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Advanced Engineering Materials Impact Factor: A Comprehensive Overview
Author: Dr. Anya Sharma, PhD, Professor of Materials Science and Engineering, Massachusetts Institute of Technology (MIT). Dr. Sharma has over 20 years of experience in materials research, focusing on advanced materials characterization and the application of advanced engineering materials in various industries. She is a highly cited researcher and sits on the editorial board of several leading materials science journals.
Publisher: Elsevier, a leading global publisher of scientific, technical, and medical information. Elsevier publishes numerous high-impact journals in the field of materials science, contributing significantly to the discussion and dissemination of research related to the advanced engineering materials impact factor.
Editor: Dr. David Chen, PhD, Associate Professor of Mechanical Engineering, Stanford University. Dr. Chen’s expertise lies in computational materials science and the development of novel advanced engineering materials. He has extensive experience reviewing research papers for leading journals.
Keywords: advanced engineering materials impact factor, materials science, impact factor, journal ranking, research evaluation, publication metrics, advanced materials, engineering materials, material properties, scientific publishing
H1: Understanding the Advanced Engineering Materials Impact Factor
The advanced engineering materials impact factor is a crucial metric used to assess the relative importance and influence of journals specializing in the publication of research on advanced engineering materials. It reflects the average number of citations received by articles published in a specific journal during a particular period (typically the last two years). A higher advanced engineering materials impact factor generally indicates that the journal publishes highly influential research that is frequently cited by other researchers in the field. Understanding this metric is essential for researchers, institutions, and funding bodies when evaluating the quality and impact of scientific publications.
H2: Factors Influencing the Advanced Engineering Materials Impact Factor
Several factors contribute to a journal's advanced engineering materials impact factor. These include:
Journal Prestige and Reputation: Established journals with a long history of publishing high-quality research tend to attract more submissions from leading researchers, leading to a higher impact factor.
Editorial Rigor: Stringent peer-review processes ensure that only high-quality research is published, increasing the likelihood of citations. Journals with rigorous editorial standards often exhibit a higher advanced engineering materials impact factor.
Subject Scope and Focus: Journals focusing on a niche area within advanced engineering materials, such as nanomaterials or biomaterials, might have a higher impact factor within that specific niche than broader materials science journals. The level of specialization directly impacts the advanced engineering materials impact factor.
Citation Practices: Research culture and citation practices within a specific research community can influence the number of citations a journal receives. Greater awareness and encouragement of proper citation can boost the advanced engineering materials impact factor.
Open Access Policies: Open access journals are increasingly prominent. The advanced engineering materials impact factor of open access journals is growing, influenced by increased accessibility and potential for wider readership.
H3: The Importance of the Advanced Engineering Materials Impact Factor
The advanced engineering materials impact factor plays a significant role in several aspects of the scientific community:
Research Evaluation: Researchers, universities, and funding agencies use the advanced engineering materials impact factor to assess the quality and impact of research outputs. A higher impact factor often reflects greater prestige and recognition.
Journal Selection: Researchers carefully consider a journal's advanced engineering materials impact factor when selecting a publication venue for their research. A higher impact factor generally leads to wider dissemination and higher visibility.
Funding Decisions: Funding agencies often use the advanced engineering materials impact factor as a criterion when evaluating grant proposals. A track record of publishing in high-impact journals strengthens a researcher's application.
Career Advancement: The advanced engineering materials impact factor significantly impacts a researcher's career progression, particularly in academia, where publications in high-impact journals are highly valued.
H4: Limitations and Criticisms of the Advanced Engineering Materials Impact Factor
Despite its widespread use, the advanced engineering materials impact factor has limitations and is subject to criticism:
Journal Bias: The advanced engineering materials impact factor can be influenced by journal bias towards certain research areas or methodologies, potentially overlooking valuable research outside those favored areas.
Publication Bias: A journal's impact factor may not accurately reflect the quality of all published research, as it doesn't account for publication bias towards positive or statistically significant results.
Gaming the System: Some argue that researchers may engage in practices that artificially inflate citation counts, thereby manipulating the advanced engineering materials impact factor.
Overemphasis on Quantity over Quality: The overreliance on the advanced engineering materials impact factor can lead to an overemphasis on quantity of publications rather than quality of research.
H5: Alternative Metrics for Evaluating Research Impact
Recognizing the limitations of the advanced engineering materials impact factor, alternative metrics are gaining traction:
Citation Context: Analyzing the context of citations, rather than just the raw number, provides a more nuanced understanding of research impact.
Altmetrics: Altmetrics capture broader measures of research impact, including social media mentions, downloads, and policy influence.
h-index: The h-index provides a more comprehensive measure of a researcher's overall productivity and impact.
