Ramachandran Sankarasubramanian
Ramachandran Sankarasubramanian
Scientist, Defence Metallurgical Research Laboratory, Hyderabad
Verified email at dmrl.drdo.in
TitleCited byYear
Orthorhombic martensitic phase in Ti–Nb alloys: A first principles study
A Pathak, S Banumathy, R Sankarasubramanian, AK Singh
Computational Materials Science 83, 222-228, 2014
282014
Symmetry-breaking transitions in equilibrium shapes of coherent precipitates
CS Jog, R Sankarasubramanian, TA Abinandanan
Journal of the Mechanics and Physics of Solids 48 (11), 2363-2389, 2000
162000
Symmetry-breaking transitions in equilibrium shapes of coherent precipitates: Effect of elastic anisotropy and inhomogeneity
R Sankarasubramanian, CS Jog, TA Abinandanan
Metallurgical and Materials Transactions A 33 (4), 1083-1090, 2002
132002
Microstructure and mechanical properties of a copper containing three phase titanium alloy
S Gollapudi, R Sarkar, UC Babu, R Sankarasubramanian, TK Nandy, ...
Materials Science and Engineering: A 528 (22), 6794-6803, 2011
112011
Effect of surface anisotropy on the melting temperatures of free-standing gold nanofilms
R Sankarasubramanian, K Kumar
Computational Materials Science 49 (2), 386-391, 2010
82010
Thermite assisted synthesis of ZrB2 and ZrB2–SiC through B4C reduction of ZrO2 and ZrSiO4 in air
RV Krishnarao, R Sankarasubramanian
Journal of Advanced Ceramics 6 (2), 139-148, 2017
52017
Crystal-melt kinetic coefficients of Ni3Al
R Ramakrishnan, R Sankarasubramanian
Acta Materialia 127, 25-32, 2017
52017
The effect of γγ′ interface on the tensile and shear strengths of nickel-based superalloys: A first-principles study
K Kumar, R Sankarasubramanian, UV Waghmare
Computational Materials Science 97, 26-31, 2015
52015
Quantitative Strain and Compositional Studies of InxGa1−xAs Epilayer in a GaAs-based pHEMT Device Structure by TEM Techniques
DVS Rao, R Sankarasubramanian, K Muraleedharan, T Mehrtens, ...
Microscopy and Microanalysis 20 (4), 1262-1270, 2014
52014
Tuning planar fault energies of Ni3Al with substitutional alloying: First-principles description for guiding rational alloy design
K Kumar, R Sankarasubramanian, UV Waghmare
Scripta Materialia 142, 74-78, 2018
42018
Studies on Alloying Element Partitioning in DMS4 Nickel base Superalloy using Monte Carlo Simulations and 3D Atom Probe
R Balamuralikrishnan, R Sankarasubramanian, MP Pathak, ...
Superalloys 2008, 993-1002, 2008
4*2008
Microstructural evolution in elastically-stressed solids: a phase-field simulation
R Sankarasubramanian
Defence Science Journal 61 (4), 383-393, 2011
32011
Crystal–Melt Interface Growth Velocity of Ni–Zr Alloys Through Molecular Dynamics Simulations
R Ramakrishnan, G Phanikumar, R Sankarasubramanian
Transactions of the Indian Institute of Metals 68 (6), 1113-1117, 2015
22015
Influence of dilute solute substitutions in Ni on its generalized stacking fault energies and ductility
K Kumar, R Sankarasubramanian, UV Waghmare
Computational Materials Science 150, 424-431, 2018
12018
Phase-field modeling of equilibrium precipitate shapes under the influence of coherency stresses
B Bhadak, R Sankarasubramanian, A Choudhury
arXiv preprint arXiv:1804.01763, 2018
12018
Microstructural and compositional characterisation of Electronic Materials
DV Rao, R Sankarasubramanian, D Kumar, V Singh, KM Bhat, P Mishra, ...
Defence Science Journal 66 (4, SI), 341-352, 2016
12016
Mobilities and dislocation energies of planar faults in an ordered A3B (D019) structure
AK Singh, R Sankarasubramanian, TK Nandy
Bulletin of Materials Science 36 (4), 677-686, 2013
2013
Symmetry-Breaking Transitions In Equilibrium Shapes Of Coherent Precipitates
R Sankarasubramanian
Indian Institute of Science, 2000
2000
Equilibrium shapes of coherent, misfitting precipitate
TA Abinandanan, R Sankarasubramanian, CS Jog
Japan Institute of Metals 1, 541-544, 1999
1999
Symmetry-breaking transitions in equilibrium shapes of isolated, coherent particles in cubic crystals
R Sankarasubramanian, CS Jog, TA Abinandanan
Japan Institute of Metals 1, 709-712, 1999
1999
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Articles 1–20