Experimental And Computational Methods For Strength Analyses Of Gears
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Experimental and Computational Methods for Strength Analyses of Gears
Author: Srečko Glodež
language: en
Publisher: Cambridge Scholars Publishing
Release Date: 2024-01-24
Gears are machine elements used in most engineering applications, mainly in the automotive and aerospace industries. When designing gear drives, the available standardised procedures are usually used for that purpose. However, the available computational methods are also often applied to obtain the load capacity of gears considering different fatigue design approaches (i.e. the stress-life approach, the strain-life approach and the fatigue crack growth approach). This book consists of five chapters. The first chapter introduces the reader to the fundamental magnitudes of gear drives concerning cylindrical gear pairs, bevel gear pairs, and worm gear pairs. The second chapter explains the theoretical background of the load capacity of gears; surface pitting load capacity and tooth root load capacity are described in detail. The third chapter focuses on the strength analyses of metal gears. Chapters four and five describe the strength analyses of sintered and polymer gears, including some typical practical examples.
Experimental and Computational Methods for Strength Analyses of Gears
Gears are machine elements used in most engineering applications, mainly in the automotive and aerospace industries. When designing gear drives, the available standardised procedures are usually used for that purpose. However, the available computational methods are also often applied to obtain the load capacity of gears considering different fatigue design approaches (i.e. the stress-life approach, the strain-life approach and the fatigue crack growth approac.
Progress in Structural Engineering, Mechanics and Computation
The Second International Conference on Structural Engineering Mechanics and Computation was held in Cape Town, South Africa in 2004. Its mission was 'To review and share the latest developments, and address the challenges that the present and the future pose'. This book contains its key findings with contributions from academics, researchers and practitioners in the broad fields of structural mechanics, associated computation and structural engineering. Their work builds a clear picture of recent achievements in the advancement of knowledge and understanding in these areas. This text therefore covers all aspects of structural mechanics and is broken down into 36 sections which communicate the latest discoveries and developments across the following areas: * vibration, dynamics, impact response, soil-structure interaction and damage mechanics * numerical modeling and computational methods * practical aspects of the analysis, design, and construction of structures - Specific classes of structures such as shells, plates, frames, bridges, buildings, lightweight structures, space structures and foundation structures * a variety of construction materials ranging from the traditional timber, masonry, concrete, steel and glass, to recent innovations encompassing high-performance composites, ceramics, high-strength concrete, fibre-reinforced concrete, stainless steel and smart alloys. The large number of high-quality papers presented and the wide spectrum of relevant topics covered, as well as the great diversity of nationalities represented by the participants, bring the reader up to speed with developments on a global scale.