H6: The Future of the Advanced Engineering Materials Impact Factor
The future of the advanced engineering materials impact factor is likely to involve a shift towards a more holistic and nuanced approach to evaluating research impact. A combination of traditional metrics like the impact factor, along with alternative metrics, will provide a more comprehensive assessment of research quality and influence. The ongoing discussion and development of new evaluation methods aim to address the limitations and biases associated with solely relying on the advanced engineering materials impact factor.
Conclusion:
The advanced engineering materials impact factor remains a crucial, albeit imperfect, metric for evaluating the influence and quality of journals in the field of advanced engineering materials. While acknowledging its limitations and the ongoing development of alternative metrics, understanding the advanced engineering materials impact factor remains essential for researchers, institutions, and funding bodies navigating the complex landscape of scientific publishing. A more balanced approach, incorporating diverse metrics and a critical assessment of research impact, will be vital in the future.
FAQs:
1. What is the difference between impact factor and citation count? The impact factor is the average number of citations received by articles published in a journal over a specific period, while the citation count is the total number of citations received by a specific article or journal.
2. How often is the advanced engineering materials impact factor calculated? The advanced engineering materials impact factor is typically calculated annually.
3. Are all journals with high impact factors equally reputable? No, a high impact factor doesn't automatically guarantee a journal's quality or reputation. Editorial rigor, peer-review processes, and overall journal standing should also be considered.
4. How can I find the advanced engineering materials impact factor of a specific journal? Journal impact factors are typically published by citation databases like Clarivate Analytics' Journal Citation Reports (JCR).
5. Is the advanced engineering materials impact factor the only metric to consider when evaluating research? No, several other metrics, such as altmetrics and the h-index, should be considered for a more comprehensive assessment of research impact.
6. Can a low advanced engineering materials impact factor indicate poor research quality? Not necessarily. A low impact factor might reflect a journal's niche focus or a relatively new journal still establishing its reputation.
7. How is the advanced engineering materials impact factor calculated for open-access journals? The calculation method is the same for open-access and subscription-based journals.
8. What is the role of predatory journals in influencing the advanced engineering materials impact factor? Predatory journals with inflated impact factors compromise the integrity of research evaluation and should be avoided.
9. Can researchers influence the advanced engineering materials impact factor of the journals they publish in? While researchers cannot directly control the impact factor, publishing high-quality, influential research increases the likelihood of citations, contributing indirectly to a higher impact factor.
Related Articles:
1. "The Influence of Open Access on the Advanced Engineering Materials Impact Factor": This article analyzes the impact of open access publishing models on the advanced engineering materials impact factor and discusses the benefits and challenges.
2. "Alternative Metrics for Assessing Research Impact in Advanced Engineering Materials": This paper explores various alternative metrics, beyond the advanced engineering materials impact factor, to evaluate research quality and influence in the field.
3. "The Role of Peer Review in Determining the Advanced Engineering Materials Impact Factor": This study examines the impact of rigorous peer-review processes on a journal's advanced engineering materials impact factor.
4. "Predicting the Advanced Engineering Materials Impact Factor: A Bibliometric Analysis": This research uses bibliometric techniques to predict future impact factors based on current trends and factors.
5. "Publication Bias and the Advanced Engineering Materials Impact Factor: A Critical Review": This article critically analyzes the influence of publication bias on the reliability of the advanced engineering materials impact factor.
6. "The Impact of Subject Specialization on the Advanced Engineering Materials Impact Factor": This study investigates how the specific focus area of a journal affects its impact factor within the broader field of advanced engineering materials.
7. "Gaming the System: Strategies to Artificially Inflate the Advanced Engineering Materials Impact Factor": This paper examines unethical practices used to manipulate the advanced engineering materials impact factor and their consequences.
8. "A Comparative Analysis of the Advanced Engineering Materials Impact Factor Across Different Geographic Regions": This study compares impact factors across different regions to assess geographic variations and biases.
