Advanced Radiation Shielding Materials: Radiation and Radiological Protection

Advanced Radiation Shielding Materials: Radiation and Radiological Protection provides an in-depth evaluation of the different types of radiation (x-rays, gamma rays, neutron, UV and EMI) and the development of radiation shielding materials that can be exploited for designing and use in multiple applications. This book also presents a review of the process parameters necessary to develop radiation shielding materials which will assist in the ongoing research to optimize and enhance processes such as the use of 3D orienting, CVD to create efficient radiation shielding material. This book plays a pivotal role and opens new avenues for research and development globally by providing an understanding of the mechanisms of radiation shielding and bringing these concepts to application using different materials. Comprehensive information to develop and characterize developed advanced radiation shielding material using current state-of-the-art technologies Analysis and comparison of experimental data on the physical parameters of the developed advanced radiation shielding material Knowledge generation and dissemination in radiation and radiation shielding materials in various applications of advanced radiation shielding material in a broad array of fields including space, healthcare, nuclear power plants, food technology etc Discusses environmental, ethical, and medical guidelines that are related to the use of advanced radiation shielding materials INDICE: Part 1: General Introduction: Background 1.0 Introduction to radiations 1.1 Sources and significance of radiations 1.2 Types of radiations 1.3 Radiation Shielding and its mechanism 1.4 Different types of materials used in radiation shielding 1.5 Conventional method of preparing shielding materials and recent trends like the use of 3 D printing, CVD etc. 1.6 Conclusions Part 2: X-ray radiation shielding material 2.1: General Introduction: X-ray 2.2 Design and development of x-ray radiation shielding materials 2.4 Characterization of x-ray radiation shielding materials 2.3 Challenges and future prospects 2.5. Conclusions Part 3: Gamma rays radiation shielding material 3.1: General Introduction: Background of gamma rays 3.2 Design and development of gamma-ray radiation shielding materials 3.3 Characterization of gamma-ray radiation shielding materials 3.4 Challenges and future prospects 3.5. Conclusions Part 4: Neutron radiation shielding material 4.1: General Introduction: Background of Neutrons 4.2 Design and development of neutron radiation shielding materials 4.3 Characterization of neutron radiation shielding materials 4.4 Challenges and future prospects 4.5. Conclusions Part 5 :Electromagnetic (EM radiation) interference shielding material 5.1: General Introduction: Background of Electromagnetic (EM radiation) interference shielding 5.2 Design and development of Electromagnetic (EM radiation) interference shielding materials 5.3 Characterization of Electromagnetic (EM radiation) interference shielding materials 5.4 Challenges and future prospects 5.5. Conclusions Part 6: UV radiation shielding material 6.1: General Introduction: Background of UV radiation shielding material 6.2 Design and development of UV radiation shielding material 6.3 Characterization of UV radiation shielding material 6.3 Challenges and future prospects 6.4. Conclusions Part 7:Importance of Radiations and radiation shielding materials in various applications 7.1: General Introduction: Background 1-Space radiation protection 2-Health care applications 3-Nuclear power plant 4-Electrical & Electronic market 5-Food Technology

• ISBN: 978-0-323-95387-0
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 650
• Fecha Publicación: 01/06/2023
• Nº Volúmenes: 1
• Idioma: Inglés