Mechanical Engineer's Reference Book


Book Description

Mechanical Engineer's Reference Book, 12th Edition is a 19-chapter text that covers the basic principles of mechanical engineering. The first chapters discuss the principles of mechanical engineering, electrical and electronics, microprocessors, instrumentation, and control. The succeeding chapters deal with the applications of computers and computer-integrated engineering systems; the design standards; and materials' properties and selection. Considerable chapters are devoted to other basic knowledge in mechanical engineering, including solid mechanics, tribology, power units and transmission, fuels and combustion, and alternative energy sources. The remaining chapters explore other engineering fields related to mechanical engineering, including nuclear, offshore, and plant engineering. These chapters also cover the topics of manufacturing methods, engineering mathematics, health and safety, and units of measurements. This book will be of great value to mechanical engineers.




Newnes Mechanical Engineer's Pocket Book


Book Description

Newnes Mechanical Engineer's Pocket Book is an easy to use pocket book intended to aid mechanical engineers engaged in design and manufacture and others who require a quick, day-to-day reference for useful workshop information. The book is a compilation of useful data, providing abstracts of many technical materials in various technical areas. The text is divided into five main parts: Engineering Mathematics and Science, Engineering Design Data, Engineering Materials, Computer Aided Engineering, and Cutting Tools. These main sections are further subdivided into topic areas that discuss such topics as engineering mathematics, power transmission and fasteners, mechanical properties, and polymeric materials. Mechanical engineers and those into mechanical design and shop work will find the book very useful.




Mechanical Engineer's Reference Book


Book Description

Intended for technologists and management personnel in mechanical, chemical and production engineering. Experts in each field have written overviews in their areas which are supported by tabular information. Extensive bibliographies included with each section. Indexed. Published in 1973.




Rules of Thumb for Mechanical Engineers


Book Description

Fluids -- Heat transfer -- Thermodynamics -- Mechanical seals -- Pumps and compressors -- Drivers -- Gears -- Bearings -- Piping and pressure vessels -- Tribology -- Vibration -- Materials -- Stress and strain -- Fatigue -- Instrumentation -- Engineering economics.




Engineer This 2


Book Description

Turn trash into invention and sharpen your engineering eye with these 10 hands-on engineering projects. Using recycled and easy-to-find materials, engineer your own hydro rocket, propeller boat, Ferris wheel, and other completely functional machines. Explore amazing scientific concepts, such as potential, kinetic, and electrical energy; principles of flight; weights and balances; pulleys and levers; laws of motion; and more. Each project includes step-by-step instructions, full-color photos, exciting facts, safety tips, and extended engineering and science activities for further discovery.




A Career in Mechanical Engineering


Book Description

A mechanical engineer has a wide breadth of opportunities including designing the latest vehicles, improving manufacturing processes, and creating prosthetic limbs. Mechanical engineers are involved in products and systems from design to implementation. What the job entails, what it pays, and future prospects are discussed along with insights from industry insiders.




A History of Mechanical Engineering


Book Description

This book explores the history of mechanical engineering since the Bronze Age. Focusing on machinery inventions and the development of mechanical technology, it also discusses the machinery industry and modern mechanical education. The evolution of machinery is divided into three stages: Ancient (before the European Renaissance), Modern (mainly including the two Industrial Revolutions) and Contemporary (since the Revolution in Physics, especially post Second World War). The book not only clarifies the development of mechanical engineering, but also reveals the driving forces behind it – e.g. the economy, national defense and human scientific research activities – to highlight the links between technology and society; mechanical engineering and the natural sciences; and mechanical engineering and related technological areas. Though mainly intended as a textbook or supplemental reading for graduate students, the book also offers a unique resource for researchers and engineers in mechanical engineering who wish to broaden their horizons.







Chronicles of Mechanical Engineering in the United States


Book Description

One of the leading contributors of historical articles to ME over the past fifty years was Fritz Hirschfeld. In preparation for the United States' bicentennial year in 1976, the editors of Mechanical Engineering contracted with engineer-historian Hirschfeld for a series of articles on the county's early engineering history. Just a few years later, as the Society was nearing its centennial in 1880, the editors again turned to Hirschfeld and asked him to write a series of articles about the founding of ASME and important early mechanical engineers. Hirschfeld's articles, collected here, provide the foundation for the early portion of this volume. Building upon Hirschfeld's foundation, we selected a wide assortment of other articles about aspects of mechanical engineering history in the United States from the Revolutionary War until recent times. We largely limited our selections to those articles published in Mechanical Engineering magazine during the last fifty years (i.e., 1971-2021). Even for this period, the volume does not include all such articles due to limitations in length and editorial judgments. For instance, some articles duplicated coverage of specific events or innovations. In such cases we picked what we deemed the best, or most comprehensive of overlapping articles. We also decided to focus this volume on the history of mechanical engineering in America. We thus excluded articles on historical developments largely occurring outside the United States. At some future time, we may "harvest" both pre-1971 ME articles and unselected post-1971 articles, as well as articles focusing on non-American mechanical engineering achievements, for a separate collection or collections. Of the more than seventy articles collected in this volume, well over ninety per cent were drawn from issues of ME published during the past fifty years. Five pieces, however, were drawn from outside that chronological limit or from other sources. We have, for example, included a 1933 biographical article from ME about American engineer George H. Corliss. Corliss's innovations in the design and manufacture of steam engines and related devices helped establish the United States as a major player in the manufacture of prime movers. Corliss was considered by his contemporaries to be such a significant figure in mechanical engineering circles in the United States that we elected to include him. He was, after all, asked to serve as the first president of ASME-an offer which he declined. A second exception is another biographical article, one on Edwin Reynolds, a significant steam engine designer. It was authored by Thomas Fehring, one of the editors of this volume. Reynolds worked for a time for the Corliss Steam Engine Company, as did other notable American engineers such as Erasmus Darwin Leavitt (second president of ASME) and Alexander L. Holley (one of the founders of the Society), before moving to Allis-Chalmers. Reynolds made significant improvements in steam engine design. He was president of ASME in 1902-03, and three of his steam engines have been designated as Historic Mechanical Engineering Landmarks by the Society.




Mechanical Engineers Handbook


Book Description