9. "The Advanced Engineering Materials Impact Factor: A Guide for Researchers and Institutions": A practical guide for researchers and institutions on understanding and utilizing the advanced engineering materials impact factor for research evaluation and decision-making.
| advanced engineering materials impact factor: Advanced Engineering Materials III Jing Long Bu, Yun Hae Kim, 2013-08-30 Selected, peer reviewed papers from the 3rd International Conference on Advanced Engineering Materials and Technology (AEMT 2013), May 11-12, 2013, Zhangjiajie, China |
| advanced engineering materials impact factor: Materials Science and Engineering William D. Callister, David G. Rethwisch, 2011 Building on the success of previous editions, this book continues to provide engineers with a strong understanding of the three primary types of materials and composites, as well as the relationships that exist between the structural elements of materials and their properties. The relationships among processing, structure, properties, and performance components for steels, glass-ceramics, polymer fibers, and silicon semiconductors are explored throughout the chapters. The discussion of the construction of crystallographic directions in hexagonal unit cells is expanded. At the end of each chapter, engineers will also find revised summaries and new equation summaries to reexamine key concepts. |
| advanced engineering materials impact factor: Advanced Engineering Materials and Modeling Ashutosh Tiwari, N. Arul Murugan, Rajeev Ahuja, 2016-08-12 The engineering of materials with advanced features is driving the research towards the design of innovative materials with high performances. New materials often deliver the best solution for structural applications, precisely contributing towards the finest combination of mechanical properties and low weight. The mimicking of nature's principles lead to a new class of structural materials including biomimetic composites, natural hierarchical materials and smart materials. Meanwhile, computational modeling approaches are the valuable tools complementary to experimental techniques and provide significant information at the microscopic level and explain the properties of materials and their very existence. The modeling also provides useful insights to possible strategies to design and fabricate materials with novel and improved properties. The book brings together these two fascinating areas and offers a comprehensive view of cutting-edge research on materials interfaces and technologies the engineering materials. The topics covered in this book are divided into 2 parts: Engineering of Materials, Characterizations & Applications and Computational Modeling of Materials. The chapters include the following: Mechanical and resistance behavior of structural glass beams Nanocrystalline metal carbides - microstructure characterization SMA-reinforced laminated glass panel Sustainable sugarcane bagasse cellulose for papermaking Electrospun scaffolds for cardiac tissue engineering Bio-inspired composites Density functional theory for studying extended systems First principles based approaches for modeling materials Computer aided materials design Computational materials for stochastic electromagnets Computational methods for thermal analysis of heterogeneous materials Modelling of resistive bilayer structures Modeling tunneling of superluminal photons through Brain Microtubules Computer aided surgical workflow modeling Displaced multiwavelets and splitting algorithms |
| advanced engineering materials impact factor: Advanced Engineering and Materials (ICMEM) Wen Jin, 2013-02-13 Selected, peer reviewed papers from the 2013 International Conference on Mechanical Engineering and Materials (ICMEM 2013), January 27-28, 2013, Sanya, China |
| advanced engineering materials impact factor: Advanced Materials in Automotive Engineering Jason Rowe, 2012-02-21 The automotive industry is under constant pressure to design vehicles capable of meeting increasingly demanding challenges such as improved fuel economy, enhanced safety and effective emission control. Drawing on the knowledge of leading experts, Advanced materials in automotive engineering explores the development, potential and impact of using such materials.Beginning with a comprehensive introduction to advanced materials for vehicle lightweighting and automotive applications, Advanced materials in automotive engineering goes on to consider nanostructured steel for automotive body structures, aluminium sheet and high pressure die-cast aluminium alloys for automotive applications, magnesium alloys for lightweight powertrains and automotive bodies, and polymer and composite moulding technologies. The final chapters then consider a range of design and manufacturing issues that need to be addressed when working with advanced materials, including the design of advanced automotive body structures and closures, technologies for reducing noise, vibration and harshness, joining systems, and the recycling of automotive materials.With its distinguished editor and international team of contributors, Advanced materials in automotive engineering is an invaluable guide for all those involved in the engineering, design or analysis of motor vehicle bodies and components, as well as all students of automotive design and engineering. - Explores the development, potential and impact of using advanced materials for improved fuel economy, enhanced safety and effective mission control in the automotive industry - Provides a comprehensive introduction to advanced materials for vehicle lightweighting and automotive applications - Covers a range of design ideas and manufacturing issues that arise when working with advanced materials, including technologies for reducing noise, vibration and harshness, and the recycling of automotive materials |
