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Biography

“I am Dr. S. Mamatha,  a Ph. D in Materials Engineer specializing in the additive manufacturing of advanced ceramics and traditional ceramics. My work focuses on overcoming the traditional limitations of ceramics by utilizing advanced additive manufacturing to create complex, lightweight geometries. From optimizing sintering cycles to improving the structural, thermal and mechanical properties of 3D printed ceramics. Currently working as a Project Scientist-1 leads research into developing of aqueous based solid oxide fuel cell  for energy storage applications. I’m passionate about the future of ceramic-based aerospace and medical components. Also I'm passionate to develop process for printing of fuel cells for energy storage applications. I have experienced in carbon composites processing, fabrication of carbon carbon products for defence applications. 

Research Areas of Interest

Advanced ceramic processing3D printing of ceramics, Rheological analysis, Thermo-mechanical characterization of ceramics, Carbon Carbon Composites for high temperature applications, Fuel cells

Highest Qualification

Ph. D Materials Engineering

List of Publications

  1. S Mamatha, P Biswas, D Das, R Johnson3D Printing of Cordierite Honeycomb Structures and Evaluation of Compressive Strength under Quasi-static Condition, International Journal of Applied Ceramic Technology, 2020; 17:211-216. 
  2. S. Mamatha, P Biswas, P Ramavath, D Das, R Johnson, 3D-Printing of complex shaped alumina parts, Ceramic International, 2018;44:19278–19281.
  3. S. Mamatha, P Biswas, D Das, R JohnsonComplex Shaped Ceramic Fabrication From 3D Printed Poly Lactic Acid Templates Through Replication Process, Ceramic International, 2019; 45: 19577-19580.
  4. S Mamatha, P Biswas, P Ramavath, D Das, R JohnsonEffect of parameters on 3D printing of alumina ceramics and evaluation of properties of sintered parts, Journal of Asian Ceramic Societies, 2021.
  5. P Biswas, S Mamatha, S Naskar, Y S Rao, R Johnson, G Padmanabham, 3D Extrusion Printing of Magnesium Aluminate Spinel Ceramic Parts Using Thermally Induced Gelation of Methyl Cellulose, Journal of Alloys and Compounds 2019;770:419-423.
  6. P Biswas, S Mamatha, K Varghese, R Johnson, R Vijay, R Kumar, 3D printing of high surface area ceramic honeycombs substrates and comparative evaluation for treatment of sewage in Phytorid application, Journal of Water Process Engineering Technology, 2020; 37: 101503-101508.
  7. A Adumbumkulath, C Shin, G Acharya, P Biswas, S Mamatha, R Johnson, G Padmanabham3D printing of MgAl2O4 spinel mesh and densification through Pressure-less sintering and hot-isostatic pressing, 3D Printing and Additive Manufacturing, 2021.
  8. S Mamatha, P Biswas, R Johnson, Digital light processing of ceramics: An overview of process, materials and challenges, Progress in Additive Manufacturing, 2022

 

Awards & Honours

  1. Third prize in Science Technology and Innovation Talks (STIN-2021), National Science Day
    celebrations organized by ARCI, Hyderabad on 26th February for the talk titled “3D Printing
    of Ceramics- An Emerging Technology”.
  2.  First prize in Safety Slogan Competition conducted as a part of 49th National Safety Day
    Celebrations held at ARCI, Hyderabad 2020.
  3.  Received the IoE Publication Incentive Scheme for the Paper titled “3D Printing of Cordierite
    Honeycomb Structures and Evaluation of Compressive Strength under Quasi-static
    Condition” for the year of 2020.

Affiliation to Professional Societies

  1. INDIAN CERAMIC SOCIETY