Recent Advances in Materials Processing and Characterization

Select Proceedings of RAMPC 2024
Herausgegeben:Krishna, Ram; Kumar, Ashok; Varuvel, Edwin Geo

• Gebundenes Buch

Produktbeschreibung

This book presents select peer-reviewed papers of the International Conference on Recent Advances in Materials Processing and Characterization (RAMPC 2024). It offers a comprehensive collection of recent material processing and characterization advancements. It covers a broad spectrum of topics critical to sustainable development in materials engineering, including innovative processing techniques, novel materials, and their applications across various industries. This volume delves into key research areas such as nanotechnology, additive manufacturing (including 3D and 4D printing), biomaterials, and smart materials, reflecting the latest interdisciplinary trends and the integration of artificial intelligence and machine learning in materials engineering. Each paper in the proceedings provides detailed insights into cutting-edge characterization techniques, sustainable processing methods, and the industrial applications of advanced materials. With a strong emphasis on functional and computational materials science, the book also explores the role of green processing technologies, positioning these advancements as solutions to pressing global issues like carbon footprint reduction, climate change, and resource depletion. By compiling contributions from leading researchers, industry experts, and academics, the book serves as a resource for professionals and students alike, promoting knowledge exchange and innovation in the field of materials science and engineering.

Produktdetails

• Springer Proceedings in Materials 78
• Verlag: Springer / Springer Nature Singapore / Springer, Berlin
• Artikelnr. des Verlages: 89558838, 978-981-95-3089-2
• Seitenzahl: 500
• Erscheinungstermin: 10. Januar 2026
• Englisch
• Abmessung: 235mm x 155mm
• ISBN-13: 9789819530892
• ISBN-10: 981953089X
• Artikelnr.: 75322956

Autorenporträt

Ram Krishna is an accomplished materials scientist and Assistant Professor in the Department of Metallurgical and Materials Engineering at the National Institute of Technology (NIT) Jamshedpur. With a PhD in mechanics of materials from the University of Leicester, UK, his research focuses on high-temperature alloys, additive manufacturing, and sustainable materials for energy applications. His extensive experience includes collaborations with industry leaders such as Alstom and E-ON on projects related to material performance in energy sectors. Dr. Krishna has led numerous research initiatives in materials processing and 3D printing areas, and he actively supervises doctoral candidates working on advanced materials, particularly for energy and high-temperature applications. He has been involved in various international research projects and editorial roles for journals and conferences. Ashok Kumar is a Professor in the Department of Metallurgical and Materials Engineering at NIT Jamshedpur, India. His expertise spans high-temperature deformation, fatigue fracture, failure analysis, and welding of dissimilar materials. With a PhD in metallurgical and materials engineering from IIT Kharagpur, Prof. Kumar has contributed significantly to the field through teaching, research, and conference organization. Prof. Kumar's research interests include the physical metallurgy and mechanical behaviour of materials, particularly in areas such as creep deformation and structure-property correlations. Edwin Geo Varuvel is a Professor at Istinye University in Istanbul, Turkey, specializing in alternate energy research, including biofuels, hybrid vehicles, and fuel cells. With over 18 years in academia and 12 years of research experience, Dr. Geo's work focuses on emissions reduction, energy modeling, and renewable fuel technologies. He has collaborated internationally, including with institutions in France and Canada, and has successfully led several funded research projects in biofuels and sustainable energy systems. His editorial contributions to international journals and experience in computational modeling for energy applications underscore his contributions to sustainable technologies. Dr. Geo’s recent research includes machine learning applications for energy optimization and emissions reduction. 

Inhaltsangabe

Part 1: Additive Manufacturing and Advanced Processing.- External Pressures Induced Phase Transition in Aluminium: an atomistic investigation.- Development of feed stock material using secondary resources for sustainable 3D printing.- Friction Stir Welding: A Trending Solid-State Welding Process.- Design and Integration of 3D printers with automatic dimension measurement system for high precision prints.- Performance Improvemnet and Energy Savings in Domestic Refrigeration Systems using CNT/ZrO2 Nanoparticle with PAG Oil.- Part 2: Machining and EDM Techniques.- Effect of Pulse duration on the surface roughness of EDM processed 17-4 PH SS steel.- Performance Improvement of WEDM in Tungsten Carbide Machining Through Taguchi-Based Parameter Optimization.- Performance Evaluation and Parametric Optimizations of Electrochemical Machining for Inconel 718.- A comparative study of copper and copper-coated WC electrodes using electrical discharge machining for the surface alloying of Ti-alloy.- A comparative performance evaluation during intermittent machining of Ti-alloy using RSM.- Optimisation of electrochemical machining parameters for enhanced MRR and Ra of 17-4 PH stainless steel.- Investigations on use of Copper Beryllium electrode as cathode in EDM for machining characteristics of Inconel 718.- etc.