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Excerpt from Industrial Engineering, Vol. 1: A Handbook of Useful Information for Managers, Engineers, Superintendents, Designers, Draftsmen and Others Engaged in Constructive Work IN the preparation of this handbook the writer attempts a systematic arrangement of a considerable volume of useful information for engineers, much of which has not been readily accessible to the public. The collection includes separate specifications relating to the chemical and physical properties of practically all of the materials entering into engineering work for the U. S. Government. The importance and economic value of the data thus presented will be recognized by manufacturers and engineers engaged in Government work not only, but this value extends into every department in industrial engineering. About the Publisher Forgotten Books publishes hundreds of thousands of rare and classic books. Find more at www.forgottenbooks.com This book is a reproduction of an important historical work. Forgotten Books uses state-of-the-art technology to digitally reconstruct the work, preserving the original format whilst repairing imperfections present in the aged copy. In rare cases, an imperfection in the original, such as a blemish or missing page, may be replicated in our edition. We do, however, repair the vast majority of imperfections successfully; any imperfections that remain are intentionally left to preserve the state of such historical works.
The first handbook to focus exclusively on industrial engineering calculations with a correlation to applications, Handbook of Industrial Engineering Equations, Formulas, and Calculations contains a general collection of the mathematical equations often used in the practice of industrial engineering. Many books cover individual areas of engineering
Excerpt from Industrial Engineering, Vol. 1: A Handbook of Useful Information for Managers, Engineers, Superintendents, Designers, Draftsmen and Others Engaged in Constructive Work The collection includes separate specifications relating to the chemical and physical properties of practically all of the materials entering into engineering work for the U.S. Government. The importance and economic value of the data thus presented will be recognized by manufacturers and engineers engaged in Government work not only, but this value extends into every department in industrial engineering. The usefulness of this handbook will not rest so much upon the extent of the compilation as upon the practical nature of the data presented; a feature made possible through the free use of working drawings contributed for insertion in these pages. Selections from these drawings appear throughout the entire work in carefully prepared illustrations accompanied in most cases by tables of working dimensions; these cover a wider range of detail than is common in books of this class. It has been the constant aim of the writer that such data shall be so complete that principal dimensions given in any table may, with suitable adaptations, be used directly in the preparation of shop drawings, and without the labor of recalculating. Correct proportions, in series, cannot be had by selecting an acceptable detail and making one of its dimensions a unit, and then assigning proportional values to the other dimensions, except within very narrow limits. Suppose a series of strap joints as in the table, page 601; diameters ranging from a 3-inch to a 12-inch pin; the writers method is to complete two designs similar in detail, one for the smallest and the other for the largest diameter of pin, then measuring the proportional differences graphically obtained for intermediate sizes. There are numerous machine details which are now designed to be complete in themselves, and with very slight changes made to fit into any machine where such a detail is demanded; many examples of this kind are included in this work; in all cases the nature of the design and the properties of materials entering into it are fully considered and the proportions fixed once for all. Pulleys are a familiar example; they are designed for single or double belts, as also double extra heavy for very severe service, but once designed and patterns made, no further changes occur; the pulley becomes one of many units in a plant requiring no further attention on the part of the designer than the mere selection of size and strength. So-called empiricism, or the reliance on direct observation and experience to the exclusion of theories, or assumed principles in machine design, if it ever existed, is no longer in use; many of the so-called empirical or practical rules are in reality founded upon carefully conducted experiments, or the result of long and methodical observation in the working of machines, the ultimate proportions being fixed to safely carry the load regardless of conventional factors of safety; the latter are not believed to be "factors of ignorance" so much as they are generous allowances made to withstand the effect of forces too complex to be dealt with mathematically or physically. Rigidity depends largely upon the form and details of construction. The chemical and physical properties of any material used in engineering is now known with precision. The data relating to strength of materials in this work are wholly those obtained by direct experiment, mainly in testing machines owned and operated by the U.S. Government. There will be noticed throughout the book a general tendency toward steam-engine details, due in large measure to the writer's long familiarity with that subject. About the Publisher Forgotten Books publishes hundreds of thousands of rare and classic books. Find more at www.forgottenbooks.com
Based on the 2018 International Joint Conference on Industrial Engineering and Operations Management (IJCIEOM) conference that took place in Lisbon, Portugal, this proceedings volume is the first of two focusing on mathematical applications in digital transformation. The different contributions in this volume explore topics such as health care, social technologies, mathematical programming applications, public transport services, new product development, industry 4.0, occupational safety, quality control, e-services, risk management, and supply chain management. Written by renowned scientists from around the world, this multidisciplinary volume serves as a reference on industrial engineering and operations management and as a source on current findings for researchers and students who focus in business models, digital literacy and technology in education, logistics, production and information systems, and operations management.
"This book serves as a vital compendium of research, detailing the latest research, theories, and case studies on industrial engineering"--
This book focuses on cases and studies of interest to mechanical engineers and industrial technicians. The considered applications in this volume are widely used in several industrial fields particularly in the automotive and aviation industries. Readers will understand the theory and techniques which are used in each application covered in each chapter. Volume 2 includes the following topics: Numerical investigation of turbulent slot jets with various nanoparticle shapes Experimental study on a sweeping gas membrane distillation unit Development of design processes for multi-spindle drilling using a neural network and expert systems Experimental investigation of a new hybrid solar collector (PV/t) system Theoretical study of the effects of combustion duration on engine performance Effects of preheating temperature and fuel-air equivalence ratio on pollution control in hydrocarbon combustion Numerical study of natural convection between two concentric ellipses with different shapes and imposed temperatures Theoretical study of the geometrical parameters effect on the behavior of a solar chimney power plant Numerical investigations of the effect of packed bed porosity on the flow behavior Comparison between a conventional and a four-stage Savonius wind rotor The presented case studies and development approaches aim to provide readers with basic and applied information broadly related to mechanical engineering and technology.
