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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.
Machines, devices, and systems that have touched our lives, both intimately and for the public good, are often unheralded inventions that we take for granted or never even see. Fortunately, they claim landmark recognition by the American Society of Mechanical Engineers, which now makes these engineering marvels accessible to teachers and students, travelers, researchers, and the curious. The 135 historic mechanical engineering landmarks in this book represent the accomplishments of mechanical engineers over the past 250 years - from the steam engine of Thomas Newcomen (1712), which launched the Industrial Revolution, to the Saturn V rocket (1967). This roster of landmarks tells a magnificent story of people and places and of innovation and discovery.
Strength of materials is that branch of engineering concerned with the deformation and disruption of solids when forces other than changes in position or equilibrium are acting upon them. The development of our understanding of the strength of materials has enabled engineers to establish the forces which can safely be imposed on structure or components, or to choose materials appropriate to the necessary dimensions of structures and components which have to withstand given loads without suffering effects deleterious to their proper functioning. This excellent historical survey of the strength of materials with many references to the theories of elasticity and structures is based on an extensive series of lectures delivered by the author at Stanford University, Palo Alto, California. Timoshenko explores the early roots of the discipline from the great monuments and pyramids of ancient Egypt through the temples, roads, and fortifications of ancient Greece and Rome. The author fixes the formal beginning of the modern science of the strength of materials with the publications of Galileo's book, "Two Sciences," and traces the rise and development as well as industrial and commercial applications of the fledgling science from the seventeenth century through the twentieth century. Timoshenko fleshes out the bare bones of mathematical theory with lucid demonstrations of important equations and brief biographies of highly influential mathematicians, including: Euler, Lagrange, Navier, Thomas Young, Saint-Venant, Franz Neumann, Maxwell, Kelvin, Rayleigh, Klein, Prandtl, and many others. These theories, equations, and biographies are further enhanced by clear discussions of the development of engineering and engineering education in Italy, France, Germany, England, and elsewhere. 245 figures.
This book describes approximately 50 engineering accomplishments -- a number of which were subsequently designated historic mechanical engineering landmarks. This book can serve as an entry guide into the remarkable engineering achievements that occurred in the greater Milwaukee area from the late 1800s until the early 1900s, much of which centered around Milwaukee's Menomonee River Valley.
This updated and enlarged Second Edition provides in-depth, progressive studies of kinematic mechanisms and offers novel, simplified methods of solving typical problems that arise in mechanisms synthesis and analysis - concentrating on the use of algebra and trigonometry and minimizing the need for calculus.;It continues to furnish complete coverag
One hundred years ago, in September 1888, Professor Lewis Mills Norton (1855-1893) of the Chemistry Department of the Massachusetts Institute of Technology introduced to the curriculum a course on industrial chemical practice. This was the first structured course in chemical engineer ing taught in a University. Ten years later, Norton's successor Frank H. Thorpe published the first textbook in chemical engineering, entitled "Outlines of Industrial Chemistry." Over the years, chemical engineering developed from a simple industrial chemical analysis of processes into a mature field. The volume presented here includes most of the commissioned and contributed papers presented at the American Chemical Society Symposium celebrating the centenary of chemical engineering. The contributions are presented in a logical way, starting first with the history of chemical engineering, followed by analyses of various fields of chemical engineering and concluding with the history of various U.S. and European Departments of Chemical Engineering. I wish to thank the authors of the contributions/chapters of this volume for their enthusiastic response to my idea of publishing this volume and Dr. Gianni Astarita of the University of Naples, Italy, for his encouragement during the initial stages of this project.
The Classic Edition of Shigley & Mischke, Mechanical Engineering Design 5/e provides readers the opportunity to use this well-respected version of the bestselling textbook in Machine Design. Originally published in 1989, MED 5/e provides a balanced overview of machine element design, and the background methods and mechanics principles needed to do proper analysis and design. Content-wise the book remains unchanged from the latest reprint of the original 5th edition. Instructors teaching a course and needing problem solutions can contact McGraw-Hill Account Management for a copy of the Instructor Solutions Manual.