Additive Manufacturing and 3D Printing Technology: Principles and Applications consists of the construction and working details of all modern additive manufacturing and 3D-printing technology processes and machines, while also including the fundamentals, for a well-rounded educational experience. The book is written to help the reader understand the fundamentals of the systems. This book provides a selection of additive manufacturing techniques suitable for near-term application with enough technical background to understand the domain, its applicability, and to consider variations to suit technical and organizational constraints. It highlights new innovative 3D-printing systems, presents a view of 4D printing, and promotes a vision of additive manufacturing and applications toward modern manufacturing engineering practices. With the block diagrams, self-explanatory figures, chapter exercises, and photographs of lab-developed prototypes, along with case studies, this new textbook will be useful to students studying courses in Mechanical, Production, Design, Mechatronics, and Electrical Engineering.

This unparalleled and wide-ranging book surveys the history of applied arts and industrial design from the eighteenth century to the present day, exploring the dynamic relationship between design and manufacturing, and the technological, social and commercial contexts in which this relationship has developed. In this extensively revised and expanded third edition, David Raizman addresses international questions more fully with the addition of six Global Inspiration sections that examine the contributions of non-Western traditions, rendering the very notion of a 'national' design debatable. The text also pays closer attention to issues of gender, race, and climate change, and their impact on design. With over 580 illustrations, mostly in colour, History of Modern Design is an inclusive, well-balanced introduction to a field of increasing scholarly and interdisciplinary research, and provides students in design with historical perspectives of their chosen fields of study.

Rapid advancements in train control and in-cab technologies provide significant opportunities for rail operators to improve efficiency and enhance their operations. New technologies often provide elegant solutions to existing problems or new capabilities for the operator. However, new technologies may also represent a significant form of risk. Thus, it is important to balance the potential for significant improvement with justifiable concern about how the technology may unpredictably change the nature of the work. If a technology is designed and implemented without considering the substantive human factors concerns, that technology may lead to unintended consequences that can introduce safety issues and disrupt network performance. It is important to note that even a well-designed and beneficial technology may be rejected by the users who see it as a threat to their jobs, status or working conditions. This book discusses the issues surrounding rail technology and introduces a 'toolkit' of human factors evaluation methods. The toolkit provides a practical and operationally focused set of methods that can be used by managers considering investing in technology, staff charged with implementing a technology, and consultants engaged to assist with the design and evaluation process. This toolkit can help to ensure that new rail technologies are thoughtfully designed, effectively implemented, and well received by users so that the significant investment associated with developing rail technologies is not wasted.

Predictive analytics refers to making predictions about the future based on different parameters which are historical data, machine learning, and artificial intelligence. This book provides the most recent advances in the field along with case studies and real-world examples. It discusses predictive modeling and analytics in reliability engineering and introduces current achievements and applications of artificial intelligence, data mining, and other techniques in supply chain management. It covers applications to reliability engineering practice, presents numerous examples to illustrate the theoretical results, and considers and analyses case studies and real-word examples. The book is written for researchers and practitioners in the field of system reliability, quality, supply chain management, and logistics management. Students taking courses in these areas will also find this book of interest.

Stochastic modeling is a set of quantitative techniques for analyzing practical systems with random factors. This area is highly technical and mainly developed by mathematicians. Most existing books are for those with extensive mathematical training; this book minimizes that need and makes the topics easily understandable. Fundamentals of Stochastic Models offers many practical examples and applications and bridges the gap between elementary stochastics process theory and advanced process theory. It addresses both performance evaluation and optimization of stochastic systems and covers different modern analysis techniques such as matrix analytical methods and diffusion and fluid limit methods. It goes on to explore the linkage between stochastic models, machine learning, and artificial intelligence, and discusses how to make use of intuitive approaches instead of traditional theoretical approaches. The goal is to minimize the mathematical background of readers that is required to understand the topics covered in this book. Thus, the book is appropriate for professionals and students in industrial engineering, business and economics, computer science, and applied mathematics.

