Products related to Manufacturing:
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Technology Innovation in Manufacturing
This text identifies and discusses different technology innovation initiatives (TIIs) such as entrepreneurial capability, technology infrastructure capability, organizational culture and climate, and government initiatives.It further evaluates the relationship between various technology innovation initiatives and manufacturing performances using multi-criteria decision-making techniques such as fuzzy set theory (FST), structural equation modeling (SEM), and analytic hierarchy process (AHP).It will serve as an ideal reference text for graduate students and academic researchers in the field of industrial engineering, manufacturing engineering, mechanical engineering, automotive engineering. This book:• Discusses technology innovation initiatives such as entrepreneurial capability, technology infrastructure capability, and organizational culture. • Highlights technology innovation-strategy model in assisting manufacturing industries for enhancing their performance in today’s competitive environment. • Examines the effect of technology innovation initiatives on the performance of manufacturing industries. • Covers multi-criteria decision-making techniques such as fuzzy set theory, structural equation modeling, and analytic hierarchy process. • Explores the validation of fuzzy-based technology innovation model through structural equation modeling.
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Manufacturing Technology : Manufacturing Processes
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Advanced Manufacturing and Automation VIII
This proceeding is a compilation of selected papers from the 8th International Workshop of Advanced Manufacturing and Automation (IWAMA 2018), held in Changzhou, China on September 25 - 26, 2018.Most of the topics are focusing on novel techniques for manufacturing and automation in Industry 4.0 and smart factory.These contributions are vital for maintaining and improving economic development and quality of life.The proceeding will assist academic researchers and industrial engineers to implement the concepts and theories of Industry 4.0 in industrial practice, in order to effectively respond to the challenges posed by the 4th industrial revolution and smart factory.
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PV Technology and Manufacturing
This book discusses the manufacturing processes of photovoltaic solar cells, from conventional silicon cells, to thin-film technologies and ending with the cutting-edge technologies of third-generation photovoltaics.The rapid advances in photovoltaic technologies are propelled by the discovery of new materials through innovative routes of synthesis and deposition.For example, the exponential enhancement in efficiencies of perovskite solar cells between years 2015 and 2020 is a direct result of the availability of new materials to capitalize on innovative manufacturing techniques.Currently, efficiencies of up to 25.5% are achieved by perovskite solar cells technologies.This book is intended for scientists and engineers who are keen on having a solid understanding of conventional manufacturing processes of bulk silicon for photovoltaic purposes, as well as advanced processes used to synthesize materials for emerging photovoltaic technologies such as thin-film and third-generation PV.The book is designed to be self-contained to allow the reader to develop knowledge and experience in materials selection as well as a good understanding of pertinent manufacturing process to arrive at best device performance.The technologies presented are also analyzed for its energy and environmental impacts.
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Why is objective testing preferred in manufacturing technology?
Objective testing is preferred in manufacturing technology because it provides consistent and reliable results that can be easily replicated. This helps in ensuring the quality and reliability of the products being manufactured. Objective testing also allows for better comparison and analysis of different manufacturing processes and materials, leading to improved efficiency and cost-effectiveness. Additionally, objective testing helps in meeting industry standards and regulations, ensuring the safety and compliance of the manufactured products.
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What is the corner radius in manufacturing technology?
The corner radius in manufacturing technology refers to the curvature at the intersection of two surfaces, such as the edge of a machined part. It is an important consideration in design and machining processes, as it affects the strength, appearance, and functionality of the final product. The corner radius is typically specified in engineering drawings and is carefully controlled during the machining process to ensure that the final part meets the required specifications.
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How do you calculate mathematical tasks in manufacturing technology?
In manufacturing technology, mathematical tasks are often calculated using various formulas and equations. These calculations can involve determining dimensions, tolerances, material properties, and other parameters necessary for designing and producing parts and products. Additionally, mathematical tasks in manufacturing technology may also involve using geometric and trigonometric principles to solve problems related to machining, tooling, and assembly. Computer-aided design (CAD) and computer-aided manufacturing (CAM) software are often used to perform these calculations and ensure accurate and efficient production processes.
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What types of costs include manufacturing materials and manufacturing wages?
The types of costs that include manufacturing materials and manufacturing wages are known as direct costs. Direct costs are expenses that can be specifically attributed to the production of goods or services. Manufacturing materials refer to the raw materials and components used in the production process, while manufacturing wages include the labor costs associated with the production workers directly involved in the manufacturing process. These costs are directly tied to the production of goods and are essential for calculating the total cost of production.
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Automation and Manufacturing for the Built Environment
Automation and Manufacturing for the Built Environment is a plain-language guide to the application of automation and manufacturing technologies and processes to the delivery and operation of the built environment.Covering the full asset lifecycle, the book provides a straightforward guide to a wide range of technologies, showing where they fit and the benefits that they have, with real-world examples of their applications. Coverage in the book includesnew models to assess the potential benefits and impacts of new technologies, and to consider their implications how automation and manufacturing-led approaches can complement each other to address longstanding construction industry challengesoverview of automation and manufacturing technologies likely to offer greatest value in the short, medium and long-term“no-regret” decisions that can be made today that will be of value in the future, including development of structured product data, logical data models and use of generative design toolsthe crucial roles of planning and connectivity between technologies2035 scenarios based on adoption of different automation and manufacturing-led models. The book also presents assessments on the potential levels of automation that different technologies are likely to deliver up to 2035, the wider benefits they can deliver and impacts on the future of work. Automation and Manufacturing for the Built Environment will be of interest to a wide range of construction professionals seeking information in the very latest developments in the industry, including clients; senior managers; digital leads, information and BIM managers; engineers; architects; and planners.It is equally applicable to small and large enterprises.
