.; Sakai, T. (1999). " Novel Ultra - high straining process for bulk materials - development of accumulative roll bonding(ARB) proess", Acta materialia. 47(2): 579-583.
  18.  J.Richert, M.Richert. J.Zasudxinski, A. Kurbel, Patent PLR no. 123026, 1979.
  19.   A. Korbel, M. Richert, J. Richert , Proc. 2nd Riso Int . Symp. on metalII. and mat. sci. ROskilde,1981,445.
  20.  J.Zrnik , S.N. DOBATKIN, I.MAMUZIC "processing of metals by svsre plastic deformation (SPD)- structure and mechanical properties respon ISSN 0543-5846; METABK 47(3) 211-216(2008). UDC-UDK 699.14-418:539:37:620.17-111.
  21. Andrzej Rosochowsk; "processing metals by severe plastic deformation". solid state phenomenon vols. 101-102(2005)pp13-2.
  22.  A.K. Gosh: U.S. Patent no. 4721 537 1988.
  23.  Ratna sunil, B.(2015). " Repetitive corrugation and straightening of sheet metals ". materials and manufacturing process.30(10): 1262-1271
  24.  Huang JY, Zhu YT, Jiang H, Lowe Tc (2001) microstructures and dislocation configurations in nanostructured Cu processed by Repetitive corrugation and straightening Acta materialia 49(9):1497-1505.
  25.  "Severe plastic deformation (SPD) processes for metals ", Azushima(1)a, R. Kopp(1)b , A.Korhenen(1), D.Y. Yang(1), F. Micari(1), G.D Lahoti(1), p. Groche(2), J.Yanagimoto(2), N.Tsuji i, A. Yanagida a "CIRP Annals- manufacturing technology 57(2008)716-735.
  26.  Nakaurak, Neishi k, Kanekok, Nagakim, Horita2(20040 "development of severe torsion straining process for rapid continuous strain refinement. Materials transactions 45(12):3338-3342.
  27. M.Eto,bT. sasaki, S. Fukushima, T. Shibahara, Y.Noda " development of super short interval multi-pass rolling technology for ultra fine -grained Rev.Met , Paris, vol. 103, No7-8(July- August 2006), pp.319-325.
  28.  H.K.D.H. Bhadeshia, practical ODS alloys, materials scince and engineering, 223(1997)64-77.
  29.  Suryanarayana c. Mechanical alloying and milling, process in materials science 46(2001)1-184.
  30.  Suryanarayana ,c(January 2001)." Mechanical alloying and milling " process in materials science. retrieved march4,2016.
  31.  Demetrio, Ketner(2011). Cryomilling and spark plasma sinetering of 2024 aluminumalloy. University of trento.
  32. Chi, Q.Ohori, K(october 2006). " grain refinement of high purity aluminium by asymmetric rolling", material science and technology 16(20);1095-1101.
  33. Chu, K.Y.; Vassel, A.; Brisset, F.; Lu,k.;LU,J.(16 august 2004). "Nanostructure formation mechanism of α- titanium using SMAT ". Acta materialia .52(14) :4101-4110.
  34. Saito, y. ; Utsunomiya ,H,;Tsuji; N.; sakai ,t.(1999). "Novel ultra- high straining process for bulk materials -development of the accumulative roll-bonding(ARB) process Acta materialia.47(2);579-583.
  35. Ratna sunil,B.(2015). " Repetative corrugation and straghtening of sheet metals", materials and manufacturing processes, 30(10); 1262-1271.
  36.  Mousavi, S.A.A Akbari; Ebrahimi, S.M.;Madoliat,R.(12 June 2007). "Three dimensional numerical analyses of asymmetric rolling". Journal of materials processing Technology .187-188:725-729.
  37.   Zhu, K.y.; Vassel, ; Brisset, F.; Lu, K;Lu,J.(15 August 2004)." Nanostructure formation mechanism of α-titanium using SMAT". Acta Materialia. 52(14); 4101-4110.
  38. Dai, K.;Shaw,L.(15 august 2007). " comparison between shot peening and surface nanocrystallization and hardening processes". Materials science and engineering :A.463(1-2);46-53.
  39. Manov,a; Cho,I.S; Dyun, Y.S';Lee, C.S.; Park, I.g(15 may 2012). " micro-dimpled surface by ultrasonic nanocrystalline surface modification and its tribological effects" wear .286-287:136-144.

Publication Details

Published in : Volume 3 | Issue 2 | March-April 2017
Date of Publication : 2017-04-30
License:  This work is licensed under a Creative Commons Attribution 4.0 International License.
Page(s) : 336-343
Manuscript Number : IJSRSET1732103
Publisher : Technoscience Academy

Print ISSN : 2395-1990, Online ISSN : 2394-4099

Cite This Article :

P. Veena , D. Maheshwari Yadav, C. Naga Kumar, " A Critical review on severe plastic deformation, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 3, Issue 2, pp.336-343, March-April-2017.
Journal URL : http://ijsrset.com/IJSRSET1732103

Follow Us

Contact Us