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The Antistatics Database is divided into five sections: General Information, Physical Properties, Health and Safety, Ecological Properties, and Use & Performance. Information on the selected additive can be accessed by clicking on any of the above tabs. The database has 130 data fields to accommodate a variety of data available in source publications. Displayed information contains additive name and its chemical structure (if it is a single compound disclosed by the manufacturer). The data can be viewed on screen and printed in predefined format.
Handbook of Antistatics, Second Edition, is the only comprehensive handbook to cover all aspects of antistatic agents, including a complete review of existing literature and patent information on additives capable of modifying properties of materials to make them antistatic, conductive, and/or EMI shielding. Information on the use of additives in various polymers is divided into types and concentrations of antistatics used, the potential effect of antistatics on the polymer and other additives, and examples of typical formulations used for processing of polymers containing the antistatic additive. Each chapter addresses specific properties and applications of antistatic agents, including methods of quality control, compatibility of antistatic agents, and various polymer matrices (along with performance implications), incorporation methods, health and safety, and environmental implications. Includes everything engineers and materials scientists need to know about the use of antistatics in polymers, from incorporation methods, to regulations and standards Presents a combination of up-to-date properties data and authoritative analysis of materials performance Contains detailed coverage of processing methods, giving information on the amount and type of antistatics used in each processing method, along with the typical formulations used
Since the first edition of this database in 2007, many changes have occurred in the market resulting in elimination of a large number of additives and introduction of new products. These changes are recorded in the database, which contains actual range of used compounds.Over 800 antistatics are included in this database. The Database of Antistatics is divided into five sections: General Information, Physical Properties, Health and Safety, Ecological Properties, and Use & Performance. Information on the selected additive can be accessed by clicking on any of the above tabs. The database has 130 data fields to accommodate a variety of data available in source publications. Displayed information contains additive name and its chemical structure (if it is a single compound disclosed by the manufacturer). The data can be viewed on screen and printed in a predefined format. System Requirements: Pentium or later generation processor. Windows NT or later generation Windows operating system. Screen resolution of 800x600 or greater. Divided into five sections: General Information, Physical Properties, Health and Safety, Ecological Properties, and Use & Performance
The Antistatics Databook contains detailed information on over 300 frequently used antistatic additives for polymers — additives capable of modifying properties of materials so that they become antistatic, conductive or EMI shielded. The potential risks of static electricity, as well as the variety of antistatic additives available, mean that selecting the correct antistatic agent is vital. This databook is an important source of information for industry, research, and academia. Each additive is presented with data in the following categories: General Information; Physical Properties; Health and Safety; Ecological Properties; and Use and Performance. The Databook includes a large amount of data, from state, odor, and color to autoignition temperature and probability of biodegradation. Recommendations are provided for products, processing methods and dosages, and the features and benefits of each additive are assessed. Contains the most extensive data available on a large number of antistatics Features 130 data fields for each additive, divided into the following categories: General Information, Physical Properties, Health and Safety, Ecological Properties, and Use and Performance. Includes an assessment of benefits and properties of each additive, recommended dosages and processing methods.
The Antistatics Databook contains detailed information on over 300 frequently used antistatic additives for polymers - additives capable of modifying properties of materials so that they become antistatic, conductive or EMI shielded. The potential risks of static electricity, as well as the variety of antistatic additives available, mean that selecting the correct antistatic agent is vital. This databook is an important source of information for industry, research, and academia. Each additive is presented with data in the following categories: General Information; Physical Properties; Health and Safety; Ecological Properties; and Use and Performance. The Databook includes a large amount of data, from state, odor, and color to autoignition temperature and probability of biodegradation. Recommendations are provided for products, processing methods and dosages, and the features and benefits of each additive are assessed. Contains the most extensive data available on a large number of antistaticsFeatures 130 data fields for each additive, divided into the following categories: General Information, Physical Properties, Health and Safety, Ecological Properties, and Use and Performance. Includes an assessment of benefits and properties of each additive, recommended dosages and processing methods.
The two-volume set LNAI 10751 and 10752 constitutes the refereed proceedings of the 10th Asian Conference on Intelligent Information and Database Systems, ACIIDS 2018, held in Dong Hoi City, Vietnam, in March 2018. The total of 133 full papers accepted for publication in these proceedings was carefully reviewed and selected from 423 submissions. They were organized in topical sections named: Knowledge Engineering and Semantic Web; Social Networks and Recommender Systems; Text Processing and Information Retrieval; Machine Learning and Data Mining; Decision Support and Control Systems; Computer Vision Techniques; Advanced Data Mining Techniques and Applications; Multiple Model Approach to Machine Learning; Sensor Networks and Internet of Things; Intelligent Information Systems; Data Structures Modeling for Knowledge Representation; Modeling, Storing, and Querying of Graph Data; Data Science and Computational Intelligence; Design Thinking Based R&D, Development Technique, and Project Based Learning; Intelligent and Contextual Systems; Intelligent Systems and Algorithms in Information Sciences; Intelligent Applications of Internet of Thing and Data Analysis Technologies; Intelligent Systems and Methods in Biomedicine; Intelligent Biomarkers of Neurodegenerative Processes in Brain; Analysis of Image, Video and Motion Data in Life Sciences; Computational Imaging and Vision; Computer Vision and Robotics; Intelligent Computer Vision Systems and Applications; Intelligent Systems for Optimization of Logistics and Industrial Applications.
This book details the use of conducting polymers and their composites in supercapacitors, batteries, photovoltaics, and fuel cells, nearly covering the entire spectrum of energy area under one title. Conducting Polymers for Advanced Energy Applications covers a range of advanced materials based on conducting polymers, the fundamentals, and the chemistry behind these materials for energy applications. FEATURES Covers materials, chemistry, various synthesis approaches, and the properties of conducting polymers and their composites Discusses commercialization and markets and elaborates on advanced applications Presents an overview and the advantages of using conducting polymers and their composites for advanced energy applications Describes a variety of nanocomposites, including metal oxides, chalcogenides, graphene, and materials beyond graphene Offers the fundamentals of electrochemical behavior This book provides a new direction for scientists, researchers, and students in materials science and polymer chemistry who seek to better understand the chemistry behind conducting polymers and improve their performance for use in advanced energy applications.