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Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation

Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation

Assia Mabrouk (Ibn Zohr University, Morocco), Ahmed Bachar (Ibn Zohr University, Morocco), Seitkhan Azat (Satbayev University, Kazakhstan), and Rachid Amrousse (University of Chouaib Doukkali, Morocco)
Release Date: November, 2024|Copyright: © 2025 |Pages: 508
DOI: 10.4018/979-8-3693-7505-1
ISBN13: 9798369375051|ISBN13 Softcover: 9798369375068|EISBN13: 9798369375075
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Description & Coverage
Description:

The exploration of innovative materials for industrial applications advance technology and engineering while driving improvements across various sectors. This process involves the synthesis of new materials with enhanced properties, followed by characterization and evaluation to ensure their suitability for industrial uses. Techniques like nanotechnology, biomaterials development, and composites engineering are paving the way for materials that are stronger, lighter, and more sustainable. By focusing on the lifecycle of these materials, from creation to performance in real-world applications, researchers and industries can address challenges like resource scarcity and environmental impact while fostering innovation to support economic growth and technological progress.

Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation explores cutting-edge materials and their potential applications in various industrial sectors. It examines advancements in materials science, novel fabrication techniques, and successful implementation in real-world industrial settings. This book covers topics such as material science, nuclear waste, and water treatment, and is a useful resource for engineers, scientists, business owners, medical professionals, academicians, and researchers.

Coverage:

The many academic areas covered in this publication include, but are not limited to:

  • Biomedicine
  • Ceramic Materials
  • Electrochemistry
  • Energy Storage
  • Glass Materials
  • Hydrogen Production
  • Material Science
  • Mechanical Engineering
  • Metal Corrosion
  • Nuclear Waste
  • Water Filtration and Purification
  • Water Treatment
Reviews & Statements

Innovative Materials for Industrial Applications distinguishes itself by emphasizing cutting-edge methodologies and addressing emerging, underexplored Physical Sciences and Engineering areas. Showcasing novel materials and applications with high industrial relevance bridges the gap between theoretical research and practical solutions. Its forward-looking approach aligns with the concept of "Publishing Tomorrow's Research Today," fostering interdisciplinary collaboration and providing insights into transformative technologies that anticipate future scientific and industrial needs. This makes it a unique and pioneering scholarly work.

– Rachid Amrousse
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Editor/Author Biographies
Assia Mabrouk , PhD, is a luminary in the realm of materials physics, heralding from a distinguished academic background and a profound commitment to scientific inquiry. Her journey began with a steadfast pursuit of knowledge culminating in a Ph.D. in Materials Physics from the esteemed University of Orléans, France, in 2017. Following the completion of her doctoral studies, Assia embarked on a transformative journey at CEA Cadarache in France, where she honed her expertise in a cutting-edge project focused on the development of a potentiometric probe to measure oxygen in sodium. Her tenure at CEA Cadarache, spanning until 2019, was marked by a relentless pursuit of excellence and a deep-seated passion for pushing the boundaries of scientific innovation. Currently serving as a professor at Ibnou Zohr University in Morocco, Assia Mabrouk continues to leave an indelible mark on the landscape of materials science. Her primary research interests lie in the synthesis, structural characterization, and mechanical properties of glasses and ceramics, areas that hold immense promise for technological advancement and industrial applications. As a scholar, Assia's work represents the intersection of rigorous scientific inquiry and real-world impact. Through her groundbreaking research, she seeks to unravel the mysteries of material behavior and unlock the potential for transformative technological solutions. Her contributions not only advance our understanding of fundamental scientific principles but also hold the key to addressing pressing societal challenges. Beyond her remarkable achievements in academia, Assia Mabrouk is a beacon of inspiration for aspiring scientists and researchers, embodying the values of intellectual curiosity, perseverance, and innovation. Her unwavering commitment to pushing the boundaries of knowledge serves as a guiding light for future generations, inspiring them to dream big and pursue their passions with unwavering determination. In the ever-evolving landscape of materials science, Assia Mabrouk stands as a testament to the power of intellect, dedication, and the unyielding pursuit of excellence. Her journey serves as a reminder that through curiosity and perseverance, we have the ability to unlock the secrets of the universe and shape the course of human progress.
Ahmed Bachar 's academic journey is marked by a profound dedication to the field of Materials Science. Graduating with distinction, he earned his professional master’s degree in Materials Engineering from the esteemed University of Valenciennes in France in 2012. Fuelled by a passion for deeper understanding, Ahmed pursued further academic heights, culminating in the completion of his doctorate in Materials Science from the same institution. Since 2016, Ahmed has served as an esteemed accredited professor at Ibn Zohr University in Morocco, where he has imparted his wealth of knowledge and expertise to countless eager minds. His tenure at the university has been marked by a commitment to excellence in education, nurturing the next generation of aspiring scientists and engineers. At the core of Ahmed's scholarly pursuits lies a fascination with the synthesis, physicochemical properties, and intricate property-structure relationships inherent in ceramics and glassy compounds. His research endeavors delve into the fundamental principles governing these materials, seeking to unlock their full potential and push the boundaries of scientific understanding. Ahmed BACHAR's contributions to the field stand as a testament to his unwavering dedication and intellectual curiosity, enriching the academic landscape and paving the way for groundbreaking advancements in Materials Science.
Seitkhan Azat , PhD, Associate Professor, stands as a towering figure in the realm of materials science, chemistry, and nanotechnology. As the Head of the Laboratory of Engineering Profile at Satbayev University, his influence extends far beyond the confines of academia, shaping the forefront of research and innovation in multiple industries.
Rachid Amrousse completed his high school education in experimental sciences in 2002 and obtained his Bachelor's degree in 2006 from El Jadida University. He then pursued his studies at the University of Poitiers in France, where he earned his Master's degree in 2007. In 2010, Prof. Rachid obtained his PhD degree from the University of Poitiers, collaborating with both the French space agency (CNES) and the Air Liquide Society. His doctoral research was centered on the topic of “The ignition of cold hydrogen-oxygen mixtures for satellite control reactions.” Following his PhD, in 2011, he became a Research Associate at the Japan Aerospace Exploration Agency (JAXA), becoming the first foreign national to be recruited by JAXA. His research focuses on the development of high-energy materials and the exploration of catalysis as applied to space propulsion, encompassing areas such as thermal decomposition, combustion mechanisms, characterization, and stability. In 2016, Prof. Rachid secured a competitive grant from the Japan Society for the Promotion of Science (JSPS) for a two-year project aimed at developing green propellant thrusters for reaction control systems, particularly for small satellites. During the same year, he also joined the University of Chouaib Doukkali (UCD) in El Jadida, Morocco, where he eventually attained the position of Associate Professor in 2020. Throughout his career, Prof. Rachid has received numerous allowances and awards for his research endeavors. These accolades include the Poitou-Charentes Region's Allowance for his Master's degree, CNES's allowance for his PhD degree, recognition from the European Green Aerospace Propellant (GRASP) Project, acknowledgments from JAXA, and support from JSPS. He has authored over 50 peer-reviewed papers and proceedings and has delivered more than 80 presentations, including oral presentations, keynote speeches, and plenary lectures, all revolving around propellant-related topics. He is an active member of the Japan Explosives Society. Prof. Rachid is also an avid contributor to academic journals, reviewing more than 10 papers annually for various journals related to catalysis and propulsion. His achievements have been recognized with awards for best presentations, but perhaps most notably, he was awarded the National Medal of Merit by King Mohammed VI of Morocco in 2016.
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