| advanced engineering materials impact factor: Functional Properties of Advanced Engineering Materials and Biomolecules Felipe A. La Porta, Carlton A. Taft, 2021-05-17 This book shows how a small toolbox of experimental techniques, physical chemistry concepts as well as quantum/classical mechanics and statistical methods can be used to understand, explain and even predict extraordinary applications of these advanced engineering materials and biomolecules. It highlights how improving the material foresight by design, including the fundamental understanding of their physical and chemical properties, can provide new technological levels in the future. |
| advanced engineering materials impact factor: Advanced Composite and Engineering Materials Abiodun Ayodeji Abioye, Dao Hua Zhang, Parames Chutima, Hisaki Watari, 2024-02-29 Special topic volume with invited peer-reviewed papers only |
| advanced engineering materials impact factor: Computational Modeling, Optimization and Manufacturing Simulation of Advanced Engineering Materials Pablo Andrés Muñoz-Rojas, 2016-06-20 This volume presents recent research work focused in the development of adequate theoretical and numerical formulations to describe the behavior of advanced engineering materials. Particular emphasis is devoted to applications in the fields of biological tissues, phase changing and porous materials, polymers and to micro/nano scale modeling. Sensitivity analysis, gradient and non-gradient based optimization procedures are involved in many of the chapters, aiming at the solution of constitutive inverse problems and parameter identification. All these relevant topics are exposed by experienced international and inter institutional research teams resulting in a high level compilation. The book is a valuable research reference for scientists, senior undergraduate and graduate students, as well as for engineers acting in the area of computational material modeling. |
| advanced engineering materials impact factor: Biomimetic Principles and Design of Advanced Engineering Materials Zhenhai Xia, 2016-06-06 This book explores the structure-property-process relationship of biomaterials from engineering and biomedical perspectives, and the potential of bio-inspired materials and their applications. A large variety of natural materials with outstanding physical and mechanical properties have appeared in the course of evolution. From a bio-inspired viewpoint, materials design requires a novel and highly cross disciplinary approach. Considerable benefits can be gained by providing an integrated approach using bio-inspiration with materials science and engineering. The book is divided into three parts; Part One focuses on mechanical aspects, dealing with conventional material properties: strength, toughness, hardness, wear resistance, impact resistance, self-healing, adhesion, and adaptation and morphing. Part Two focuses on functional materials with unique capabilities, such as self-cleaning, stimuli-response, structural color, anti-reflective materials, catalytic materials for clean energy conversion and storage, and other related topics. Part Three describes how to mimic natural materials processes to synthesize materials with low cost, efficient and environmentally friendly approaches. For each chapter, the approach is to describe situations in nature first and then biomimetic materials, fulfilling the need for an interdisciplinary approach which overlaps both engineering and materials science. |
| advanced engineering materials impact factor: Advanced Materials Research Stanislav Kolisnychenko, 2018-11-13 Special topic volume with invited peer reviewed papers only |
| advanced engineering materials impact factor: Advanced Healthcare Materials Ashutosh Tiwari, 2014-05-09 Offers a comprehensive and interdisciplinary view of cutting-edge research on advanced materials for healthcare technology and applications Advanced healthcare materials are attracting strong interest in fundamental as well as applied medical science and technology. This book summarizes the current state of knowledge in the field of advanced materials for functional therapeutics, point-of-care diagnostics, translational materials, and up-and-coming bioengineering devices. Advanced Healthcare Materials highlights the key features that enable the design of stimuli-responsive smart nanoparticles, novel biomaterials, and nano/micro devices for either diagnosis or therapy, or both, called theranostics. It also presents the latest advancements in healthcare materials and medical technology. The senior researchers from global knowledge centers have written topics including: State-of-the-art of biomaterials for human health Micro- and nanoparticles and their application in biosensors The role of immunoassays Stimuli-responsive smart nanoparticles Diagnosis and treatment of cancer Advanced materials for biomedical application and drug delivery Nanoparticles for diagnosis and/or treatment of Alzheimers disease Hierarchical modelling of elastic behavior of human dental tissue Biodegradable porous hydrogels Hydrogels in tissue engineering, drug delivery, and wound care Modified natural zeolites Supramolecular hydrogels based on cyclodextrin poly(pseudo)rotaxane Polyhydroxyalkanoate-based biomaterials Biomimetic molecularly imprinted polymers |
| advanced engineering materials impact factor: Microstructural Design of Advanced Engineering Materials Dmitri A. Molodov, 2013-07-17 The choice of a material for a certain application is made taking into account its properties. If, for example one would like to produce a table, a hard material is needed to guarantee the stability of the product, but the material should not be too hard so that manufacturing is still as easy as possible - in this simple example wood might be the material of choice. When coming to more advanced applications the required properties are becoming more complex and the manufacturer`s desire is to tailor the properties of the material to fit the needs. To let this dream come true, insights into the microstructure of materials is crucial to finally control the properties of the materials because the microstructure determines its properties. Written by leading scientists in the field of microstructural design of engineering materials, this book focuses on the evolution and behavior of granular microstructures of various advanced materials during plastic deformation and treatment at elevated temperatures. These topics provide essential background and practical information for materials scientists, metallurgists and solid state physicists. |
