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Researcher

Profile Ir. Rahmat Saptono, M.Sc.Tech, Ph.D

Name Ir. Rahmat Saptono, M.Sc.Tech, Ph.D
Department Teknik Metalurgi dan Material
Research Interest Mechanical Behavior of Materials
Expertise Materials Science Engineering
Profile :
ACADEMIC TRAINING Ph.D in Materials Science & Engineering (UT Arlington) M.Sc.Tech in Engineering Materials (UNSW Sydney) Ir. in Metallurgy (UI Depok) Metallographic Analysis Training (BATAN Serpong) Non Destructive Testing Training (NEWI Wrexham) PROFESSIONAL MEMBERSHIP The Association of Professional Engineers, Scientist, and Manager, Australia (APESMA), 2001 Indonesian Society for Nanotechnology, 2006- Material Advantage, the Student Program for Material Science and Engineering, 2011-2014 The Minerals, Metals, and Materials Society (TMS Elected), 2015 Material Research Society Indonesia (MRS-INA), 2017 Persatuan Insinyur Indonesia (PII) BK Metalurgi, 2016 PII BK Material, 2016 RESEARCH INTEREST My core expertise is “Mechanical Behavior of Materials in Design, Manufacture and Engineering Applications”. The areas of engagements are including but not limited in: Design, Processing, and Modifications of Structures and Properties of Materials through Controlled Plastic Deformation. Mechanical Behavior and Stress Related Phenomena in the Processing and Applications of Engineering Bulk and Thin Materials. Design and Selection of Materials in Mechanical Design. Characterization and Modeling of Stress-Related Phenomena. Design, Processing, and Selection of Materials in Engineering Higher Education. Development of Formable Hybrid Materials System. RECENT PUBLICATIONS (FIRST AUTHOR) R. Saptono, Solid State Sintering of Nanostructured Ceramics, ICASCE 2012 Proc. Eng. 50. R. Saptono D, C-U Kim, A Model-inspired Phenomenology Constitutive Equation for the Temperature-dependence of Flow Stress at Confined Dimension I, App. Mech. Mat. 534 (2014) 83-92. R. Saptono D, C-U Kim, A Model-inspired Phenomenology Constitutive Equation for the Temperature-dependence of Flow Stress at Confined Dimension II, IOP Conf. Ser.: Mat. Sci. Eng. 58 (2014) 012021. R. Saptono D, C-U Kim, Analysis on the Temperature-Dependence of the Flow Stress in Metallic Thin Film Based on an Exponential Decay Model, Adv. Sci. Let. 20 (2014) 2278-2281. R. Saptono D, C-U Kim, Temperature-dependence of Threshold Current Density-Length Product in Metallization Lines: A Revisit, J. Phys.: Conf. Ser. 710 (2016) 012044. R. Saptono D, Evaluation of C/C-SiC Composites as Potential Candidate Materials for High Performance Braking Systems, IOP Conf. Ser.: Mat. Sci. Eng. 131 (2016) 012009. R. Saptono D, Graphene Nanoribbons (GNRs) for Future Interconnect, IOP Conf. Ser.: Mat. Sci. Eng. 131 (2016) 012018. R. Saptono, C-U Kim, MTS Model in Small Volume Electronic Materials, Advanced Materials - TechConnect Briefs 2016 Volume 4, 2016, Pages 133-142 10th Annual TechConnect World Innovation Conference and Expo, Held Jointly with the 19th Annual Nanotech Conference and Expo, and the 2016 National SBIR/STTR Conference; Washington; United States; 22 May 2016 through 25 May 2016


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