Proceedings of the International Conference Recent Advances in Materials, Processes and Technology for Sustainability (RAMPTS 2025)
Conference: Proceedings of the International Conference Recent Advances in Materials, Processes and Technology for Sustainability (RAMPTS 2025)
Date: 9-11 October 2025
Location: Thrissur, India (Offline)
Website: http://icetest2025.gectcr.ac.in/rampts The Recent Advances in Materials, Processing and Testing Systems (RAMPTS 2025) is a distinguished conference dedicated to advancing research in materials science, advanced manufacturing, and testing technologies. Jointly organized by the Departments of Mechanical Engineering, Chemical Engineering, and Production Engineering at Government Engineering College, Thrissur, Kerala, India, the eighth edition was held from 9–11 October 2025. Over the years, RAMPTS has evolved into a prominent platform that brings together researchers, academicians, scientists, and industry professionals to share insights, present innovative findings, and engage in interdisciplinary discussions. The central theme of RAMPTS 2025— “Sustainable Materials and Advanced Manufacturing for a Circular Future”—reflects the global shift toward environmentally responsible and resource-efficient engineering solutions. This theme highlights the development of sustainable materials such as biodegradable polymers, recycled composites, and high-performance alloys, as well as transformative technologies including additive manufacturing, smart manufacturing systems, and green production techniques aimed at reducing energy consumption and enhancing material recovery. To address these focus areas, RAMPTS 2025 featured several specialized technical tracks, including Fluids and Thermal Engineering, Advanced Manufacturing Processes, Advanced Materials, Health and Safety Engineering, Computational Materials Science, Energy Engineering, and Robotics and Automation. These tracks provided a comprehensive platform for presenting state-of-the-art research and fostering meaningful academic and industrial interactions. This proceedings volume compiles the peer-reviewed papers presented during RAMPTS 2025. All submissions underwent a rigorous evaluation process to ensure the publication of original, high-quality, and scientifically sound research aligned with the conference theme. The included works encompass experimental studies, computational modelling, methodological developments, and applied research that collectively advance the understanding of materials engineering, manufacturing technologies, and related interdisciplinary fields. We express our sincere appreciation to all authors for their valuable contributions, to the reviewers for their thorough assessments and constructive feedback, and to the organizing and technical committees for their dedicated efforts in ensuring the success of RAMPTS 2025. We also extend our gratitude to Atlantis Press for their support in publishing and disseminating this volume to the global research community. We hope that this compilation serves as a useful reference for researchers, practitioners, and students, inspiring continued innovation and fostering collaborative efforts toward sustainable advancements in materials and manufacturing technologies.
Date: 9-11 October 2025
Location: Thrissur, India (Offline)
Website: http://icetest2025.gectcr.ac.in/rampts The Recent Advances in Materials, Processing and Testing Systems (RAMPTS 2025) is a distinguished conference dedicated to advancing research in materials science, advanced manufacturing, and testing technologies. Jointly organized by the Departments of Mechanical Engineering, Chemical Engineering, and Production Engineering at Government Engineering College, Thrissur, Kerala, India, the eighth edition was held from 9–11 October 2025. Over the years, RAMPTS has evolved into a prominent platform that brings together researchers, academicians, scientists, and industry professionals to share insights, present innovative findings, and engage in interdisciplinary discussions. The central theme of RAMPTS 2025— “Sustainable Materials and Advanced Manufacturing for a Circular Future”—reflects the global shift toward environmentally responsible and resource-efficient engineering solutions. This theme highlights the development of sustainable materials such as biodegradable polymers, recycled composites, and high-performance alloys, as well as transformative technologies including additive manufacturing, smart manufacturing systems, and green production techniques aimed at reducing energy consumption and enhancing material recovery. To address these focus areas, RAMPTS 2025 featured several specialized technical tracks, including Fluids and Thermal Engineering, Advanced Manufacturing Processes, Advanced Materials, Health and Safety Engineering, Computational Materials Science, Energy Engineering, and Robotics and Automation. These tracks provided a comprehensive platform for presenting state-of-the-art research and fostering meaningful academic and industrial interactions. This proceedings volume compiles the peer-reviewed papers presented during RAMPTS 2025. All submissions underwent a rigorous evaluation process to ensure the publication of original, high-quality, and scientifically sound research aligned with the conference theme. The included works encompass experimental studies, computational modelling, methodological developments, and applied research that collectively advance the understanding of materials engineering, manufacturing technologies, and related interdisciplinary fields. We express our sincere appreciation to all authors for their valuable contributions, to the reviewers for their thorough assessments and constructive feedback, and to the organizing and technical committees for their dedicated efforts in ensuring the success of RAMPTS 2025. We also extend our gratitude to Atlantis Press for their support in publishing and disseminating this volume to the global research community. We hope that this compilation serves as a useful reference for researchers, practitioners, and students, inspiring continued innovation and fostering collaborative efforts toward sustainable advancements in materials and manufacturing technologies.