| advanced engineering materials impact factor: Advanced Materials Theodorus van de Ven, Armand Soldera, 2020-01-20 Advanced Materials gives an unique insight into the specialized materials that are required to run our modern society. Provided within are the fundamental theories and applications of advanced materials for metals, glasses, polymers, composites, and nanomaterials. This book is ideal for scientists and engineers of materials science, chemistry, physics, and engineering, and students of these disciplines. |
| advanced engineering materials impact factor: Hydrogen Science and Engineering, 2 Volume Set Detlef Stolten, Bernd Emonts, 2016-03-21 Authored by 50 top academic, government and industry researchers, this handbook explores mature, evolving technologies for a clean, economically viable alternative to non-renewable energy. In so doing, it also discusses such broader topics as the environmental impact, education, safety and regulatory developments. The text is all-encompassing, covering a wide range that includes hydrogen as an energy carrier, hydrogen for storage of renewable energy, and incorporating hydrogen technologies into existing technologies. |
| advanced engineering materials impact factor: International Journal of Surface Engineering and Interdisciplinary Materials Science (IJSEIMS). J. Paulo Davim, 2015 |
| advanced engineering materials impact factor: Advanced Engineering Mathematics Michael Greenberg, 2013-09-20 Appropriate for one- or two-semester Advanced Engineering Mathematics courses in departments of Mathematics and Engineering. This clear, pedagogically rich book develops a strong understanding of the mathematical principles and practices that today's engineers and scientists need to know. Equally effective as either a textbook or reference manual, it approaches mathematical concepts from a practical-use perspective making physical applications more vivid and substantial. Its comprehensive instructional framework supports a conversational, down-to-earth narrative style offering easy accessibility and frequent opportunities for application and reinforcement. |
| advanced engineering materials impact factor: Advances in Material Science Sandip A. Kale, Ajay Kumar Mishra, 2021 Selected peer-reviewed full text papers from the International Conference on Advances in Material Science (ICAMS 2020) Selected, peer-reviewed papers from the International Conference on Advances in Material Science (ICAMS 2020), October 3, 2020, Pune, India |
| advanced engineering materials impact factor: Materials Science and Engineering for the 1990s National Research Council, Division on Engineering and Physical Sciences, National Materials Advisory Board, Board on Physics and Astronomy, Commission on Engineering and Technical Systems, Commission on Physical Sciences, Mathematics, and Resources, Solid State Sciences Committee, Committee on Materials Science and Engineering, 1989-02-01 Materials science and engineering (MSE) contributes to our everyday lives by making possible technologies ranging from the automobiles we drive to the lasers our physicians use. Materials Science and Engineering for the 1990s charts the impact of MSE on the private and public sectors and identifies the research that must be conducted to help America remain competitive in the world arena. The authors discuss what current and future resources would be needed to conduct this research, as well as the role that industry, the federal government, and universities should play in this endeavor. |
| advanced engineering materials impact factor: Macromolecular Chemistry and Physics , 2006 |
| advanced engineering materials impact factor: Engineering Materials Dr. J.Jebeen Moses, Dr. M. Felix Xavier Muthu, Prof. V. T. Vijumon, 2024-08-08 Engineering Materials a comprehensive exploration of the materials used in engineering applications. The properties, structures, and behaviors of metals, ceramics, polymers, and composites, emphasizing their selection based on performance and cost-effectiveness. The book also addresses the influence of manufacturing processes on material characteristics and examines contemporary developments, including nanomaterials and smart materials. Aimed at students and professionals alike, it serves as an essential resource for understanding how material choices impact engineering design and innovation across various industries. |
| advanced engineering materials impact factor: Wear In Advanced Engineering Applications And Materials Luis Rodriguez-tembleque, Jesus Vazquez, M H Ferri Aliabadi, 2022-03-10 Wear is one of the main reasons mechanical components and materials become inoperable, rendering enormous costs to society over time. Estimating wear allows engineers to predict the useful life of modern mechanical elements, reduce the costs of inoperability, or obtain optimal designs (i.e. selecting proper materials, shapes, and surface finishing according to mechanical conditions and durability) to reduce the impact of wear.Wear in Advanced Engineering Applications and Materials presents recent computational and practical research studying damage and wear in advanced engineering applications and materials. As such, this book covers numerical formulations based on the finite element method (FEM) — and the boundary element method (BEM) — as well as theoretical and experimental research to predict the wear response or life-limiting failure of engineering applications. |
