+353-1-416-8900REST OF WORLD
+44-20-3973-8888REST OF WORLD
1-917-300-0470EAST COAST U.S
1-800-526-8630U.S. (TOLL FREE)

Thermoforming Modeling and Simulation. A Multiphysics Approach. Multiphysics: Advances and Applications

  • Book

  • December 2024
  • Elsevier Science and Technology
  • ID: 5978234

Thermoforming Modeling and Simulation: A Multiphysics Approach concentrates on the modeling and optimization of thermoforming, as well as identifying the structural behavior of thermoplastics used for thermoforming. The book demonstrates the expertise gained through industrial and academic projects in technical transfer. It also illustrates the research and development skills in experimental and numerical modeling of thermoforming. The problem of identifying laws of behavior from experimental data (rheological or mechanical tests in large deformations), using algorithms such as neural networks, is also addressed. Through its multiphysics content, this book is helpful for researchers, teachers and industrialists interested in new advances in thermoforming (characterization of materials, modeling and optimization).

Table of Contents

Part I: Characterization of materials in thermoforming 1. Characterization of polymeric membrane under the combined effect of temperature and gravity 2. Characterization of polymeric membrane under large deformations using fluid-structure coupling 3. Characterization of Softened Polymers for thermoforming applications 4. Reliability of free inflation and dynamic mechanics tests in predicting polymer behavior for thermoforming applications 5. Deployment of a Neo-Hookean membrane: Application to process forming Part II: Numerical modeling in thermoforming 6. Infrared radiation applied to thermoforming 7. Directional analysis of long fibers in transversely isotropic hyperelastic and viscoelastic material used for thermoforming 8. Thermodynamical approach for analysis of thermoforming process using the explicit dynamic or the quasi-static finite element method in large deformations 9. Effect of cooling temperature on crystallinity and release time for thermoforming applications 10. SPH and FEM investigation of hydrodynamic impact problems: Application to forming analysis 11. Fluid solid interaction simulation of CFRP shell structure 12. Numerical investigation of a mixed SPH-FEM formulation for fluid structure interaction problems: Application to thermoforming Part III: Optimization in thermoforming 13. Non-linear threshold algorithm-based solution for infrared heating optimization in the thermoforming process 14. Application of genetic and simulated annealing algorithms for optimization of infrared heating stage in thermoforming process Part IV: New Advances in Thermoforming and Applications 15. Comparative study of the use of infrared and microwave heating modes for the thermoforming of wood-plastic composite sheets 16. Potential of biocomposites based on thermoplastic and plant fibers for thermoforming applications 17. Experimental and theoretical study of the thermoformability of industrial polymers 18: Thermoplastic composite fabrication using Commingling techniques

Authors

Fouad Erchiqui Full professor and Bioplasturgy Laboratory Director, Universit� du Qu�bec en Abitibi-T�miscamingue (UQAT), Quebec, Canada. Dr. Fouad Erchiqui has been a full professor at UQAT's School of Engineering since 2000. He obtained his degree in Physics from UQAC and a Ph.D. in Mechanical Engineering from Laval University. From 1996 to 2000, he acquired industrial experience in plastics processing at the Industrial Materials Institute (IMI) of the National Research Council of Canada (NRC). His main areas of research are development and characterization of thermoplastic materials under large deformations; multi-physical modelling in thermoforming; metaheuristic algorithms for optimization in thermoforming, and damage to thermoplastic composite. His research has generated more than 110 impacted journal articles and more than 120 presentations. He has been involved in several modelling technology development activities, in plasturgy, and its transfer to industrial partners. Hassan Khawaja Associate Professor and Research Group Leader, UiT The Arctic University of Norway, Norway. Dr. Khawaja is an Associate Professor in the Department of Automation and Process Engineering, and Research Group Leader of IR, Spectroscopy, and Numerical Modelling Research Group at UiT-The Arctic University of Norway. He is a Chartered Engineer (CEng), Professional Engineer (PE), and holds the posts of Vice President of the International Society of Multiphysics (ISoM) and Director & Chair at the Global Listening Centre (GLC). He is also Chairman of the Board and Founding Member of the start-up, 'Windtech AS'. Dr. Khawaja was the recipient of the Multiphysics Student Award back in 2009. He studied for his Doctorate at Fitzwilliam College, University of Cambridge, United Kingdom, with the thesis title: "CFD-DEM Simulations of Two-Phase Flow in Fluidised Beds�, which he defended in December 2012. He worked as a Post Doctorate on project title: "Multiphysics Investigation of Composite Shell Structures Subjected to Water Shock Wave Impact in Petroleum Industry�, funded by the Research Council of Norway (NFR) PETROMAKS with Professor Moatamedi and Professor Souli. He has collaborated with scientists/researchers in over 20 higher education institutions in a range of countries, including China, Ethiopia, France, Pakistan, Poland and Sweden. He has published 70+ publications in the form of patents, books, journal articles, conference proceedings, and given 100+ conferences/seminars/keynote/plenary/invited talks lectures/presentations. He is also the recipient of distinguished prizes such as the W F Reddaway Prize, Commonwealth Scholarship, and President Gold Medal. Mojtaba Moatamedi Full Professor/Executive Director
New York University
UK. Professor Moatamedi is President of The International Society of Multiphysics, as well as an Executive Director for New York University London. Prior to this, he was a President for Al Ghurair University, and has held senior managerial positions at Imperial College London, Narvik University College, Cranfield University, The University of Salford and The University of Sheffield. He is Editor-in-Chief of 'The International Journal of Multiphysics' and Chairman for the associated conferences. He is a Fellow of the Institution of Mechanical Engineering, a Fellow of the Royal Aeronautical Society (RAeS), a Fellow of The Nuclear Institute (NI) and a Member of the American Society of Mechanical Engineers (ASME), and a Charted Engineer. He served as the Chairman of the Manchester Branch of the Royal Aeronautical Society and he has been a member of several national and international scientific committees, and advisor to some industrial and governmental bodies including the Office for Nuclear Regulations (ONR), in addition to being the lead person to devise the Multiphysics competence standards for the European Union. He is currently a member of the Council and the Board of Directors of NAFEMS. Hamid Kaddami Professor, IMED-Lab, Faculty of Sciences and Technologies, Cadi Ayyad University, Marrakech. Professor Hamid Kaddami received his PhD from INSA Lyon, France, in 1995. After his post-doctoral position in Germany (Scholarship from INM-Saarbrucken) from 1995 to 1996, he joined Cadi Ayyad University of Marrakech in November 1996. He was appointed Full Professor at the same university in July 2003. Professor Kaddami has had many national and international distinctions, including Yamada Foundation Grant for Visiting Professor in 2004, Fullbright Grant for Visiting Professor in 2013, R&D prize from the InnovAct competition (Morocco Research Association.) The research activities of Professor Kaddami include the valorization of natural resources by integrating them into the development of functional biomaterials; nanocelluloses; biocomposites; bioaerogels, and biopolymers electrolytes. This research has been supported by many national and international agencies, as well as industrials contracts. Professor Kaddami has supervised and co-supervised more than 20 PhD and post-doctoral students and published more than 100 research journal papers. In collaboration with other colleagues from worldwide universities, he set up the international conference ICBMC (International Conference on Bio-Based Materials and Composites). This conference reached its fifth edition in 2019. He also edited many special issues in scientific journals. Professor Kaddami is also appointed as Assistant Editor of Industrial Crops and Products Journal (Elsevier).