EXPERMENTAL INVESTIGATION OF TEMPERATUREFOR STIR FRICTION WELDING DISTRIBUTION
محتوى المقالة الرئيسي
الملخص
Friction stir welding (FSW) is a solid state joining method for metal and is widely used for
Al-Alloys. In the present work ,temperature distributions were investigated for Aluminum alloy
(7008), the effect of the main welding parameters such as rotational speed (tool speed) and liner
speed (welding speed) on the temperature distribution were investigated .The results show that the
rotational speed has a strong effect on the temperature distribution and this effect increases with
temperature increase, but the linear speed has an (inverse proportion) with the temperature increase.
This effect was less than the rotational speed. Peak temperature was estimated theoretically by
using (Bakingham ) theorem to derivate the relationship between the dimensionless heat input and
dimensionless peak temperature. In this study a mechanical test (tensile test) for welded specimen
was investigated to study the effect of temperature distribution on the mechanical properties of the
alloy, results show that Aluminum alloy (7008) was weldable on the (FSW) process and obtain an
maximum weld efficiency (81%) with parameters (880 rpm) rotational speed and (1 mm/sec)
welding speed. By comparing test results with peak temperature to the Al-Alloy the obtained result
was that the welding process is successful when welding temperature be (75-80%) of melting point
of the used material.
تفاصيل المقالة
القسم
كيفية الاقتباس
المراجع
ASTM]" Standard methods of tension testing. Wrought And Cast Aluminum-And
Magnesium_Alloy products", 2003.
.G.Roy, R. Nandon and T. Debroy" Dimension less correlation for peak temperature in
SW". Science and Technology of Welding and Joining. Vol. 11, No.5, pp.606-608, 2006.
. Hemanth Vepakomma, "Three dimensional thermal modeling of Friction stir
rocessing". The Florida State University. Spring semesfer, 2006.
Mikell P. Groover "Fundamentals of Modern Manufacturing " Johnwilely and Sons InG,
econd Edition, 2002.
Mohanad Okab Yousuf ''Invistigation of Mechanical and Microstructural Characteristics of
riction Stir Welded Joints", 2007.
ASA explores " Creating Astir". October, 2002.
R.Nandan, G.G.Roy, and T.Debroy" Numerical Simulation of three-Dimensional heat
ransfer and plastic flow During Friction Stir welding " Volume 37A. pp. 1247-1259, April,
analdv. Giles.(Schaum's outline Series) "Fluid Mechanic and Hudraulics 2/ed". 1992.
ichardson." A new heat transfer model for friction stir welding ", Transactions of NAMRI /
ME. pp. 565-572, volume xxx, 2003.
apa Profiler AB " Friction Stir Welding". SE574 81 veltanda. Sweden, 2003.
erope Kalpakjian "Manufacturing processes for Engineering materials''. Addition-wesley
ublishing Company. Third Edition, 1997.
erry Khaled, ph.D."AN out sider Looks At Friction Stir welding ". Technical Advisor,
Metallurgy, July, 2005.
ictor L. Streeter "Fluid Mechanic", printed and bond by Book-martpress, Inc., Eight
dition, 1985
Yuh J. Chao and Xinhai Qi " Heat transfer and thermo-mechanical Analysis of friction Stir
Joining of A A 6061-T6 plates". University of South Carolina, Columbia, SC 29208,
pp. 1-10, 1999.