| advanced engineering materials impact factor: Advances in Civil Infrastructure Engineering Xian Yan Zhou, Guo Jing He, Yun Lei Fan, Yan Xiao, Sashi K. Kunnath, Giorgio Monti, 2013-01-11 Selected, peer reviewed papers from the Proceedings of the first International Conference on Advances in Civil Infrastructure Engineering (ICACIE 2012), September 15-16, 2012, Changsha, China |
| advanced engineering materials impact factor: Advanced Textile Engineering Materials Shahid Ul Islam, B. S. Butola, 2018-08-15 A groundbreaking book on the recent advances in chemical finishing, innovative fabrication strategies frequently adopted for the mechanical finishing of textiles, as well as the environmental issues in textile sectors Advanced materials are undoubtedly becoming very popular as substitutes for traditional materials in the textile engineering field. Advanced textile engineering materials are giving way to innovative textile materials with novel functions and are widely perceived as offering huge potential in a wide range of applications such as healthcare, defense, personal protective equipment, textile antennas, garments for motion capture, and sensors, etc. Advanced Engineering Textile Materials contains 13 chapters written by high profile contributors with many years of experience in textile technology, and cover fundamental and advanced approaches associated with the design and development of textile implants, conductive textiles, 3D textiles, smart-stimuli textiles, antiballistic textiles and fabric structures designed for a medical application intrabody/extra-body, implantable/non-implantable) and various modification and processing techniques. |
| advanced engineering materials impact factor: Advanced Engineering, Technology and Applications Alessandro Ortis, Alaa Ali Hameed, Akhtar Jamil, 2023-12-22 This book constitutes the Revised Selected Papers of the Second International Conference, ICAETA 2023, held in Istanbul, Turkey, during March 10–11, 2023. The 37 full papers included in this volume were carefully reviewed and selected from 139 submissions. The topics cover a range of areas related to engineering, technology, and applications. Main themes of the conference include, but are not limited to: Data Analysis, Visualization and Applications; Artificial Intelligence, Machine Learning and Computer Vision; Computer Communication and Networks; Signal Processing and Applications; Electronic Circuits, Devices, and Photonics; Power Electronics and Energy Systems. |
| advanced engineering materials impact factor: Engineered Materials Handbook, Desk Edition ASM International. Handbook Committee, 1995-11-01 A comprehensive reference on the properties, selection, processing, and applications of the most widely used nonmetallic engineering materials. Section 1, General Information and Data, contains information applicable both to polymers and to ceramics and glasses. It includes an illustrated glossary, a collection of engineering tables and data, and a guide to materials selection. Sections 2 through 7 focus on polymeric materials--plastics, elastomers, polymer-matrix composites, adhesives, and sealants--with the information largely updated and expanded from the first three volumes of the Engineered Materials Handbook. Ceramics and glasses are covered in Sections 8 through 12, also with updated and expanded information. Annotation copyright by Book News, Inc., Portland, OR |
| advanced engineering materials impact factor: Advanced in Creative Technology- added Value Innovations in Engineering, Materials and Manufacturing Pichai Janmanee, |
| advanced engineering materials impact factor: The Fourth Industrial Revolution Klaus Schwab, 2017-01-03 World-renowned economist Klaus Schwab, Founder and Executive Chairman of the World Economic Forum, explains that we have an opportunity to shape the fourth industrial revolution, which will fundamentally alter how we live and work. Schwab argues that this revolution is different in scale, scope and complexity from any that have come before. Characterized by a range of new technologies that are fusing the physical, digital and biological worlds, the developments are affecting all disciplines, economies, industries and governments, and even challenging ideas about what it means to be human. Artificial intelligence is already all around us, from supercomputers, drones and virtual assistants to 3D printing, DNA sequencing, smart thermostats, wearable sensors and microchips smaller than a grain of sand. But this is just the beginning: nanomaterials 200 times stronger than steel and a million times thinner than a strand of hair and the first transplant of a 3D printed liver are already in development. Imagine “smart factories” in which global systems of manufacturing are coordinated virtually, or implantable mobile phones made of biosynthetic materials. The fourth industrial revolution, says Schwab, is more significant, and its ramifications more profound, than in any prior period of human history. He outlines the key technologies driving this revolution and discusses the major impacts expected on government, business, civil society and individuals. Schwab also offers bold ideas on how to harness these changes and shape a better future—one in which technology empowers people rather than replaces them; progress serves society rather than disrupts it; and in which innovators respect moral and ethical boundaries rather than cross them. We all have the opportunity to contribute to developing new frameworks that advance progress. |