A unique and comprehensive resource for student and professional furniture designers, providing in-depth answers to their questions about aesthetics, function, materials, manufacturing and sustainability. In this second edition Stuart Lawson emphasizes the principles of a circular economy and what this means for furniture design and consumption. He considers the latest technological developments such as 3-D printing and the use of innovative materials such as bioplastics. He also examines the capabilities and potential of CAD-based design optimization, AI and machine learning-driven generative design processes.

The book features case studies on pioneering, contemporary and historical designers and includes an illustrated directory of materials and manufacturing processes.

How do we design for users? How might users best participate in the design process? How can we evaluate the user's experience of designed products and services? These fundamental questions are addressed in Designers, Users, and Justice, through a series of dialogues between a design scholar and a designer. In a series of conversations, the scholar and the designer address the concepts and practice of user centred design, examining whether a 'just method' necessarily leads to a just design, consider different models for understanding user experience and socially productive design, including the capability approach and utilitarianism, and ponder how an ethical framework for evaluating design might be developed. Throughout, the scholar and the designer draw on their particular experiences in design practice and design education, and propose alternative conceptualisations of the key ideas of user centred design, highlighting and seeking to address the ethical shortcomings of mainstream user centred design practice.

Today's designers are often presented with a seemingly infinite number of creative choices, with the ability to push their materials to the limits of what they can do. Understanding these materials properly helps designers make inspired decisions in a practical and confident manner. The Materials Sourcebook for Design Professionals is the one-stop resource for all design professionals, providing comprehensive, accurate information about the basic materials with which they work on a daily basis, as well as a complete breakdown on new and exciting developments in high-tech materials. Written by Rob Thompson, this book comprises six main parts on all the major 'design' material groups. These parts are then separated further into chapters that examine the properties of individual types of materials, e.g. 'Iron', 'Steel' and 'Aluminium'. In total, there are nearly 100 material types featured, each one supported by examples of how it can be used in a variety of industries, an outline of its most desirable properties and details on its form and texture. With 450 vibrant illustrations and a clear layout, the design professional or student is presented with a long-term reference tool that tells them everything they need to know about the materials they use habitually, with information delivered in a wholly unbiased and accessible manner.

Clearly presents the state of the art and future trends in the research of the biodegradable polymers in the context of circular economy Covers entire value chain and life cycle of biopolymers, considering different types of polymers Clarifies the life safety of (bio)degradable polymeric materials Presents novel opportunities and ideas for developing or improving technologies Determines the course of degradation during prediction study

In recent years, mathematics has experienced amazing growth in the engineering sciences. Mathematics forms the common foundation of all engineering disciplines. This book provides a comprehensive range of mathematics applied in various fields of engineering for different tasks such as civil engineering, structural engineering, computer science, and electrical engineering, among others. It offers chapters that develop the applications of mathematics in engineering sciences, conveys the innovative research ideas, offers real-world utility of mathematics, and has a significance in the life of academics, practitioners, researchers, and industry leaders. Features Focuses on the latest research in the field of engineering applications Includes recent findings from various institutions Identifies the gaps in the knowledge in the field and provides the latest approaches Presents international studies and findings in modeling and simulation Offers various mathematical tools, techniques, strategies, and methods across different engineering fields

Artificial intelligence (AI) and digital engineering have become prevalent in business, industry, government, and academia. However, the workforce still has a lot to learn on how to leverage them. This handbook presents the preparatory and operational foundations for the efficacy, applicability, risk, and how to take advantage of these tools and techniques. "Handbook of Mathematical and Digital Engineering Foundations for Artificial Intelligence: A Systems Methodology" provides a guide for using digital engineering platforms for advancing AI applications. The book discusses an interface of education and research in the pursuit of AI developments and highlights the facilitation of advanced education through AI and digital engineering systems. It presents an integration of soft and hard skills in developing and using AI and offers a rigorous systems approach to understanding and using AI. This handbook will be the go-to resource for practitioners and students on applying systems methodology to the body of knowledge of understanding, embracing, and using digital engineering tools and techniques.

