03393nam 22004333 450 991098335300332120241210080222.09783031747984(electronic bk.)9783031747977(MiAaPQ)EBC31821767(Au-PeEL)EBL31821767(CKB)36840817600041(OCoLC)1477999158(BIP)119413101(BIP)116596358(EXLCZ)993684081760004120241210d2025 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierGear Accuracy A Treatise on Gear Noise Excitation, Vibration Generation, and Dynamics of Operation1st ed.Cham :Springer,2025.©2025.1 online resource (377 pages)Mechanical Engineering SeriesPrint version: Radzevich, Stephen P. Gear Accuracy Cham : Springer,c2025 9783031747977 This book provides a comprehensive profile the range of developments in gear science and gear engineering mainly those related to noise emission and vibration generation.  The problem of noise emission and vibration generation is a challenging one.  This scientific and engineering problem requires efforts of gear experts of different areas, and it got no satisfactory solution yet. Gear experts of different countries (USA, Israel, Poland, and Ukraine) have contributed to this volume.  The latest accomplishments in scientific theory of gearing, gear design, production, inspection, and application are covered by this volume.  The readers' attention is focused mainly on the achievements in the field that lead to a significant reduction of gear noise excitation and vibration generation in gearing of all designs, namely, in parallel-axes gearing, in intersected-axes gearing, and in crossed-axes gearing.  The concept of geometrically-accurate gearing (parallel-axes gearing, intersected-axes gearing, and crossed-axes gearing) is lays in the foundation of the undertaken research on gear noise emission and vibration generation. To the best possible extent, the kinematical and geometrical components of the problem under consideration are outlined at the beginning of this volume of the book when the accuracy of gears are discussed.  The illustration of the various aspects of the problem is provided in the rest sections of the book volume.  In particular, the readers' attention is focused here also on the key problems, the poor knowledge of the scientific theory of gearing may lead to.  This latter issue arouses even in leading gear manufacturing companies. The bottom line is as follows: In order to succeed in solving the noise excitation, and the vibration generation problem in gearing, high level of proficiency in the scientific theory of gearing is a must, as this theory provides the user with an in-depth understanding of meshing of the gear teeth, as well as with powerful tools to solve gear problems of this sort in cases when something goes wrong.Mechanical Engineering Series621.833Radzevich S. P(Stepan Pavlovich)985053MiAaPQMiAaPQMiAaPQ9910983353003321Gear Accuracy4526782UNINA