Radiation processing of polymer materials and its industrial applications by Keizou Makuuchi Download PDF EPUB FB2
Up-to-date, comprehensive coverage on radiation-processed polymer materials and their applications. Offering a unique perspective of the industrial and commercial applications of the radiation processing of polymers, this insightful reference examines the fundamental scientific principles and cutting-edge developments advancing this diverse field.
Radiation processing of polymer materials and its industrial applications / Keizo Makuuchi, Song Cheng. Includes bibliographical references. ISBN (cloth) 1. Polymers–Effect of radiation on. Radiation chemistry–Industrial applications. Cheng, Song. Title. QDR3M35 ’–dc23 Up-to-date, comprehensive coverage on radiation-processedpolymer materials and their applications.
Offering a unique perspective of the industrial and commercialapplications of the radiation processing of polymers, thisinsightful reference examines the fundamental scientific principlesand cutting-edge developments advancing this diverse by: By Edgar Wallace - radiation processing of polymer materials and its industrial applications keizo makuuchi song cheng p cm includes bibliographical references isbn 0 0 cloth 1 polymers effect of radiation on 2 radiation chemistry industrial applications i cheng song ii title.
Radiation Processing Of Polymer Materials And Its Industrial Applications skillfully as treaty can be gotten by just checking out a ebook radiation processing of polymer materials and its industrial applications along with it is not directly done, you could understand even more roughly this life, roughly speaking the world.
We present you this. Radiation processing can significantly improve important properties of polymers, however, there are still misconceptions about processing polymers by using ionizing radiation. This book explains the radiation processing of polymeric materials used in many industrial products including cars, airplanes, computers, and TVs.
Through a variety of case studies, detailed examples, and economic feasibility analysis, Radiation Processing of Polymer Materials and Its Industrial Applications systematically explains the commercially viable ways to process and use radiation-processed polymeric materials in industrial.
There is no specific restriction in the available polymeric materials and the modification simultaneously induced in the whole material. This chapter elucidates three major techniques of the graft polymerization, the crosslinking, and the degradation as the radiation processing of polymer and practical applications of the modified polymers.
This chapter deals with the basic principles of radiation processing, types of radiation used, radiation chemistry, comparison of chemical processing and radiation processing, and the industrial applications of gamma rays and electron beams in the modification and enhancement of polymer properties.
In many industrial applications radiation processing has proven to be a technology of choice either because of its economic competitiveness or its technical superiority.
Although the chemical effects of ionizing radiation have been known for more than a century, its industrial applications. Radiation processing of polymer materials and its industrial applications book His team focuses on radiation chemical reactions and radiation modification of polymer materials, as well as radiation processing.
He has been working on radiation modification of polymers for many years and accumulated a lot of experience in radiation research and its industrial applications. ISBN: OCLC Number: Description: xxviii, pages: illustrations ; 25 cm: Contents: Preface xiii Abbreviations xxiii 1 Basic Concepts of Radiation Processing 1 Radiation Sources 1 Radiation Chemistry of Polymers 15 Advantages and Disadvantages of Radiation Processing 19 Engineering of Radiation Processing 20 2 Fundamentals of Radiation.
Up-to-date, comprehensive coverage on radiation-processed polymer materials and their applications Offering a unique perspective of the industrial and commercial applications of the radiation processing of polymers, this insightful reference examines the fundamental scientific principles and cutting-edge developments advancing this diverse field.
Through a variety of case studies, detailed. Up-to-date, comprehensive coverage on radiation-processedpolymer materials and their applications Offering a unique perspective of the industrial and commercialapplications of the radiation processing of polymers, thisinsightful reference examines the fundamental scientific principlesand cutting-edge developments advancing this diverse field.
Radiation Processing of Polymers for Medical and Pharmaceutical Applications Article (PDF Available) in Macromolecular Symposia (1) July with Reads How we measure 'reads'. This book contains nine chapters covering advanced processing applications and technologies.
Show less This volume covers advanced polymer processing operations and is designed to provide a description of some of the latest industry developments for unique products and fabrication methods.
