Download Free Industrial Production Book in PDF and EPUB Free Download. You can read online Industrial Production and write the review.

Hemp production for industrial purposes continues to grow worldwide, and is currently being used for many applications including house insulation, paper making, animal bedding, fabric, rope making and also as a biofuel. This book brings together international experts to examine all aspects of industrial hemp production, including the origins of hemp production, as well as the botany and anatomy, genetics and breeding, quality assessment, regulations, and the agricultural and industrial economics of hemp production. A translation of Le Chanvre Industriel, this book has been revised and updated for an international audience and is essential reading for producers of industrial hemp, industry personnel and agriculture researchers and students.
This interdisciplinary volume provides a critical and multi-disciplinary review of current manufacturing processes, practices, and policies, and broadens our understanding of production and innovation in the world economy. Chapters highlight how firms
This book comprises select proceedings of the International Conference on Future Learning Aspects of Mechanical Engineering (FLAME 2018). The book discusses different topics of industrial and production engineering such as sustainable manufacturing systems, computer-aided engineering, rapid prototyping, manufacturing management and automation, metrology, manufacturing process optimization, casting, welding, machining, and machine tools. The contents of this book will be useful for researchers as well as professionals.
Focusing on the design and implementation of computer-based automatic machine tools, David F. Noble challenges the idea that technology has a life of its own. Technology has been both a convenient scapegoat and a universal solution, serving to disarm critics, divert attention, depoliticize debate, and dismiss discussion of the fundamental antagonisms and inequalities that continue to beset America. This provocative study of the postwar automation of the American metal-working industry—the heart of a modern industrial economy—explains how dominant institutions like the great corporations, the universities, and the military, along with the ideology of modern engineering shape, the development of technology. Noble shows how the system of "numerical control," perfected at the Massachusetts Institute of Technology (MIT) and put into general industrial use, was chosen over competing systems for reasons other than the technical and economic superiority typically advanced by its promoters. Numerical control took shape at an MIT laboratory rather than in a manufacturing setting, and a market for the new technology was created, not by cost-minded producers, but instead by the U. S. Air Force. Competing methods, equally promising, were rejected because they left control of production in the hands of skilled workers, rather than in those of management or programmers. Noble demonstrates that engineering design is influenced by political, economic, managerial, and sociological considerations, while the deployment of equipment—illustrated by a detailed case history of a large General Electric plant in Massachusetts—can become entangled with such matters as labor classification, shop organization, managerial responsibility, and patterns of authority. In its examination of technology as a human, social process, Forces of Production is a path-breaking contribution to the understanding of this phenomenon in American society.
Manufacturing’s central role in global innovation Companies compete on the decisions they make. For years—even decades—in response to intensifying global competition, companies decided to outsource their manufacturing operations in order to reduce costs. But we are now seeing the alarming long-term effect of those choices: in many cases, once manufacturing capabilities go away, so does much of the ability to innovate and compete. Manufacturing, it turns out, really matters in an innovation-driven economy. In Producing Prosperity, Harvard Business School professors Gary Pisano and Willy Shih show the disastrous consequences of years of poor sourcing decisions and underinvestment in manufacturing capabilities. They reveal how today’s undervalued manufacturing operations often hold the seeds of tomorrow’s innovative new products, arguing that companies must reinvest in new product and process development in the US industrial sector. Only by reviving this “industrial commons” can the world’s largest economy build the expertise and manufacturing muscle to regain competitive advantage. America needs a manufacturing renaissance—for restoring itself, and for the global economy as a whole. This will require major changes. Pisano and Shih show how company-level choices are key to the sustained success of industries and economies, and they provide business leaders with a framework for understanding the links between manufacturing and innovation that will enable them to make better outsourcing decisions. They also detail how government must change its support of basic and applied scientific research, and promote collaboration between business and academia. For executives, policymakers, academics, and innovators alike, Producing Prosperity provides the clearest and most compelling account yet of how the American economy lost its competitive edge—and how to get it back.
In today's extremely competitive manufacturing market, effective production planning and scheduling processes are critical to streamlining production and increasing profits. Success in these areas means increased efficiency, capacity utilization, and reduced time required to complete jobs. From the initial stages of plant location and capacity dete
An investigation of the cultural practices and belief systems of Los Angelesbased film and video production workers.
In modern manufacturing, it is not simply the equipment that is increasingly complex but rather the entire business system in which a company operates. Convoluted supply chains, complicated resource flows, advanced information systems: all must be taken into account when designing or reengineering a manufacturing system. Introducing a powerful yet