| Design of Hardened Structures, Principles and Practices |
| This manual by original intent does not attempt to extend the theoretical frontiers per se. Rather, the intent is to select and apply existing theory and procedures so that the result is based upon the best available knowledge. The manual, therefore, draws liberally from the referenced sources. In some few cases (which are noted) portions of references were felt to be precisely suited to the discussion and are therefore included. |
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| Rolling Element Bearings Analysis |
| Rolling-element bearings are a precision, yet simple, machine element of great utility. In this report we draw together the current understanding of rolling-element bearings. |
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| Bearings and Their Lubrication |
| The tendency of modern machine design in many fields is toward the use of high speed shafts and spindles and friction reducing forms of bearings. Therefore the present seems a peculiarly fitting time to present these data with the purpose of making them permanently useful to engineers, designers, draftsmen and machinists; in fact to any one who is interested in any way with machinery bearings and their proper lubrication and care. |
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| Design of Aerostatic Bearings |
| Aerostatic bearings have now become firmly established in such applications as precision grinding, micro hole drilling and a variety of instruments such as roundness measuring machines and turbine flowmeters for gases. They are being tried in an ever-increasing range of applications in machine tools, textile spindles and turbo-machinery. |
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| Fundamentals of Machine Design |
| This practical course book has been designed and written to support the learning process in the Fundamentals of Machine Design course. It is therefore limited and dedicated to topics included in the syllabus of the course only. The arrangement of lectures is also governed by assignments offered concurrently in the design class and experiments conducted in the laboratory. |
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| Vector Mechanics for Engineers , Statics and Dynamics |
| Mechanics can be defined as that science which describes and predicts the conditions of rest or motion of bodies under the action of forces. It is divided into three parts: mechanics of rigid bodies, mechanics of deformable bodies, and mechanics of fluids. |
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