The book also covers the applications of these materials in industries such as automotive, aviation, aerospace, and construction, making it a key reference for professionals involved in high-temperature polymeric materials.
Table of Contents
PART 1: PREPARATION AND PROPERTIES OF HIGH TEMPERATURE POLYMERS1. High-temperature polymers: an introduction in the context of engineering
2. High-temperature polymers: methodology and factors affecting development
3. High-temperature polymers: synthesis and characterization
4. Nanocomposite-based high temperature polymers
5. Polymer blends-based high temperature composite materials
6. Fiber reinforced high temperature composite materials
7. Hybrid polymer based high temperature composite materials
8. Bio-polymer composites for high temperature applications
9. Development of high temperature polymers via 3D printing approach: properties and limitation.
PART 2 : MATERIAL MODELLING
10. Behavioral modelling of polymer composites at elevated temperature
11. Computational modelling of aging effects of high temperature composite materials
12. Numerical modelling and simulation of polymer failure at elevated temperature
PART 3 : APPLICATION
13. Application of high temperature polymers in the automotive industry
14. Application of high temperature polymers in the aviation industry
15. Application of high temperature polymers in aerospace applications
16. Application of high temperature polymers in building and construction
17. Application of high temperature bio-polymers in building and construction
Authors
Emmanuel Rotimi Sadiku Professor, Tshwane University of Technology, South Africa. Prof. Emmanuel Rotimi Sadiku is an Emeritus Professor at Tshwane University of Technology, Pretoria, South Africa. He completed his BSc (Hons.) and PhD in Polymer Science at the University of Strathclyde, UK. His academic career spans several decades, including postdoctoral research in Italy and Sweden, and academic appointments in Nigeria and South Africa. Prof. Sadiku's research focuses on polymer physics, with particular expertise in X-ray diffraction, microscopy techniques, rheology, and viscoelasticity of polymers. He has held research scientist positions and contributed extensively to polymer science education and mentorship, supervising numerous doctoral and master's students. His work bridges fundamental polymer physics with applied materials engineering, emphasizing the development and characterization of advanced polymer systems. Prof. Sadiku's career demonstrates a dedication to advancing polymer science through research, teaching, and international collaboration. Idowu David Ibrahim Lecturer and Researcher, Tshwane University of Technology, South Africa.Dr. Ibrahim holds a dual doctoral degree from Tshwane University of Technology in South Africa, and Universit� Paris-Saclay in France. His primary research focus lies in the fields of fibers, polymers, and nanoparticles, aimed at crafting environmentally sustainable and high-strength nanocomposites.
Furthermore, Dr. Ibrahim has presented his research findings at twelve international conferences and is an esteemed member of several professional organizations, including the South African Institution for Mechanical Engineering (SAIMechE), International Association of Advanced Materials (IAAM), Institute of Public Management (IPM), and Onshore Offshore Oil and Gas Professionals (O3GP).
Williams Kehinde Kupolati Professor, Tshwane University of Technology, South Africa.Prof. Kupolati holds a PhD in Civil Engineering from the University of Ibadan, Nigeria, and he obtained both a B.Sc. (Honours) degree in Civil Engineering and an M.Sc. degree in Construction Management from the University of Lagos, Nigeria. He joined the lecturing staff of the Department of Civil Engineering after accumulating thirteen years of professional experience working in various significant areas of civil engineering practice. Currently, he serves as an Associate Professor in the Department of Civil Engineering at Tshwane University of Technology, South Africa.
Prof. Kupolati's research focuses on utilizing waste, pozzolans, nanomaterials, and smart materials for Civil Engineering applications. This research extends to various aspects, including asphalt, concrete, rail systems, and building construction, with a particular emphasis on promoting green infrastructure. Stephen Chinenyeze Agwuncha Fulbright research scholar, North Carolina State University, USA. Dr. Chinenyeze is a Fulbright research scholar, currently with the Department of Forest Biomaterials, North Carolina State University, USA. He is a member of notable professional bodies including Royal Society of Chemistry, Polymer Institute of Nigeria, Chemical Society of Nigeria, South Africa Chemical Institute. His areas of research include fibers isolation, characterization and recycling, polymers, nanotechnology, composites, and renewable energy.