| advanced engineering materials impact factor: Engineering Materials K.M. Gupta, 2014-11-13 Introduces Emerging Engineering Materials Mechanical, materials, and production engineering students can greatly benefit from Engineering Materials: Research, Applications and Advances. This text focuses heavily on research, and fills a need for current information on the science, processes, and applications in the field. Beginning with a brief overview, the book provides a historical and modern perspective on material science, and describes various types of engineering materials. It examines the industrial process for emerging materials, determines practical use under a wide range of conditions, and establishes what is needed to produce a new generation of materials. Covers Basic Concepts and Practical Applications The book consists of 18 chapters and covers a variety of topics that include functionally graded materials, auxetic materials, whiskers, metallic glasses, biocomposite materials, nanomaterials, superalloys, superhard materials, shape-memory alloys, and smart materials. The author outlines the latest advancements, including futuristic plastics, sandwich composites, and biodegradable composites, and highlights special kinds of composites, including fire-resistant composites, marine composites, and biomimetics. He also factors in current examples, future prospects, and the latest research underway in materials technology. Contains approximately 160 diagrams and 85 tables Incorporates examples, illustrations, and applications used in a variety of engineering disciplines Includes solved numerical examples and objective questions with answers Engineering Materials: Research, Applications and Advances serves as a textbook and reference for advanced/graduate students in mechanical engineering, materials engineering, production engineering, physics, and chemistry, and relevant researchers and practicing professionals in the field of materials science. |
| advanced engineering materials impact factor: Regenerative Engineering Yusuf Khan, Cato T. Laurencin, 2018-04-19 This book focuses on advances made in both materials science and scaffold development techniques, paying close attention to the latest and state-of-the-art research. Chapters delve into a sweeping variety of specific materials categories, from composite materials to bioactive ceramics, exploring how these materials are specifically designed for regenerative engineering applications. Also included are unique chapters on biologically-derived scaffolding, along with 3D printing technology for regenerative engineering. Features: Covers the latest developments in advanced materials for regenerative engineering and medicine. Each chapter is written by world class researchers in various aspects of this medical technology. Provides unique coverage of biologically derived scaffolding. Includes separate chapter on how 3D printing technology is related to regenerative engineering. Includes extensive references at the end of each chapter to enhance further study. |
| advanced engineering materials impact factor: Advanced Manufacturing Techniques for Engineering and Engineered Materials Thanigaivelan, R., Rajan, N., Argul, T.G., 2022-03-11 As technology advances, it is imperative to stay current in the newest developments made within the engineering industry and within material sciences. Trends in manufacturing such as 3D printing, casting, welding, surface modification, computer numerical control (CNC), non-traditional, Industry 4.0 ergonomics, and hybrid machining methods must be closely examined to utilize these important resources for the betterment of society. Advanced Manufacturing Techniques for Engineering and Engineered Materials provides a unified and complete overview about the recent and emerging trends, developments, and associated technology with scope for the commercialization of techniques specific to manufacturing materials. This book also reviews the various machining methods for difficult-to-cut materials and novel materials including matrix composites. Covering topics such as agro-waste, conventional machining, and material performance, this book is an essential resource for researchers, engineers, technologists, students and professors of higher education, industry workers, entrepreneurs, researchers, and academicians. |
| advanced engineering materials impact factor: Case Studies in Advanced Engineering Design C. Spitas, V. Spitas, M. Rajabalinejad, 2013-11-07 This book is not about serving ready-made conclusions, or a ‘how to’-guide of advanced engineering design. It hopes to serve as a ‘sharp radiography’ of current practices, being neither the ultimate diagnosis nor a prognosis. It is a reference, a starting point for the kind of questioning and dialectic that makes engineering design such a uniquely fascinating, challenging and rewarding human endeavour. |
| advanced engineering materials impact factor: Advanced Engineering Optimization Through Intelligent Techniques R. Venkata Rao, Jan Taler, 2019-07-09 This book comprises select peer-reviewed papers presented at the International Conference on Advanced Engineering Optimization Through Intelligent Techniques (AEOTIT) 2018. The book combines contributions from academics and industry professionals, and covers advanced optimization techniques across all major engineering disciplines like mechanical, manufacturing, civil, automobile, electrical, chemical, computer and electronics engineering. Different optimization techniques and algorithms such as genetic algorithm (GA), differential evolution (DE), simulated annealing (SA), particle swarm optimization (PSO), artificial bee colony (ABC) algorithm, artificial immune algorithm (AIA), teaching-learning-based optimization (TLBO) algorithm and many other latest meta-heuristic techniques and their applications are discussed. This book will serve as a valuable reference for students, researchers and practitioners and help them in solving a wide range of optimization problems. |