Discusses automotive manufacturing processes in a comprehensive manner with the help of applications. Provides case studies addressing issues in the automotive industry and manufacturing operations in the production of vehicles. Discussion on material properties while laying emphasis on the materials and processing parameters. Covers applications and case studies of the automotive industry.

This textbook introduces design students to key principles of three-dimensional form, bridging aesthetics and practical design objectives. It explores how we see and what it is that characterises visually appealing and satisfactory design. Written by an experienced designer, educator and researcher, The Aesthetics of Industrial Design equips students with the knowledge and understanding of how aesthetically superior design is distinct from lesser work. It explains the key principles and concepts they can incorporate into their own designs, encourages readers to investigate and experiment with real design problems and enables them to verbally communicate their design intentions. The book prompts readers to critically reflect on their work and surroundings. Through numerous clear examples and illustrated case studies, which are guided by cognitive science and the application of aesthetic theory, the book brings together the basic aspects of design as form-giving. It explores the balance of function, material and appearance in detail and explains the reasons for common aesthetic faults and how to avoid them. Aimed at undergraduate- and postgraduate-level students within the design fields, this book reveals the secrets to aesthetically successful products that readers can take from education into future practice.

Winner: Best Trade Illustrated Book, British Book Design & Production Awards 2017 'As to the arsenic scare a greater folly it is hardly possible to imagine: the doctors were bitten as people were bitten by the witch fever.' - William Morris on toxic wallpapers, 1885. Bitten by Witch Fever presents facsimile samples of 275 of the most sumptuous wallpaper designs ever created by designers and printers of the age, including Christopher Dresser and Morris & Co. For the first time in their history, every one of the samples shown has been laboratory tested and found to contain arsenic. Interleaved with the wallpaper sections, evocative commentary guides you through the incredible story of the manufacture, uses and effects of arsenic, and presents the heated public debate surrounding the use of deadly pigments in the sublime wallpapers of a newly industrialized world. Chosen by Emma Roberts and Karah Preiss for their Belletrist Book Club's Gift Guide.

As an initial attempt to understand innovation in fashion, this volume focuses on product innovations, realizing that this industry is truly an innovative sector in which diverse technologies, science, art, and tradition have been merged, synthesized, and utilized to solve the needs and concerns of the end-users. In doing so, this book categorizes product innovation into three levels-materials, style and product development-and aims to present the broader scope of innovation in the global fashion industry with the hope that other sectors can learn from these developments and be inspired.

The text focuses on mathematical modeling and applications of advanced techniques of machine learning, and artificial intelligence, including artificial neural networks, evolutionary computing, data mining, and fuzzy systems to solve performance and design issues more precisely. Intelligent computing encompasses technologies, algorithms, and models in providing effective and efficient solutions to a wide range of problems including the airport's intelligent safety system. It will serve as an ideal reference text for senior undergraduate, graduate students, and academic researchers in fields including industrial engineering, manufacturing engineering, computer engineering, and mathematics. The book- Discusses mathematical modeling for traffic, sustainable supply chain, vehicular Ad-Hoc networks, internet of things networks with intelligent gateways. Covers advanced machine learning, artificial intelligence, fuzzy systems, evolutionary computing, data mining techniques for real-world problems. Presents applications of mathematical models in chronic diseases such as kidney and coronary artery diseases. Highlights advances in mathematical modeling, strength, and benefits of machine learning and artificial intelligence, including driving goals, applicability, algorithms, and processes involved. Showcases emerging real-life topics on mathematical models, machine learning, and intelligent computing using an interdisciplinary approach. The text presents emerging real-life topics on mathematical models, machine learning, and intelligent computing in a single volume. It will serve as an ideal text for senior undergraduate, graduate students, and researchers in diverse fields domains including industrial and manufacturing engineering, computer engineering, and mathematics.