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Human Machine Collaboration and Interaction for Smart Manufacturing : Automation, robotics, sensing, artificial intelligence, 5G, IoTs and Blockchain
Advanced technologies such as robotics, 5G mobile communications, IoT, cloud computing and wireless sensor networks have had a huge impact and influence on manufacturing, with an increased collaboration between humans and smart systems.As the manufacturing process becomes more automated using real-time data, communication systems, Artificial Intelligence (AI) techniques and robotics feed data back into the manufacturing process.This enables the design of products that are more customized and personal, and leads to a more competitive, efficient and value-added production process by reacting more quickly to technical or human errors to avoid product and system damage while increasing workplace safety, and reducing waste, pollution, and associated costs. This edited book covers challenges, concepts, systems, architectures, technologies, and design characteristics of human-machine cooperation and interaction systems in smart manufacturing environments using state of the art technologies including AI, 5G, IoTs, Blockchains, CPS, sensing, automation and robotics. The book is aimed at researchers and engineers working on the applications of robotics and automation, HMI, HCI, CPS, sensing, information and communications technology, data science, ML/DL/AI, AR/VR, cybersecurity and electronics.It is also a useful reference for advanced students and lecturers in these fields, and will appeal to manufacturers and automation system developers.
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Manufacturing Independence : Industrial Innovation and the American Revolution
Benjamin Franklin was serious when he suggested the colonists arm themselves with the longbow.The American colonies were not logistically prepared for the revolution and this became painfully obvious in wars first years.Trade networks were destroyed, inflation undermined the economy, and American artisans could not produce or repair enough weapons to keep the Continental Army in the field.The Continental Congress responded to this crisis by mobilizing the nations manufacturing sector for war.With information obtained from Europe through both commercial exchange and French military networks, Congress became familiar with the latest manufacturing techniques and processes of the nascent European industrial revolution.They therefore initiated an innovative program of munitions manufacturing under the Department of the Commissary General of Military Stores.The department gathered craftsmen and workers into three national arsenals where they were trained for the large-scale production of weapons.The department also engaged private manufacturers, providing them with materials and worker training, and instituting a program of inspecting their finished products. As historian Robert F. Smith relates in Manufacturing Independence: Industrial Innovation in the American Revolution, the colonies were able to provide their military with the arms it needed to fight, survive, and outlast the enemysupplying weapons for the victory at Saratoga, rearming their armies in the South on three different occassions, and providing munitions to sustain the siege at Yorktown.But this manufacturing system not only successfully supported the Continental Army, it also demonstrated new production ideas to the nation.Through this system, the government went on to promote domestic manufacturing after the war, becoming a model for how the nation could produce goods for its own needs.The War for Independence was not just a political revolution, it was an integral part of the Industrial Revolution in America.
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Additive Manufacturing Technology : Design, Optimization, and Modeling
Additive Manufacturing Technology Highly comprehensive resource covering all key aspects of the current developments of additive manufacturing Additive Manufacturing Technology: Design, Optimization, and Modeling provides comprehensive and in-depth knowledge of the latest advances in various additive manufacturing technologies for polymeric materials, metals, multi-materials, functionally graded materials, and cell-laden bio-inks.It also details the application of numerical modeling in facilitating the design and optimization of materials, processes, and printed parts in additive manufacturing. The topics covered in this book include: Fundamentals and applications of 4D printing, 3D bioprinting of cell-laden bio-inks, and multi-material additive manufacturing Alloy design for metal additive manufacturing, mechanisms of metallurgical defect formation, and the mechanical properties of printed alloys Modified inherent strain method for the rapid prediction of residual stress and distortion within parts fabricated by additive manufacturing Modeling of the different stages in polymer and metal additive manufacturing processes, including powder spreading, melting, and thermal stress evolution By providing extensive coverage of highly relevant concepts and important topics in the field of additive manufacturing, this book highlights its essential role in Industry 4.0 and serves as a valuable resource for scientists, engineers, and students in materials science, engineering, and biomedicine.
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What is the difference between group manufacturing and workshop manufacturing?
Group manufacturing involves the production of goods in large quantities using specialized machinery and assembly lines, with a focus on efficiency and mass production. This method is commonly used in industries such as automotive and electronics. On the other hand, workshop manufacturing involves the production of goods in smaller quantities using more flexible and versatile equipment, with a focus on customization and craftsmanship. This method is commonly used in industries such as furniture making and artisanal products. Overall, the main difference lies in the scale of production and the level of specialization in the manufacturing process.
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Is this a manufacturing defect?
Without more information about the specific issue or product in question, it is difficult to determine if it is a manufacturing defect. Manufacturing defects can occur during the production process and result in a product not meeting quality standards. Common signs of a manufacturing defect include irregularities in the product's design, materials, or construction. If you suspect a manufacturing defect, it is best to contact the manufacturer or retailer for further assistance.
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What is the Manufacturing Belt?
The Manufacturing Belt, also known as the Rust Belt, is a region in the northeastern and midwestern United States that was once a major center for manufacturing and industry. It includes states such as Pennsylvania, Ohio, Michigan, and Illinois, among others. The region became known as the Rust Belt due to the decline of its manufacturing industry, which led to economic hardship and population loss in many cities. The Manufacturing Belt played a significant role in the industrialization of the United States and the growth of its economy, but has faced challenges in recent decades due to globalization and technological changes.
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What does discrete manufacturing mean?
Discrete manufacturing refers to the production of distinct, individual items or products that can be counted, touched, and seen as separate entities. This type of manufacturing involves the assembly of components or parts to create a finished product with a defined structure and form. Examples of discrete manufacturing include the production of automobiles, electronics, furniture, and appliances. It typically involves processes such as machining, welding, assembly, and quality control to ensure the final product meets specific requirements and standards.
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