A Review on Friction Stir Welding of Various Tool Geometry
Abstract
Keywords
Full Text:
PDFReferences
Kumbhar NT, Bhanumurthy K.
Friction stir welding of Al 5052 with
Al 6061 alloys. Journal of
Metallurgy. 2012;2012.
Zhao YH, Lin SB, Wu L, Qu FX.
The influence of pin geometry on
bonding and mechanical properties in
friction stir weld 2014 Al alloy.
Materials Letters. 2005 Oct
;59(23):2948–52.
Ali A, Zaroog OS. Characterization
and Fatigue of Friction Stir Welding.
Department of Mechanical and Manufacturing Engineering,
University Putra Malaysia. 2008 Jan
;43400.
Kermanidis AT, Zervaki AD,
Haidemenopoulos GN, Pantelakis
SG. Effects of temper condition and
corrosion on the fatigue performance
of a laser-welded Al–Cu–Mg–Ag
(2139) alloy. Materials & Design.
Jan 1; 31(1):42–9.
Palanivel R, Mathews PK. The
tensile behaviour of friction-stirwelded dissimilar aluminium alloys.
Materiali in Tehnologije. 2011 Nov
;45(6):623–6.
A.K. Lakshminarayanan, V.
Balasubramanian: Process parameters
of friction stir welded AA6061
Aluminium alloy in O and T6
Conditions. ARPN Journal of Engg.
and Applied Sciences. Vol. 6, No. 2,
Indira Rani M., Marpu R.N., and
A.C.S. Kumar: A Study of process
parameters of friction stir welded
AA6061 Aluminium alloy in O and
T6 Conditions. ARPN Journal of
Engg. and Applied Sciences. Vol. 6,
No. 2, 2011.
C. Blignault, D.G. Hattingh, and
M.N. James: Optimizing Friction Stir
Welding via Statistical Design of
Tool Geometry and Process
Parameters. JMEPEG. 2012; 21:927–
G.
Dinaharan, K. Kalaiselvan, S.J.
Vijay, P. Raja. Effect of material
location and tool rotational speed on
microstructure and tensile strength of
dissimilar friction stir welded
aluminum alloys. Archives of Civil
Mechanical Engineering. 2012; 446–
H.K. Mohanty, D. Venkates Warlu,
M.M. Mahapatra, Pradeep kumar:
Modelling the effects of tool probe
Geometries and process parameters
on friction stirred aluminium welds.
Journal of Mechanical Engg. and
Automation. 2012, 2(4):74–79.
K. Kumari, Surjya K. Pal, Shiv Brat
Singh. Friction stir welding by using
counter-rotating twin tool. Journal of
Materials Processing Technology.
(2015) 132–141.
G. Rambabu, D. Balaji Naik, C.H.
Venkata Rao, K. Srinivasa Rao, G.
Madhusudan Reddy. Optimization of
friction stir welding parameters for
improved corrosion resistance of
AA2219 aluminum alloy joints.
Defence Technology. 2015; 1e8.
Luis Trueba Jr, Georgina Heredia,
Daniel Rybicki, Lucie B. Johannes:
Effect of tool shoulder features on
defects and tensile properties of
friction stir welded aluminum 6061-
T6, University of Texas of the
Permian Basin, Mechanical
Engineering, 4901 East University,
Odessa, TX 79762, USA. Journal of
Materials Processing Technology 219
(2015) 271–277.
Paul D. Edwards, M. Ramulu:
Material flow during friction stir
welding of Ti-6Al-4V. Journal of
Materials Processing Technology 218
(2015) 107–11
Marathe Shalin, Mistry Hiten.
Experimental analysis on effect of
tool transverse feed, tool rotational
speed and tool pin geometry type on
weld tensile strength of friction stir
welded joint of AA6061. Materials
Today Proceedings. 5 (2018) 487–
Gadde Naveen, Shikhar Goel, Akash
Gupta, Piyush Gulati: Effect of
various tool pin profiles on
temperature rise and mechanical
properties of friction stir processed
AZ31Mg alloy. Materials Today
Proceedings. 5 (2018) 4384–4391.
Ratnam cha, Sudheer kumar B,
Rohinikumar Ch. Investigation of the
influence of twin pin tool geometry
in friction stir welding of dissimilar
Al alloys. Materials today.
Proceedings. 18 (2019) 5100–5106.
R. Anand V.G. Sridhar: Studies on
process parameters and tool geometry
selecting aspects of friction stir
welding: A review. Materials Today
Proceedings. 2019.
Jithin Ambarayil Joy, Muhammad
Sajjad, Dong-Won Jung. Design and
Fabrication of Friction Stir Welding
Machine. MATEC Web of
Conferences. 2019.
DOI: https://doi.org/10.37628/ijpe.v6i2.1205
Refbacks
- There are currently no refbacks.