This book present the state of the art in Total Productive Maintainance (TPM) and its benefits. The authors present a survey applied to 368 manufacturing industries in order to determine their level of execution of TPM. Then a series of causal models are presented. For each model, the authors present a measure of the dependency between the critical success factors and the benefits obtained, allowing industry managers to differentiate between essential and non-essential activities. The content also allows students and academics to obtain a theoretical and empirical basis on the importance of TPM as a lean manufacturing tool in the context of industry 4.0.
Reduce or eliminate costly downtime Short on teory and long on practice, this book provides examples and case studies, designed to provide maintenance engineers and supervisors with a framework for operational strategies and day-to-day management and training techniques that will keep their equipment running at top efficiency.
A systematic approach to improving production and quality systems, total productive maintenance (TPM) involves all employees through a moderate investment in maintenance. Therefore, a successful TPM implementation requires support of all employees from C-level on down. Total Productive Maintenance: Strategies and Implementation Guide highlights the
Manufacturing towards Excellence in spinning mills aims to help the relevant organization to cut costs, improve throughput, effective utilization of resources and to safeguard the interests of stakeholders. Major aspects discussed includes quality assurance, production management, maintenance management of modern machinery and laboratory equipment towards achieving manufacturing excellence with benchmarking and industry norms. Relevant case studies are provided with dedicated chapters on training and development of employees, energy management and customer focus. Explains industry norms to benchmark any spinning mill against the manufacturing performance parameters. Includes Failure Mode and Effect Analysis and Total Productive Maintenance aspects. Explores training and development standards in spinning mills. Discusses energy management and customer focus through effective techniques. Reviews SPDM, PDM Tools, Contamination index, Spin plan, Customer Satisfaction Index, Co-Creation, and HPT This book is aimed at professionals and researchers in textile engineering and management.
Today, increasingly more, the word sustainability is present in all kinds of discussions: at home, at work, at school, in all society. Conscious of the environment where we live everybody looks to find the best solutions to solve problems that result from Human Being evolution. Management for a sustainable development appears as a process from which organizations try to use all its resources, as well as improve its organizational and technological development, in order to answer not only to the present but also to future human and social needs. Only in this way is it possible to improve the quality of life. Seen in this way, sustainable development is understood to be people centred. We have a special concern with cultural, social and economic dimensions, where individuals can develop, together as a society, whilst at the same time individual and organizational activities can be implemented without destroying the present diversity and complexity of the ecological system where we live. Taking into account these concerns, this book looks to cover issues related to the management for sustainable development in a context where organizations are continually facing high challenges for what concerns the items related to, amongst others, the re-use, recycling, waste reduction, add value, low costs and time of production, sustainable behaviour, not only in an environmental perspective but also in an organizational perspective. Today’s organizations can no longer develop their practices based in the existent paradigms. On the contrary, it is necessary to completely break from these paradigms, creating a total change of mentality in the way we manage the organizational activities. Taking into account this reality, managing for a sustainable development appears as a management philosophy focused in productivity improvement considering different kinds of goals, such as biological, economic and social systems goals. Conscious of this reality, this book contributes to the exchange of experiences and perspectives about the state of research related to the management for a sustainable development, as well as the future direction of this research field. It looks to provide a support to academics and researchers, as well as those operating in the management field and who need to deal with policies and strategies related to sustainable development issues.
With the advent of disruptive digital technologies, companies are facing unprecedented challenges and opportunities. Advanced manufacturing systems are of paramount importance in making key enabling technologies and new products more competitive, affordable, and accessible, as well as for fostering their economic and social impact. The manufacturing industry also serves as an innovator for sustainability since automation coupled with advanced manufacturing technologies have helped manufacturing practices transition into the circular economy. To that end, this Special Issue of the journal Applied Sciences, devoted to the broad field of Smart Sustainable Manufacturing Systems, explores recent research into the concepts, methods, tools, and applications for smart sustainable manufacturing, in order to advance and promote the development of modern and intelligent manufacturing systems. In light of the above, this Special Issue is a collection of the latest research on relevant topics and addresses the current challenging issues associated with the introduction of smart sustainable manufacturing systems. Various topics have been addressed in this Special Issue, which focuses on the design of sustainable production systems and factories; industrial big data analytics and cyberphysical systems; intelligent maintenance approaches and technologies for increased operating life of production systems; zero-defect manufacturing strategies, tools and methods towards online production management; and connected smart factories.
To plan, build, monitor, maintain, and dispose of products and assets properly, maintenance and safety requirements must be implemented and followed. A lack of maintenance and safety protocols leads to accidents and environmental disasters as well as unexpected downtime that costs businesses money and time. With the arrival of the Fourth Industrial Revolution and evolving technological tools, it is imperative that safety and maintenance practices be reexamined. Applications and Challenges of Maintenance and Safety Engineering in Industry 4.0 is a collection of innovative research that addresses safety and design for maintenance and reducing the factors that influence and degrade human performance and that provides technological advancements and emergent technologies that reduce the dependence on operator capabilities. Highlighting a wide range of topics including management analytics, internet of things (IoT), and maintenance, this book is ideally designed for engineers, software designers, technology developers, managers, safety officials, researchers, academicians, and students.
