بررسی تولید مواد با استحکام بالا در فرآیند ECAP به کمک شبیه سازی سه بعدی
Subject Areas :عرفان عباسی 1 , سید راوش احدی 2
1 - دانشجوی دکتری - دانشگاه آزاد اسلامی، واحد ساوه، باشگاه پژوهشگران جوان، ساوه، ایران
2 - مدرس دانشگاه جامع علمی کاربردی
Keywords:
Abstract :
1- Segal V.M., "Materials processing by simple shear", Material Science and Engineering A, Vol.197, pp. 157-164, 1995.
2- Ruslan Z.V., Terence G.L., "Principles of equal-channel angular pressing as processing tool for grain refinement", Progress in Materials Science, Vol.51, pp. 881-981, 2006.
3- Xu S., Zhao G., Ma X., Ren G., "Finite element analysis and optimization of equal channel angular pressing for producing ultra-fine grained materials", Journal of Materials Processing Technology, Vol.184, pp. 209–216, 2007.
4- Nagasekhar A.V., Tick-Hon Y., Lib S., Seow H.P., "Effect of acute tool angles on equal channel angular extrusion/pressing", Material Science and Engineering A, Vol.410-411, pp. 269-272, 2005.
5- Narendra B.D., Nayak S., "Nanocoatings for engine application", Surface & Coatings Technology, Vol.194, pp. 58– 67, 2005.
6- Greger M., Cerny M., Kander L., "The formation of submicron and nanocrystaline grain structures Al- Mg-Si alloy by ECAP deformation", Proceedings of the 19th International Conference of Metallurgy and Materials (Metal 2010), Czech Rep., pp. 1-6, 2010.
7- Basavaraj V.P., Uday Ch., Prasanna Kumar T.S., "Influence of friction in equal channel angular pressing – A study with simulation", Proceedings of the 17th International Conference of Metallurgy and Materials (Metal 2008), Czech Rep., pp. 1-9, 2008.
8- Bidulska J., Kocisko R., Kvackaj T., Bidulsky R., Actis Grande M., "Numerical simulations of EN AW 2014 Aluminum alloy in ECAP process", Acta Metallurgica Slovaca, Vol.14, pp. 342-348, 2008.
9- Li S., Beyerlein I.J., Necker C.T., Alexander D.J., Bourke M., "Heterogeneity of deformation texture in equal channel angular extrusion of copper", Acta Materialia, Vol.52, pp. 4859–4875, 2004.
10- Xun Y., Mohamed F.A., "Refining efficiency and capability of top-down synthesis of nanocrystalline materials", Materials Science and Engineering A, Vol.528, pp. 5446–5452, 2011.
11- Gholinia A1, Prangnell P.B., Markushev M.V., "The effect of strain path on the development of deformation structures in severely deformed aluminum alloys processed by ECAE", Acta mater, Vol.48, pp. 1115-1130, 2000.
12- Cardoso K.R., Travessa D.N., Botta W.J., Jorge Jr.A.M., "High Strength AA7050 Al alloy processed by ECAP: Microstructure and mechanical properties", Materials Science and Engineering A, Vol.528, pp. 5804-5811, 2011.
13- Alhajeria S., Gaoa N., Langdona T., "Hardness homogeneity on longitudinal and transverse sections of an aluminum alloy processed by ECAP", Materials Science and Engineering A, Vol.528, pp. 3833-3840, 2011.
14- Nagasekhar A.V., Yoon S.C., Tick-Hon Y., Kim H.S., "An experimental verification of the finite element modeling of equal channel angular pressing", Computational Materials Science, Vol.46, pp. 347-351, 2009.
15- Hertzberg R.W., "Deformation and fracture mechanics of engineering materials", John Wiley and Sons, 1996.