Special functions play a very important role in solving various families of ordinary and partial differential equations as well as their fractional-order analogs which model real-life situations. Due to the non-local nature and memory effect, fractional calculus is capable of modeling many situations which arise in engineering. This book includes a collection of related topics associated with such equations and their relevance and significance in engineering. Special Functions in Fractional Calculus and Engineering highlights the significance and applicability of special functions in solving fractional-order differential equations with engineering applications. The book focuses on the non-local nature and memory effect of fractional calculus in modeling relevant to engineering science and covers a variety of important and useful methods using special functions for solving various types of fractional-order models relevant to engineering science. The book goes on to illustrate the applicability and usefulness of special functions by justifying their numerous and widespread occurrences in the solution of fractional-order differential, integral, and integrodifferential equations. The book holds a wide variety of interconnected fundamental and advanced topics with interdisciplinary applications that combine applied mathematics and engineering sciences. useful to graduate students, Ph.D. scholars, researchers, and educators interested in special functions, fractional calculus, mathematical modeling, and engineering. .

This book is about the simulation and modeling of novel chaotic systems within the frame of fractal-fractional operators. The methods used, their convergence, stability, and error analysis are given, and this is the first book to offer mathematical modeling and simulations of chaotic problems with a wide range of fractal-fractional operators, to find solutions. Numerical Methods for Fractal-Fractional Differential Equations and Engineering: Simulations and Modeling provides details for stability, convergence, and analysis along with numerical methods and their solution procedures for fractal-fractional operators. The book offers applications to chaotic problems and simulations using multiple fractal-fractional operators and concentrates on models that display chaos. The book details how these systems can be predictable for a while and then can appear to become random. Practitioners, engineers, researchers, and senior undergraduate and graduate students from mathematics and engineering disciplines will find this book of interest._

As data is an important asset for any organization, it is essential to apply semantic technologies in data science to fulfill the need of any organization. This volume of a two-volume handbook set provides a roadmap for new trends and future developments of data science with semantic technologies. Data Science with Semantic Technologies: New Trends and Future Developments highlights how data science enables the user to create intelligence through these technologies. In addition, this book offers the answers to various questions such as can semantic technologies be able to facilitate data science? Which type of data science problems can be tackled by semantic technologies? How can data scientists get benefited from these technologies? What is the role of semantic technologies in data science? What is the current progress and future of data science with semantic technologies? Which types of problems require the immediate attention of the researchers? What should be the vision 2030 for data science? This volume can serve as an important guide towards applications of data science with semantic technologies for the upcoming generation and thus becomes a unique resource for scholars, researchers, professionals, and practitioners in this field.

Gone are the days when data was interlinked with related data by humans and to find insights coherently, human interpretation was required. Data is no more just data. It is now considered a Thing or Entity or Concept- to bring the meaning to it, so that a machine not only understands the concept but also extrapolates the way humans do. Data Science with Semantic Technologies: Deployment and Exploration volume of a two-volume handbook set provides a roadmap for the deployment of semantic technologies in the field of data science and enables the user to create intelligence through these technologies by exploring the opportunities and eradicating the challenges in the current and future time frame. In addition, this book offers the answer to various questions like What makes a technology semantic as opposed to other approaches to data science? What is knowledge data science? How does knowledge data science relate to other fields? This book explores the optimal use of these technologies to provide the highest benefit to the user under one comprehensive source and title. As there is no dedicated book available in the market on this topic at this time, this proposed new book becomes a unique and only resource for scholars, researchers, data scientists, professionals, and practitioners. This volume can serve as an important guide towards applications of data science with semantic technologies for the upcoming generation and thus becomes a unique resource for scholars, researchers, professionals, and practitioners in this field.

Workshop Machining is a comprehensive textbook that explains the fundamental principles of manually operating machinery to form shapes in a variety of materials. It bridges the gap between people who have traditional toolmaking skills and those who have been trained in programming and operation of CNC machines in a focused production environment, rather than general machine shop. Using a subject-based approach, David Harrison intuitively guides readers and supplies practical skills. The chapters cover everything from the basic machine controls to advanced cutting operations using a wide range of tooling and work-holding devices. Theory and practice are shown via a mixture of diagrams, text and illustrated worked examples, as well as through exercises. The book is ideal for students and lecturing staff who participate in, or lead, practical machining sessions, and for those who wish to further develop their machining skills. It also serves as an excellent reference to understand the principles and limitations of producing shapes with cutters that move in a limited combination of linear and radial paths.