This book presents improved numerical techniques and applied computer-aided simulations as a part of emerging trends in mechatronics in all areas related to complex fluids, with particular focus on using a combination of modeling, theory, and simulation to study systems that are complex due to the rheology of fluids (i.e., ceramic pastes, polymer solutions and melts, colloidal suspensions, emulsions, foams, micro-/nanofluids, etc.) and multiphysics phenomena in which the interactions of various effects (thermal, chemical, electric, magnetic, or mechanical) lead to complex dynamics. The areas…mehr
This book presents improved numerical techniques and applied computer-aided simulations as a part of emerging trends in mechatronics in all areas related to complex fluids, with particular focus on using a combination of modeling, theory, and simulation to study systems that are complex due to the rheology of fluids (i.e., ceramic pastes, polymer solutions and melts, colloidal suspensions, emulsions, foams, micro-/nanofluids, etc.) and multiphysics phenomena in which the interactions of various effects (thermal, chemical, electric, magnetic, or mechanical) lead to complex dynamics. The areas of applications span materials processing, manufacturing, and biology.
Dr. Aydin Azizi holds a PhD degree in Mechanical Engineering-Mechatronics, an MSc in Mechatronics and a BSc in Mechanical Engineering-Heat & Fluids. Certified as the Fellow of the Higher Education Academy (FHEA), official instructor for the Siemens Mechatronic Certification Program (SMSCP) and the editor of the book series Emerging Trends in Mechatronics publishing by Springer Nature Group, he currently serves as a Senior Lecturer at the Oxford Brookes University. His current research focuses on investigating and developing novel techniques to model, control and optimize complex systems. Dr. Azizi's areas of expertise include Control & Automation, Artificial Intelligence and Simulation Techniques. Dr. Azizi is the recipient of the National Research Award of Oman for his AI-focused research, DELL EMC's "Envision the Future" competition award in IoT for "Automated Irrigation System", and 'Exceptional Talent' recognition by the British Royal Academy of Engineering.
Inhaltsangabe
1. Modeling Hemodynamics of Rotary Blood Pumps and Predicting the Potential Risks.- 2. Microfluidic-Integrated Biosensors.- 3. Droplet Microfluidics: A Multiphase System.- 4. Subject Specific Modelling of Aortic Flows.- 5. 3D Printing of Polymer Composites.- 6. Magnetorheological Fluids.- 7. Ceramic Manufacturing for Green Energy Applications.- 8. Rheology and Cure Kinetics of Modified and Non-modified Resin Systems.
1. Modeling Hemodynamics of Rotary Blood Pumps and Predicting the Potential Risks.- 2. Microfluidic-Integrated Biosensors.- 3. Droplet Microfluidics: A Multiphase System.- 4. Subject Specific Modelling of Aortic Flows.- 5. 3D Printing of Polymer Composites.- 6. Magnetorheological Fluids.- 7. Ceramic Manufacturing for Green Energy Applications.- 8. Rheology and Cure Kinetics of Modified and Non-modified Resin Systems.
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