Responding to the need for an integrated approach in manufacturing engineering oriented toward practical problem solving, this updated second edition describes a process morphology based on fundamental elements that can be applied to all manufacturing methods - providing a framework for classifying processes into major families with a common theoretical foundation. This work presents time-saving summaries of the various processing methods in data sheet form - permitting quick surveys for the production of specific components.;Delineating the actual level of computer applications in manufacturing, this work: creates the basis for synthesizing process development, tool and die design, and the design of production machinery; details the product life-cycle approach in manufacturing, emphasizing environmental, occupational health and resource impact consequences; introduces process planning and scheduling as an important part of industrial manufacturing; contains a completely revised and expanded section on ceramics and composites; furnishes new information on welding arc formation and maintenance; addresses the issue of industrial safety; and discusses progress in non-conventional processes such as laser processing, layer manufacturing, electrical discharge, electron beam, abrasive jet, ultrasonic and eltrochemical machining.;Revealing how manufacturing methods are adapted in industry practices, this work is intended for use by students of manufacturing engineering, industrial engineering and engineering design; and also for use as a self-study guide by manufacturing, mechanical, materials, industrial and design engineers.
A Comprehensive Manual for the FE Industrial CBT Exam Brightwood Engineering Education's Industrial Engineering: FE Review Manual contains a variety of practice problems and step-by-step solutions that provide you with a complete and thorough review of the Fundamentals of Engineering (FE) Industrial CBT exam topics. Topics Covered Engineering Economics Engineering Science Ethics and Business Practices Facilities and Logistics Human Factors, Ergonomics, and Safety Industrial Management Manufacturing, Production, and Service Systems Mathematics Modeling and Computation Probability and Statistics Quality Systems Engineering Work Design Key Features 100+ practice problems with step-by-step solutions Contains conventional English and SI units Binding: Paperback Publisher: PPI, A Kaplan Company
In the 1950’s, the design and implementation of the Toyota Production System (TPS) within Toyota had begun. In the 1960’s, Group Technology (GT) and Cellular Manufacturing (CM) were used by Serck Audco Valves, a high-mix low-volume (HMLV) manufacturer in the United Kingdom, to guide enterprise-wide transformation. In 1996, the publication of the book Lean Thinking introduced the entire world to Lean. Job Shop Lean integrates Lean with GT and CM by using the five Principles of Lean to guide its implementation: (1) identify value, (2) map the value stream, (3) create flow, (4) establish pull, and (5) seek perfection. Unfortunately, the tools typically used to implement the Principles of Lean are incapable of solving the three Industrial Engineering problems that HMLV manufacturers face when implementing Lean: (1) finding the product families in a product mix with hundreds of different products, (2) designing a flexible factory layout that "fits" hundreds of different product routings, and (3) scheduling a multi-product multi-machine production system subject to finite capacity constraints. Based on the Author’s 20+ years of learning, teaching, researching, and implementing Job Shop Lean since 1999, this book Describes the concepts, tools, software, implementation methodology, and barriers to successful implementation of Lean in HMLV production systems Utilizes Production Flow Analysis instead of Value Stream Mapping to eliminate waste in different levels of any HMLV manufacturing enterprise Solves the three Industrial Engineering problems that were mentioned earlier using software like PFAST (Production Flow Analysis and Simplification Toolkit), Sgetti and Schedlyzer Explains how the one-at-a-time implementation of manufacturing cells constitutes a long-term strategy for Continuous Improvement Explains how product families and manufacturing cells are the basis for implementing flexible automation, machine monitoring, virtual cells, Manufacturing Execution Systems, and other elements of Industry 4.0 Teaches a new method, Value Network Mapping, to visualize large multi-product multi-machine production systems whose Value Streams share many processes Includes real success stories of Job Shop Lean implementation in a variety of production systems such as a forge shop, a machine shop, a fabrication facility and a shipping department Encourages any HMLV manufacturer planning to implement Job Shop Lean to leverage the co-curricular and extracurricular programs of an Industrial Engineering department
Unrivaled coverage of a broad spectrum of industrial engineering concepts and applicationsThe Handbook of Industrial Engineering, Third Edition contains a vast array of timely and useful methodologies for achieving increased productivity, quality, and competitiveness and improving the quality of working life in manufacturing and service industries. This astoundingly comprehensive resource, now available in a three-volume set, also provides a cohesive structure to the discipline of industrial engineering with four major classifications: technology; performance improvement management; management, planning, and design control; and decision-making methods. Completely updated and expanded to reflect nearly a decade of important developments in the field, this Third Edition features a wealth of new information on project management, supply-chain management and logistics, and systems related to service industries. Other important features of this essential reference include: More than 1,000 helpful tables, graphs, figures, and formulas Step-by-step descriptions of hundreds of problem-solving methodologiesHundreds of clear, easy-to-follow application examples Contributions from 176 accomplished international professionals with diverse training and affiliations More than 4,000 citations for further readingVolume 1 includes the list of advisory board members, the contributors, Foreword by John Powers, Preface by Gavriel Salvendy, the table of contents, Section 1: Industrial Engineering Function and Skills, and Section II: Technology. Volume 2 includes Section III: Performance Improvement Management and Section IV: Management, Planning, Design, and Control.Volume 3 includes Section V: Methods for Decision Making and the comprehensive Author and Subject Index.The Handbook of Industrial Engineering, Third Edition is an immensely useful one-stop resource for industrial engineers and technical support personnel in corporations of any size; continuous process and discrete part manufacturing industries; and all types of service industries, from healthcare to hospitality, and from retailing to finance.