Polymers, an international, peer-reviewed Open Access journal. Dear Colleagues, We are very fortunate to have the opportunity to edit a Special Issue named “Radiation Polymers” for publication in hope to bring an inspiring view on current trends and research focus on the radiation effect and radiation technology in the polymer sciences through this Special Issue.
performances of polymer materials. It can also interest researchers working on topics in relation with radiation chemistry, radical-based polymerization, raft-polymerization and functionalization.
Welcome coffee Introduction of the program / planning Sophie ROUIF, IONISOS Group, Research and Development Expert Radiation processing is widely employed in plastics engineering to enhance the physical properties of polymers, such as chemical resistance, surface properties, mechanical and thermal properties, particle size reduction, melt properties, material compatibility, fire retardation, etc.
Drobny introduces readers to the science of ionizing radiation and its effects on polymers, and explores the. ionizing radiation. This subject area is of widespread importance to industrial use of radiation for two classes of applications: 1) the processing and production of polymeric materials by means of irradiation facilities, and 2) the use of polymeric materials in applications for which they must.
This practical book sets the standard as a valuable, time-saving resource offering systematic fundamental information about industrial radiation technologies.
This new edition explores updates to emerging applications of ultraviolet (UV) and electron beam (EB) radiation to polymer processing and offers updates throughout to detail changes changes, new trends, and general issues in radiation.
Applications for radiation processing of materials. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, DOI: /SX(03) Ajit Singh, Kamarudin Bahari.
Use of High-Energy Radiation in Polymer Blends Technology. , DOI: /_ Get this from a library. Radiation processing of polymer materials and its industrial applications.
[Keizou Makuuchi; Song Cheng] -- This text examines the effect of radiation on polymers and the versatility of its industrial applications. By helping readers understand and solve problems associated with radiation processing of.
Polymer composites with high Z (atomic number) fillers can replace toxic lead in ionising radiation shielding applications because of their unique properties; being lightweight, cost-effective. Drobny introduces readers to the science of ionizing radiation and its effects on polymers, and explores the technologies available and their current and emerging applications.
The resulting book is a valuable guide for a wide range of plastics engineers employing ionizing radiation for polymer treatment in a range of sectors including. Introduction Laser materials processing is done on various materials such as metals, non metals, ceramics, polymer materials.
CO2 and Nd:YAG lasers are known as industrial lasers which are widely used in industries. Laser processing is used in various industry such as mechanical industry, electronic industry also used in chemical processes.
This book updates changes, trends, and general issues in radiation technology. It presents vital, cutting-edge information to aid further reduction of volatile organic compounds and toxic substances in the environment, develop alternative sources of energy, and harness energy in both medical and industrial applications.
Radiation Processing Technology Support radiation technology development and technology transfer for: addressing demographic challenges (aging population – health care needs) environmental challenges (climate change, water scarcity, pollution, food productivity and security) a safer and cleaner industrial.
Polymer materials in industrial applications - Testing, Service life Plastics and rubbers are widely used in industrial applications. This can be as piping systems for chemicals, transport hoses, conveyor belts, tanks, membranes and a large number of other products.
One of the first industrial applications of microwave radiation for the processing of polymeric materials was the vulcanization of rubber in the tire industry during the s, with commercial application beginning late in that decade (Chabinsky, a, b; Schwartz et al., ). Radiation Processing: The Industrial Applications of Radiation Chemistry Joseph Silverman Institute for Physical Science and Technology, University of Maryland, College Park, MD Although unknown to most of the scientific community, and even more unknown to the lay public, the industrial applica- tions of radiation chemistry have already had a profound and widespread impact on the way .Annual Book of ASTM Standards () Standard practice for rubber—materials, equipment, and procedures for mixing standard compounds and preparing standard vulcanized sheets.
vol.(ASTM D) Google Scholar.Thus, all manuscripts reporting original research, short communications, state-of-the art reviews, and perspectives on the latest development in polymer-based materials for microfluidic applications are welcome.
We look forward to receiving contributions in such interesting and needed advancing topics. Dr. Vanessa F. Cardoso.