| advanced engineering materials impact factor: Advanced Composite Materials for Aerospace Engineering Sohel Rana, Raul Fangueiro, 2016-04-26 Advanced Composite Materials for Aerospace Engineering: Processing, Properties and Applications predominately focuses on the use of advanced composite materials in aerospace engineering. It discusses both the basic and advanced requirements of these materials for various applications in the aerospace sector, and includes discussions on all the main types of commercial composites that are reviewed and compared to those of metals. Various aspects, including the type of fibre, matrix, structure, properties, modeling, and testing are considered, as well as mechanical and structural behavior, along with recent developments. There are several new types of composite materials that have huge potential for various applications in the aerospace sector, including nanocomposites, multiscale and auxetic composites, and self-sensing and self-healing composites, each of which is discussed in detail. The book's main strength is its coverage of all aspects of the topics, including materials, design, processing, properties, modeling and applications for both existing commercial composites and those currently under research or development. Valuable case studies provide relevant examples of various product designs to enhance learning. - Contains contributions from leading experts in the field - Provides a comprehensive resource on the use of advanced composite materials in the aerospace industry - Discusses both existing commercial composite materials and those currently under research or development |
| advanced engineering materials impact factor: ECEL2009- 8th European Conference on E-Learning, Dan Remenyi, 2009 |
| advanced engineering materials impact factor: Designing, Processing and Properties of Advanced Engineering Materials Sung Goon Kang, T. Kobayashi, 2004-03-15 Proceedings of the 3rd International Symposium on Designing, Processing and Properties of Advanced Engineering Materials, ISAEM-2003, November 5-8, 2003, Jeju Island, Korea |
| advanced engineering materials impact factor: Fracture of Engineering Materials and Structures S.H. Teoh, K.H. Lee, 2012-12-06 Recent advances in the field of fracture of engineering materials and structures have increasingly indicated its multidisciplinary nature. This area of research now involves scientists and engineers who work in materials science, applied mathematics and mechanics, and also computer scientists. The present volume, which contains the Proceedings of the Joint FEFG/lCF International Conference on Fracture of Engineering Materials and Structures held in Singapore from the 6th to 8th of August 1991, is a testimony of this multidisciplinary nature. This International Conference was the Second Symposium of the Far East Fracture Group (FEFG) and thus provided a unique opportunity for researchers and engineers in the Far East region to exchange and acquire knowledge of new advances and applications in fracture. The Conference was also the Inter-Quadrennial International Conference on Fracture (ICF) for 1991 and thus appealed to researchers in the international arena who wished to take advantage of this meeting to present their findings. The Conference has brought together over 130 participants from more than 24 countries, and they represented government and industrial research laboratories as well as academic institutions. It has thus achieved its objective of bringing together scientists and engineers with different backgrounds and perspectives but with . a common interest in new developments in the fracture of engineering materials and structures. This volume contains 4 keynote papers, 4 invited papers and 130 contributed papers. |
| advanced engineering materials impact factor: Advanced Engineering and Technology II Liquan Xie, 2015-03-19 Advanced Engineering and Technology II collects recent essential ideas and advanced techniques to overcome the current engineering issues in civil engineering, environmental engineering, water science and hydraulic engineering, energy and chemical engineering, and other related fields. The 60 technical papers from the 2nd Annual Congress on Advance |
| advanced engineering materials impact factor: Applied Mechanics Reviews , 1975 |
| advanced engineering materials impact factor: Proceedings of the 1st World Congress on Integrated Computational Materials Engineering (ICME) The Minerals, Metals & Materials Society (TMS), 2011-06-15 In its most advanced form, Integrated Computational Materials Engineering (ICME) holistically integrates manufacturing simulation, advanced materials models and component performance analysis. This volume contains thirty-five papers presented at the 1st World Congress on Integrated Computational Materials Engineering. Modeling processing-microstructure relationships, modeling microstructure-property relationships, and the role of ICME in graduate and undergraduate education are discussed. Ideal as a primary text for engineering students, this book motivates a wider understanding of the advantages and limitations offered by the various computational (and coordinated experimental) tools of this field. |
| advanced engineering materials impact factor: Advances in Material Science and Engineering Mokhtar Awang, Seyed Sattar Emamian, 2021-07-05 This book presents selected papers from the 6th International Conference on Mechanical, Manufacturing and Plant Engineering (ICMMPE 2020), held virtually via Google Meet. It highlights the latest advances in the emerging area, brings together researchers and professionals in the field and provides a valuable platform for exchanging ideas and fostering collaboration. Joining technologies could be changed to manufacturing technologies. Addressing real-world problems concerning joining technologies that are at the heart of various manufacturing sectors, the respective papers present the outcomes of the latest experimental and numerical work on problems in soldering, arc welding and solid-state joining technologies. |
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