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  • Advanced Radiation Shielding Materials : Radiation and Radiological Protection
    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.The 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 and CVD to create efficient radiation shielding material. This book will play a pivotal role and opens new avenues for global research and development by providing an understanding of the mechanisms of radiation shielding and bringing these concepts to application using different materials.

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  • Radiation Damage in Materials : Helium Effects
    Radiation Damage in Materials : Helium Effects

    The complexity of radiation damage effects in materials that are used in various irradiation environments stems from the fundamental particle-solid interactions and the subsequent damage recovery dynamics after the collision cascades, which involves multiple length and time scales. Adding to this complexity are the transmuted impurities that are unavoidable from accompanying nuclear processes. Helium is one such impurity that plays an important and unique role in controlling the microstructure and properties of materials used in fast fission reactors, plasma-facing and structural materials in fusion devices, spallation neutron target designs, actinides, tritium-containing materials, and nuclear waste. Their ultra-low solubility in virtually all solids forces He atoms to self-precipitate into small bubbles that become nucleation sites for further void growth under radiation-induced vacancy supersaturations, resulting in material swelling and high-temperature He embrittlement, as well as surface blistering under low-energy and high-flux He bombardment. This Special Issue, "Radiation Damage in Materials-Helium Effects", contains review articles and full-length papers on new irradiation material research activities and novel material ideas using experimental and/or modeling approaches. These studies elucidate the interactions of helium with various extreme environments and tailored nanostructures, as well as their impact on microstructural evolution and material properties.

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  • Atoms, Radiation, and Radiation Protection
    Atoms, Radiation, and Radiation Protection

    Atoms, Radiation, and Radiation Protection Discover the keys to radiation protection in the fourth edition of this best-selling textbook A variety of atomic and sub-atomic processes, including alpha, beta, and gamma decay or electron ejection from inner atom shells, can produce ionizing radiation.This radiation can in turn produce environmental and biological effects both harmful – including DNA damage and other impacts of so-called ‘radiation sickness’ – and helpful, including radiation treatment for cancerous tumors.Understanding the processes that generate radiation and the steps which can be taken to mitigate or direct its effects is therefore critical in a wide range of industries and medical subfields. For decades, Atoms, Radiation, and Radiation Protection has served as the classic reference work on the subject of ionizing radiation and its safeguards.Beginning with a presentation of fundamental atomic structure and the physical mechanisms which produce radiation, the book also includes thorough discussion of how radiation can be detected and measured, as well as guide-lines for interpreting radiation statistics and detailed analysis of protective measures, both individual and environmental.Now updated by a new generation of leading scholars and researchers, Atoms, Radiation, and Radiation Protection will continue to serve global scientific and industrial research communities. Readers of the fourth edition of Atoms, Radiation, and Radiation Protection will also find: Detailed updates of existing material, including the latest recommendations of the ICRP and NCRPTreatment of current physiokinetic and dosimetric modelsAll statistics now presented in SI units, making the book more globally accessible Atoms, Radiation, and Radiation Protection is a foundational guide for graduate students and researchers in health physics and nuclear physics, as well as related industries.

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  • Fundamentals of Radiation Materials Science : Metals and Alloys
    Fundamentals of Radiation Materials Science : Metals and Alloys

    The revised second edition of this established text offers readers a significantly expanded introduction to the effects of radiation on metals and alloys. It describes the various processes that occur when energetic particles strike a solid, inducing changes to the physical and mechanical properties of the material. Specifically it covers particle interaction with the metals and alloys used in nuclear reactor cores and hence subject to intense radiation fields.It describes the basics of particle-atom interaction for a range of particle types, the amount and spatial extent of the resulting radiation damage, the physical effects of irradiation and the changes in mechanical behavior of irradiated metals and alloys. Updated throughout, some major enhancements for the new edition include improved treatment of low- and intermediate-energy elastic collisions and stopping power, expanded sections on molecular dynamics and kinetic Monte Carlo methodologies describing collision cascade evolution, new treatment of the multi-frequency model of diffusion, numerous examples of RIS in austenitic and ferritic-martensitic alloys, expanded treatment of in-cascade defect clustering, cluster evolution, and cluster mobility, new discussion of void behavior near grain boundaries, a new section on ion beam assisted deposition, and reorganization of hardening, creep and fracture of irradiated materials (Chaps 12-14) to provide a smoother and more integrated transition between the topics. The book also contains two new chapters. Chapter 15 focuses on the fundamentals of corrosion and stress corrosion cracking, covering forms of corrosion, corrosion thermodynamics, corrosion kinetics, polarization theory, passivity, crevice corrosion, and stress corrosion cracking. Chapter 16 extends this treatment and considers the effects of irradiation on corrosion and environmentally assisted corrosion, including the effects of irradiation on water chemistry and the mechanisms of irradiation-induced stress corrosion cracking.The book maintains the previous style, concepts are developed systematically and quantitatively, supported by worked examples, references for further reading and end-of-chapter problem sets.Aimed primarily at students of materials sciences and nuclear engineering, the book will also provide a valuable resource for academic and industrial research professionals. Reviews of the first edition:"…nomenclature, problems and separate bibliography at the end of each chapter allow to the reader to reach a straightforward understanding of the subject, part by part. … this book is very pleasant to read, well documented and can be seen as a very good introduction to the effects of irradiation on matter, or as a good references compilation for experimented readers." - Pauly Nicolas, Physicalia Magazine, Vol. 30 (1), 2008“The text provides enough fundamental material to explain the science and theory behind radiation effects in solids, but is also written at a high enough level to be useful for professional scientists.Its organization suits a graduate level materials or nuclear science course… the text was written by a noted expert and active researcher in the field of radiation effects in metals, the selection and organization of the material is excellent… may well become a necessary reference for graduate students and researchers in radiation materials science.” - L.M.Dougherty, 07/11/2008, JOM, the Member Journal of The Minerals, Metals and Materials Society.

