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সিএসআইআর-কেন্দ্রীয় কাঁচ ও সেরামিক গবেষণা সংস্থা
सीएसआईआर-केंद्रीय काँच एवं सिरामिक अनुसंधान संस्थान
CSIR-Central Glass & Ceramic Research Institute
"मानवता के लिए सिरामिक एवं काँच में नवाचार"
Dr. Dipayan Sanyal
Chief Scientist
- Non-oxide Ceramic & Composite Division
Contact Information:
Phone: (033) 24733496 (Ex. 3315)
Fax: +91-33-24730957
Mobile : 9432012330
E-mail: dsanyal@cgcri.res.in
Dr. Dipayan Sanyal
Dr. Sanyal joined CGCRI on 30th August 2002Professional Career
| Position Held | Organisation | Duration |
| Assistant Development Engineer, Group II R&D | Larsen & Toubro, Powai | 1986-1988 |
| Lecturer | Department of Chemical Engineering, Jadavpur University | 1988-1989 |
| Scientist | National Metallurgical Laboratory Jamshedpur | 1989-2002 |
| Scientist | Central Glass & Ceramic Research Institute | 2002 - continuing |
Education
| Degree | Discipline | University; Year |
|---|---|---|
| B.Ch.E | Chemical Engineering | Jadavpur University |
| M.Tech | Chemical Engineering | IIT, Kanpur |
| Ph.D. | Mechanical Engineering | IIT Kharagpur |
Patents filed / Granted
Summary: Indian= 1;
A software copyright was awarded to D. Sanyal jointly with R. P. Goel, National Metallurgical Laboratory, Jamshedpur on CALBOF – A Software for Analysis of Basic Oxygen Steelmaking
- University Gold Medal and Jatindra Krishna Medal for securing 1st Rank in B. Ch. E Exam, Jadavpur University, 1984
- Japanese Society for Promotion of Science (JSPS) RONPAKU fellowship During 1995-1996 for collaborative research at University of Tokyo
Research Interest
Multiscale Modeling and Simulation of Materials Processing, Materials Behaviour and Materials Characterisation, Computational and Experimental Solid and Fluid Mechanics, Microstructural Modeling, Soft Computing, Ab-Initio Computing, Transport Phenomena and Kinetics, Non-equilibrium Thermodynamics, Non-destructive Testing and Structural Health Monitoring, Mechanical Properties of Engineered Porous Materials, Novel composites, Laser matter interactions, Innovative design and technology developments (e.g., ceramics with structured porosity from polymeric precursors, micro/nanofluidic devices, surface nanotexturing, precision optics, solar photovoltaics etc.)
Landmark Research Contribution
- Development of a multiscale material modeling framework for solid-liquid phase change phenomena, mixing and homogenization in oxide glass, bio-implants for total hip arthoplasty, optimization of multichannel ceramic membrane for efficient hydordynamics.
- Development of a novel method of characterizing dendritic microstructure during alloy solidification using fractal geometry.
- Development of a novel methodology for estimating the elastic moduli of porous ceramic and metallic materials at any level of porosity based on a single ultrasonic measurement of longitudinal velocity of the green compact.
- Development of polymer-ceramic composites for resistance against impact and fire damages.
- Development of a QNDTE technique based on non-contact Laser Induced Ultrasonics along with an elastodynamic model of ultrasonic stress wave propagation through elastic media with a pulsed laser source. Application of this model for estimating arrival times of various primary and mode converted stress waves propagating during Laser Induced Ultrasonic (LIU) NDE in metals, ceramics and composite specimens.
Selected Publications
Publications: Summary:
Selected Papers:
Selected Papers:
- Dipayan Sanyal, P. Ramachandra Rao and O. P. Gupta, A fast strategy for Simulation of phase change phenomena at multiple length scales, Computational Materials Science, 37 (2006) 166.
- Dipayan Sanyal, P. Ramachandra Rao and O. P. Gupta, A fractal description of transport phenomena in dendritic porous network, Chemical Engineering Science, 61 (2006) 307-315.
- Dipayan Sanyal, P. Ramachandra Rao and O. P. Gupta, “Modelling of Free Boundary problems for phase change with diffuse interfaces”, Mathematical Problems in Engineering, 3 (2005) pp.309-324.
- K. K. Phani and Dipayan Sanyal, “The relations between the shear modulus, the bulk modulus and Young’s modulus for porous isotropic ceramic materials”, Materials Science and Engineering, A490, pp. 305-312 (2008)
- K. K. Phani and Dipayan Sanyal, “Prediction of elastic behaviour of sintered metal powder from the ultrasonic velocities of green compacts”, Metall. Mater. Trans. A, 39A, pp. 790-798 (2008).
- K. K. Phani and Dipayan Sanyal, “A new method for estimation of elastic properties of sintered iron powder compacts from ultrasonic longitudinal velocity”, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 55, pp. 254-259 (2008)
Last Updated on July 27, 2019
