N. Viswanathan

Bio: N. Viswanathan is an academic researcher. The author has contributed to research in topics: Ultimate tensile strength & Tensile testing. The author has an hindex of 1, co-authored 1 publications receiving 12 citations.

Combined effect of inoculation and magnetic arc oscillation on microstructure and tensile behaviour of type 2090 Al–Li alloy weld fusion zones

Abstract: In the development of Al–Li alloys for aerospace structures, their behaviour during welding plays an important role. One way of improving weldability is to refine weld solidification structures, which can be achieved by a variety of means. In this work, a type 2090 Al–Li alloy was gas tungsten arc welded with two different filler materials corresponding to types 2319 (Al–6.3Cu) and 4043 (Al–5.2Si). Inoculation with titanium together with arc oscillation through an imposed alternating magnetic field was used to refine the weld fusion zone microstructures. Post-weld aging and tensile testing were employed to assess possible improvements in performance. It was found that the combined treatment of inoculation and magnetic oscillation resulted in fully equiaxed, fine grained structures and that this led to a noticeable increase in aging response and tensile properties, especially ductility.

Solidification and liquation cracking issues in welding

Abstract: Solidification cracking can occur in the fusion zone during the solidification of the weld metal Liquation cracking, on the other hand, can occur in the partially melted zone during the solidification of the liquated material These two types of cracking are reviewed in this article, including the factors that affect cracking and the remedies

Microstructure and mechanical properties of Sc modified Al–Cu alloy (AA2219) electron beam welds

Abstract: In this paper, the formability of YAG and diode laser welded blanks of a dual phase (DP) steel with banded martensite was investigated by using limiting dome height (LDH) testing method. One high strength low alloy (HSLA) steel with equiaxed ferrite matrix was included for comparison. Both steels had a ferrite matrix and dispersed secondary phase, namely martensite and carbide. The failure mode and dome height at fracture were examined on both parent metals and welded blanks. It was found that the failure pattern of DP parent metal was determined by its rolling direction. With increasing plastic strain, voids initiated along interfaces between ferrite/martensite due to decohesion between two phases and propagated preferentially along the interface. For DP welded blanks, dome test failures occurred within the softened zone in the heat affected zone (HAZ) regardless of the orientation between weld and rolling direction. Voids formed at the interfaces between ferrite and tempered martensite. The presence of the softened HAZ zone led to dramatic LDH decrease compared to the parent metal. The diode laser welded blanks had a lower dome height than that of YAG laser welded blanks due to their more severe HAZ softening. In comparison, HSLA parent metal and welded blanks exhibited almost the same LDH values and showed insensitivity to welding process. The failure of HSLA welded blanks initiated from the weld and propagated perpendicular to the unaffected base metal.

Effects of electron beam oscillation techniques on solidification behaviour and stress rupture properties of Inconel 718 welds

Abstract: Effects of electron beam oscillation techniques (sinusoidal, square, triangular, ramp, circle and elliptical) in controlling Nb segregation, Laves formation and stress rupture behaviour of Inconel 718 electron beam welds are studied. Effects of various post-weld heat treatments on stress rupture behaviour are compared. Elliptical beam oscillation technique resulted in less Nb segregation and discontinuous and fine Laves in the interdendritic regions compared with other welds and unoscillated beam weld. Response to aging was better for welds made with elliptical oscillated beam compared with welds made with unoscillated beam. Oscillated beam welds exhibited longer rupture life than unoscillated beam welds in both solution treated and aged and directly aged conditions.