    Price: 109.99 £ | Shipping*: 0.00 £
  • What tools, materials, and equipment do teachers work with?

    Teachers work with a variety of tools, materials, and equipment in their daily work. Some common tools include whiteboards, markers, and projectors for delivering lessons. Materials such as textbooks, worksheets, and manipulatives are used to support student learning. Equipment like computers, printers, and audio-visual devices are also essential for creating engaging lessons and activities. Overall, teachers rely on a combination of traditional and modern tools to effectively educate their students.

  • With which work tools, materials, and equipment do teachers work?

    Teachers work with a variety of tools, materials, and equipment in their daily tasks. Some common tools include computers, projectors, whiteboards, and pens. Materials can range from textbooks and worksheets to art supplies and science equipment. Additionally, teachers may use equipment such as printers, laminators, and document cameras to enhance their teaching methods and create engaging learning experiences for students.

  • Is infrared radiation warmer than UV radiation?

    No, infrared radiation is not necessarily warmer than UV radiation. The warmth of radiation depends on its intensity and the source of the radiation. Infrared radiation is often associated with warmth because it is emitted by warm objects, such as the sun or a heating element. UV radiation, on the other hand, is not typically associated with warmth, but rather with its ability to cause sunburn and damage to the skin.

  • Is X-ray radiation actually radioactive radiation?

    No, X-ray radiation is not actually radioactive radiation. X-rays are a form of electromagnetic radiation, similar to visible light and radio waves, and are produced by the movement of electrons in atoms. On the other hand, radioactive radiation is emitted by the decay of unstable atomic nuclei, such as in the case of radioactive elements like uranium or radium. While both types of radiation can have harmful effects on living organisms, they are fundamentally different in their origins and properties.

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  • New Electromagnetic Radiation Detector EMF Meter Tester radiation dosimeter Ghost Hunting Equipment DT-1180 DT1180
    New Electromagnetic Radiation Detector EMF Meter Tester radiation dosimeter Ghost Hunting Equipment DT-1180 DT1180

    Level: low-frequency 5HZ-400KHZ V/m, high-frequency: 30MHz-2000MHz

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  • Radiation
    Radiation

    TRANSMIT Radiation - "Cosmic Beats for the Quirky Souls" TRANSMIT Radiation's latest album is like taking a trip through a neon-streaked galaxy with a bunch of quirky aliens who just want to vibe and have a good time. The eclectic mix of electronic beats, funky basslines, and ethereal synths creates a sound that is truly out of this world. From the opening track "Laser Disco Inferno" to the closing notes of "Interstellar Love Groove," TRANSMIT Radiation takes listeners on a sonic journey that is unpredictable, funky, and undeniably fun. Each track feels like a mini adventure, with unexpected twists and turns that keep you on your toes. The standout moment of the album has to be "Alien Funkadelic," a groovy tune that sounds like it was beamed straight from the mothership. The infectious guitar riffs and wobbly bassline will have you dancing like a Martian in no time. Overall, TRANSMIT Radiation's latest offering is a breath of fresh air in the electronic music scene. It's a reminder that music doesn't always have to take itself too seriously to be good. So, if you're looking for a cosmic escape from the mundane, look no further than this album. Just don't forget your space helmet.

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  • Advanced Nuclear Radiation Detectors : Materials, processing, properties and applications
    Advanced Nuclear Radiation Detectors : Materials, processing, properties and applications


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  • 5G EMF Protection Radiation Shield Phones Laptops EMF Radiation Protection Radiation Protection
    5G EMF Protection Radiation Shield Phones Laptops EMF Radiation Protection Radiation Protection

    5G EMF Protection Radiation Shield Phones Laptops EMF Radiation Protection Radiation Protection

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  • Does beta-plus radiation belong to ionizing radiation?

    Yes, beta-plus radiation belongs to ionizing radiation. Beta-plus radiation consists of positrons, which are positively charged particles that have the ability to ionize atoms by knocking off electrons from their orbits. This process can lead to the formation of charged particles and free radicals, which can cause damage to biological tissues and DNA. Therefore, beta-plus radiation is considered a form of ionizing radiation due to its ability to ionize atoms and cause biological damage.

  • Is mobile phone radiation alpha, beta, or gamma radiation?

    Mobile phone radiation is not classified as alpha, beta, or gamma radiation. It is a form of non-ionizing electromagnetic radiation, specifically in the radiofrequency range. This type of radiation is emitted by mobile phones and other wireless devices, and while it is not as powerful as ionizing radiation, there is ongoing research to understand its potential health effects.

  • How can one convert infrared radiation into microwave radiation?

    One way to convert infrared radiation into microwave radiation is by using a device called a rectifying antenna, also known as a rectenna. A rectenna is a combination of an antenna and a rectifier, which can convert the incoming infrared radiation into electrical energy. This electrical energy can then be used to generate microwave radiation through a microwave generator. Another method is to use a material with nonlinear properties, such as a semiconductor, to directly convert the infrared radiation into microwave radiation through a process called harmonic generation. Both of these methods can be used to efficiently convert infrared radiation into microwave radiation for various applications.

  • From which materials are atomic bomb shelters built to be radiation-proof?

    Atomic bomb shelters are typically built using materials that can provide protection from radiation, such as thick concrete or reinforced steel. These materials are chosen for their ability to absorb and block radiation, providing a barrier between the shelter's occupants and the harmful effects of nuclear fallout. Additionally, the shelters may also be equipped with air filtration systems to prevent the entry of radioactive particles. Overall, the goal is to create a structure that can effectively shield individuals from the dangers of radiation in the event of a nuclear attack.

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