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Nanocomposites (both heterogeneous and anisotropic) are hard to machine due to their enhanced properties and there is a need to know about the problems associated with the machining of nanocomposites by various conventional as well as non-conventional machining operations. Machining of nanocomposites emphasizes on different fabrication methods to develop nanocomposites (polymers, metals, and ceramics) and different machining processes used in industries. Further, it describes issues and challenges including research trends associated with the same. It also evaluates mechanical and wear properties of the composites as well. Features: Covers manufacturing process of nanocomposites. Includes conventional and non-conventional machining process and relevant applications. Addresses effect of different nano-reinforcements on machinability. Discusses usage of design of experiments and optimization technique to improve the machinability of nanocomposites. Reviews challenges on machining of nanocomposites and its remedies. This book aims at Researchers, Graduate students in Mechanical Engineering, and Materials Sciences including Composites, Nanotechnology, and Machining.
This book covers a wide range of conventional and non-conventional machining processes of various composite materials, including polymer and metallic-based composites, nanostructured composites and green/natural composites. It presents state-of-the-art academic work and industrial developments in material fabrication, machining, modelling and applications, together with current practices and requirements for producing high-quality composite components. There are also dedicated chapters on physical properties and fabrication techniques of different composite material groups. The book also has chapters on health and safety considerations when machining composite materials and recycling composite materials. The contributors present machining composite materials in terms of operating conditions; cutting tools; appropriate machines; and typical damage patterns following machining operations. This book serves as a useful reference for manufacturing engineers, production supervisors, tooling engineers, planning and application engineers, and machine tool designers. It can also benefit final-year undergraduate and postgraduate students, as it provides comprehensive information on the machining of composite materials to produce high-quality final components. The book chapters were authored by experienced academics and researchers from four continents and nine countries including Canada, China, Egypt, India, Malaysia, Portugal, Singapore, United Kingdom and the USA.
Nanomaterials and Nanocomposites: Characterization, Processing, and Applications discusses the most recent research in nanomaterials and nanocomposites for a range of applications as well as modern characterization tools and techniques. It deals with nanocomposites that are dispersed with nanosized particulates and carbon nanotubes in their matrices (polymer, metal, and ceramic). In addition, the work: Describes different nanomaterials, such as metal and metal oxides, clay and POSS, carbon nanotubes, cellulose, and biobased polymers in a structured manner Examines the processing of carbon nanotube-based nanocomposites, layered double hydroxides, and cellulose nanoparticles as functional fillers and reinforcement materials Covers size effect on thermal, mechanical, optical, magnetic, and electrical properties Details machining and joining aspects of nanocomposites Discusses the development of smart nanotextiles (intelligent textiles), self-cleaning glass, sensors, actuators, ferrofluids, and wear-resistant nanocoatings. This book enables an efficient comparison of properties and capabilities of these advanced materials, making it relevant for materials scientists and chemical engineers conducting academic research and industrial R&D into nanomaterial processing and applications.
Additive Manufacturing of Biopolymers: Materials, Printing Techniques, and Applications describes various biopolymers that are currently used in additive manufacturing technologies and identifies the challenges/limitations in the materials and printing processes. The book provides basic knowledge and advanced details about 3D printing techniques and the applicable biopolymers as well as the latest updates on materials and techniques for 3D printing of biopolymers. Each chapter dedicates a section to future trends and perspectives in additive manufacturing of biopolymers from the use of biopolymers and new techniques point-of-view. - Provides an overview of biopolymer materials in terms of physicochemical properties that can be applied for the additive manufacturing process - Gives a comprehensive overview of applicable 3D printing techniques for biopolymers and their benefits and challenges - Explains in-depth chemical and physical properties of fabricated products for various applications - Offers a future vision in the development of both material and printing techniques in regard to biopolymers as well as new aspects in modeling and artificial intelligence issues
This book is a printed edition of the Special Issue "Manufacturing, Characterisation and Properties of Advanced Nanocomposites" that was published in J. Compos. Sci.
During the past few years, scientists have achieved significant successes in nanoscience and technology. Nanotechnology is a branch of science that deals with fine structures and materials with very small dimensions - less than 100 nm. The composite science and technology have also benefits from nanotechnology. This book collects new developments about diamond and carbon composites and nanocomposites and their use in manufacturing technology.
Polymer Nanocomposites: Fabrication to Applications offers readers an up-to-date interpretation of various polymeric nanocomposite materials and technologies via critical reviews. It covers developments and advancements in various nanomaterials, polymeric materials, biopolymers, and processes. It initiates from nanomaterial synthesis, fabrication, and characterization to the manufacturing aspect and feasible product applications of polymer-based nanocomposites. The prime focus is on polymer matrix nanocomposites and their future trends in the engineering sector. Features: Explores synthesis, characterization, properties, fabrication/processing, and applications of polymer nanocomposite materials Elaborates on polymer manufacturing phase challenges using various control methods and statistical tools and modules Includes machining and micro (μ) machining investigation on the polymer nanocomposites Discusses modeling, simulation, and optimization of process parameters during the machining processes and applications of additive manufacturing Comprehends the significance of nanomaterials functionalizing synthetic fibrous and biocompatible composites This book is aimed at researchers and graduate students in mechanical engineering, materials science, polymers, composites, and nanomaterials.
Second International Conference on Sustainable Energy Resources, Materials and Technologies (ISERMAT 2019) Selected, peer reviewed papers from the Second International Conference on Sustainable Energy Resources, Materials and Technologies (ISERMAT 2019), March 14 -15, 2019, Chennai, India
Approx.770 pagesApprox.770 pages
The urgent need to keep pace with the accelerating globalization of manufacturing in the 21st century has produced rapid advancements in technology, research and innovation. This book presents the proceedings of the 16th International Conference on Manufacturing Research incorporating the 33nd National Conference on Manufacturing Research (ICMR 2018), held in Skövde, Sweden, in September 2018. The aim of the conference is to create a friendly and inclusive environment, bringing together researchers, academics and industrialists with practical and theoretical knowledge to share and discuss emerging trends and new challenges. The book is divided into 12 parts, covering areas such as the manufacturing process; robots; product design and development; smart manufacturing; and lean, among others. Covering both cutting-edge research and recent industrial applications, the book will appeal to all those with an interest in recent advances in manufacturing technology.