Born on 15 February 1952,[3] Dipankar Banerjee graduated in metallurgical engineering from the Indian Institute of Technology, Madras in 1974.[4] After gaining a master's degree, he pursued his doctoral studies at the Indian Institute of Science (IISc) to earn a PhD in 1979. His post-doctoral work was at the Aeronautical Research and Development Board of India of the Defence Research and Development Organization (DRDO) as a research fellow and after completing the work, he started his career at the Defence Metallurgical Research Laboratory (DMRL) of DRDO in 1979.[5] He became the director of DMRL in 1996 and held the position until 2003 when he was appointed as the chief controller of research and development of DRDO, overseeing the aeronautical and materials programs of the organization. In 2010, he returned to his alma mater, the IISc, as a professor at the Department of Materials Engineering[6] and heads the Processing, Structure and Properties of Materials Laboratory (PSPM) as its group leader.[7] During this period, he had several stints on research assignments in the US which included those at the Carnegie Mellon University, the Los Alamos National Laboratory and the General Electric Research Laboratory. He is a former chair of the research council of the National Institute of Interdisciplinary Science and Technology and the incumbent chair of the researchcouncil of Central Glass and Ceramics Research Institute of CSIR and the Gas Turbine Materials (GTMAP) program of the Aeronautics Research and Development Board of DRDO.[8] He is a former president and the incumbent member of the council of the Indian Institute of Metals[9] and sits in the governing board of the Indian Institute of Technology, Madras.[10] The memberships of the board of governors of Mishra Dhatu Nigam and the strategic advisory committee of the Mining and Metallurgical Society of America were some of his other past assignments.
Legacy
Banerjee, whose research has been focusing on the structure and properties of titanium alloys, is known to have made significant contributions in the field of the physical metallurgy of titanium aluminides and his studies are reported to have assisted in developing alloy systems for high-temperature applications such as those in gas turbine engines.[12] The group led by him employed advanced electron microscopy techniques to study the physical metallurgy of the alloys and was successful in discovering the Ti2AlNb phase which eventually helped other scientists in developing a new generation of alloys.[4] During his days at DMRL, he contributed to initiating programs like the development of special naval steels for use in aircraft carriers and titanium alloys for aircraft engines. Later, at the research and development division of DRDO, he was instrumental in introducing programs in airborne electronic warfare, unmanned vehicle and airborne early warning systems.[5] His studies have been documented in a number of articles;[note 2][13]Google Scholar and ResearchGate, online repositories of scientific articles, have listed 141[14] and 109 of them respectively.[15]
Awards and honors
Banerjee received the Metallurgist of the Year Award of the Indian Institute of Metals[16] and the Scientist of the Year award of the Defence Research and Development Organization in 1987.[5] The Council of Scientific and Industrial Research awarded him the Shanti Swarup Bhatnagar Prize, one of the highest Indian science awards in 1993.[17] He received the Superconductivity Prize of the Materials Research Society of India in 2001,[18] followed by the Distinguished Alumnus Award of the Indian Institute of Technology, Madras in 2003.[19] The Government of India awarded him the fourth highest civilian honor of the Padma Shri in 2005[2] and three years later, he received the Technology Leadership Award of the DRDO in 2008.[4] The Indian National Academy of Engineering selected him for the Professor Jai Krishna Memorial Award in 2011[5] and he was chosen for the Lifetime Achievement Award of the DRDO in 2014.[20]
Kumar, A.; Jayakumar, T.; Raj, B.; Banerjee, D. (21 January 2008). "A new methodology for identification of β-transus temperature in α + β and β titanium alloys using ultrasonic velocity measurement". Philosophical Magazine. 88 (3): 327–338. Bibcode:2008PMag...88..327K. doi:10.1080/14786430701837015. ISSN1478-6435. S2CID135513991.
Gogia, A. K.; Baligidad, R. G.; Banerjee, D. (1 June 2003). "Toughening and creep in multiphase intermetallics through microstructural control". Sādhanā. 28 (3–4): 677–693. doi:10.1007/bf02706453. ISSN0256-2499. S2CID53991984.
Mohandas, T; Banerjee, D; Rao, V.V Kutumba (2000). "Microstructure and mechanical properties of friction welds of an α+β titanium alloy". Materials Science and Engineering: A. 289 (1–2): 70–82. doi:10.1016/s0921-5093(00)00914-x.
^ ab"Padma Awards"(PDF). Ministry of Home Affairs, Government of India. 2015. Archived from the original(PDF) on 15 October 2015. Retrieved 21 July 2015.