1- B. Ahn, and S.R. Nutt, “Strain Mapping
of Al–Mg Alloy with Multi-scale Grain
Structure using Digital Image Correlation
Method”, Experimental Mechanics, Vol.
50, pp 117–123, 2010.
2- Z. Lee, D.B. Witkin, V. Radmilovic,
E.J. Lavernia, and S.R. Nutt, “Bimodal
microstructure and deformation of
cryomilled bulk nanocrystalline Al–7.5Mg
alloy”; Materials Science and Engineering
A, Vols. 410–411, pp 462–467, 2005.
3- D. Witkin, B.Q. Han, and E.J. Lavernia,
“Mechanical Behavior of UltrafineGrained Cryomilled Al 5083 at Elevated
Temperature”; Journal of Materials
Engineering and Performance, Vol. 14, pp
519-527, 2005.
4- D. Witkin, B.Q. Han, and E.J. Lavernia,
“Room-Temperature Mechanical Behavior
of Cryomilled Al Alloys”; Metallurgical
and Materials Transactions A, Vol. 37, pp
185-194, 2006.
5- A. Yamashita, D. Yamaguchi, Z. Horita,
and T.G. Langdon, "Influence of pressing
temperature on microstructural
development in equal channel angular
pressing"; Materials Science and
Engineering A, Vol. 287, pp 100–106,
2000.
6- J.H. Ahn, Y.J. Kim, and H. Chung, “AlAlN Tri-modal Composites prepared by
Mechanical Alloying”, Rev. Adv. Mater.
Sci, Vol. 18, pp 329-334, 2008.
7- D. Witkin, Z. Lee, R. Rodriguez, S.
Nutt, and E. Lavernia, “Al–Mg alloy
engineered with bimodal grain size for
high strength and increased ductility”,
Scripta Materialia, Vol. 49, pp 297–302,
2003.
8- C. Hofmeister, B. Yao, Y.H. Sohn, T.
Delahanty, M. Bergh, and K. Cho,
“Composition and structure of nitrogencontaining dispersoids in trimodal
aluminum metal–matrix composites”,
Journal of Materials Science, Vol. 45, pp
4871–4876, 2010.
9- B.Q. Han, J. Ye, F. Tang, J. Schoenung,
and E.J Lavernia, “Processing and
behavior of nanostructured metallic alloys
and composites by Cryomilling”, Journal
of Materials Science, Vol. 42, pp 1660–
1672, 2007.
10- R.W. Hayes, D. Witkin, F. Zhou, and
E.J. Lavernia, “Deformation and activation
volumes of cryomilled ultrafine-grained
aluminum”, Acta Materialia, Vol. 52, pp
4259–4271, 2004.
11- S.S. Razavi Tousi, R. Yazdani Rad, E.
Salahi, I. Mobasherpour, and M. Razavi,
“Production of Al–20 wt.% Al2O3
composite powder using high energy
milling”, Powder Technology, Vol. 192,
pp 346–351, 2009.
12 -ر. اسدیفرد، ن. پروین، ج. آقازاده و پ. صفارزاده،
"بررسی تأثیر فرایند آلیاژسازی مکانیکی بر مورفولوژی و
اندازه دانه پودرهای کامپوزیتی SiCp-Al6061"؛
هشتمین کنگره سالانه انجمن مهندسین متالورژی ایران؛
دانشکده مهندسی مواد دانشگاه صنعتی اصفهان؛ مهرماه
.1383
13- J.B. Fogagnolo, F. Velasco, M.H.
Robert, and J.M. Torralba, “Effect of
mechanical alloying on the morphology,
microstructure and properties of
aluminium matrix composite powders”,
Materials Science and Engineering A, Vol.
342, pp 131-143, 2003.
14 -ع. علیزاده، "ساخت و بررسی خواص مکانیکی و
سایشی نانوکامپوزیت B4C-Al ،"پایاننامه دکتری،
دانشکده فنی و مهندسی دانشگاه تربیت مدرس، 1390 .
15- N. Zhao, P. Nash, and X. Yang, “The
effect of mechanical alloying on SiC
distribution and the properties of 6061
aluminum composite”, Journal of
Materials Processing Technology, Vol.
170, pp586-592, 2005.
16- G.J. Fan, H. Choo, P.K. Liaw, and E.J.
Lavernia, “Plastic deformation and fracture
of ultrafine-grained Al–Mg alloys with a
bimodal grain size distribution”; Acta
Materialia, Vol. 54, pp 1759–1766, 2006.
17 -ن. نصیریان و خ. رنجبر، "بررسی خواص مکانیکی و
ریزساختاری کامپوزیت Brass/Al ساخته شده به روش
اتصال نوردی تجمعی" مجله مواد نوین، جلد 3 ،شماره 1،
.1391 پاییز، 54 -45 صص
18- R.G. Vogt, Z. Zhang, T.D. Topping,
E.j. Lavernia, and J.M. Schoenung,
“Cryomilled aluminum alloy and boron
carbide nano-composite plate”, Journal of
Materials Processing Technology, Vol.
209, pp 5046–5053, 2009.
)