Computerized Design And Stress Analysis Of Spiral Bevel Gears With Geodetic Path Of Contact
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Computerized Design, Generation, and Simulation of Meshing and Contact of Face-Milled Formate Cut Spiral Bevel Gears
| Author | : |
| Publisher | : |
| Total Pages | : 60 |
| Release | : 2001 |
| Genre | : |
| ISBN | : |
A new approach for design, generation, and computerized simulation of meshing and contact of face-milled, formate cut spiral bevel gears is presented. The purpose is to develop a low noise, stabilized bearing contact for this type of gear drives. The approach proposed is based on application of three procedures that permit in sequence, to provide a longitudinally directed bearing contact, a predesigned parabolic function of transmission errors and limit the shift of bearing contact caused by errors of alignment. The theory developed is illustrated with an example of design and computation.
Design and Stress Analysis of Low-Noise Adjusted Bearing Contact Spiral Bevel Gears
| Author | : National Aeronautics and Space Adm Nasa |
| Publisher | : |
| Total Pages | : 34 |
| Release | : 2018-09-14 |
| Genre | : |
| ISBN | : 9781723718908 |
An integrated computerized approach for design and stress analysis of low-noise spiral bevel gear drives with adjusted bearing contact has been developed. The computation procedure is an iterative process, requiring four separate steps that provide: (a) a parabolic function of transmission errors that is able to reduce the effect of errors of alignment, and (b) reduction of the shift of bearing contact caused by misalignment. Application of finite element analysis permits the contact and bending stresses to be determined and investigate the formation of the bearing contact. The design of finite element models and boundary conditions is automated and does not require an intermediate CAD computer program. A commercially available finite element analysis computer program with contact capability was used to conduct the stress analysis. The theory developed is illustrated with numerical examples.Litvin, Faydor L. and Fuentes, Alfonso and Mullins, Baxter R. and Woods, RonGlenn Research CenterLOW NOISE; SPIRAL BEVEL GEARS; STRESS ANALYSIS; DESIGN ANALYSIS; MECHANICAL DRIVES; MATHEMATICAL MODELS; BEARINGS; BENDING FATIGUE; BOUNDARY CONDITIONS; MISALIGNMENT; FINITE ELEMENT METHOD; COMPUTER PROGRAMS...
Computerized Design, Generation, Simulation of Meshing and Contact, and Stress Analysis of Formate Cut Spiral Bevel Gear Drives
| Author | : |
| Publisher | : |
| Total Pages | : 60 |
| Release | : 2003 |
| Genre | : |
| ISBN | : |
A new approach for design, generation, computerized simulation of meshing and contact, and stress analysis of formate cut spiral bevel gear drives is reported. The approach proposed is based on application of four procedures that permit in sequence to provide a longitudinally directed bearing contact, a predesigned parabolic function of transmission errors, a limit to the shift of bearing contact caused by errors of alignment, and to automatically generate the finite element models for application of a general purpose finite element analysis computer program. A new computer program has been developed that provides optimized machine-tool settings for finishing of spiral bevel gears utilizing the "Formate" grinding process with minimized transmission errors. The new computer program is based on the four procedures mentioned above. The developed theory is illustrated with several examples of design and computations.
Enhanced Computer Aided Simulation of Meshing and Contact with Application for Spiral Bevel Gear Drives
| Author | : |
| Publisher | : |
| Total Pages | : 26 |
| Release | : 1999 |
| Genre | : |
| ISBN | : |
An integrated tooth contact analysis (TCA) computer program for the simulation of meshing and contact of gear drives that calculates transmission errors and shift of hearing contact for misaligned gear drives has been developed. The computer program combines numerical solutions for the problems above and their graphical interpretation. The program is applicable for various gear drives but requires derivation of tooth surface equations for each gear drive type. The computer program represents a set of integrated operations such as the development of required algorithms database storage copying, deleting printing and design correction from the database. The computer program uses the Java programming language. An example for a spiral bevel gear drive is presented.
Gears
| Author | : Vincenzo Vullo |
| Publisher | : Springer Nature |
| Total Pages | : 691 |
| Release | : 2020-02-21 |
| Genre | : Technology & Engineering |
| ISBN | : 3030386325 |
This book explores the geometric and kinematic design of the various types of gears most commonly used in practical applications, also considering the problems concerning their cutting processes. The cylindrical spur and helical gears are first considered, determining their main geometric quantities in the light of interference and undercut problems, as well as the related kinematic parameters. Particular attention is paid to the profile shift of these types of gears either generated by rack-type cutter or by pinion-rack cutter. Among other things, profile-shifted toothing allows to obtain teeth shapes capable of greater strength and more balanced specific sliding, as well as to reduce the number of teeth below the minimum one to avoid the operating interference or undercut. These very important aspects of geometric-kinematic design of cylindrical spur and helical gears are then generalized and extended to the other examined types of gears most commonly used in practical applications, such as straight bevel gears; crossed helical gears; worm gears; spiral bevel and hypoid gears. Finally, ordinary gear trains, planetary gear trains and face gear drives are discussed. This is the most advanced reference guide to the state of the art in gear engineering. Topics are addressed from a theoretical standpoint, but in such a way as not to lose sight of the physical phenomena that characterize the various types of gears which are examined. The analytical and numerical solutions are formulated so as to be of interest not only to academics, but also to designers who deal with actual engineering problems concerning the gears
Bevel Gear
| Author | : Jan Klingelnberg |
| Publisher | : Springer |
| Total Pages | : 358 |
| Release | : 2016-03-25 |
| Genre | : Technology & Engineering |
| ISBN | : 3662438933 |
This is the first book to offer a complete presentation of bevel gears. An expert team of authors highlights the areas of application for these machine elements and presents the geometrical features of bevel gears as well as the various gear cutting processes based on gear cutting theory. The aspect of three-dimensional gearing is assessed in detail in terms of flank design, load capacity and noise behavior. A representation of production processes with the required technologies provides a knowledge base on which sound decisions can be based. The authors offer a thorough introduction to the complex world of bevel gears and present the rapid advances of these machine elements in a detailed, comprehensible manner. This book addresses design engineers in mechanical engineering and vehicle manufacturing, as well as producers of bevel gears and students in mechanical engineering.
Gears
| Author | : Vincenzo Vullo |
| Publisher | : Springer Nature |
| Total Pages | : 880 |
| Release | : 2020-01-24 |
| Genre | : Technology & Engineering |
| ISBN | : 3030365026 |
The book explores the geometric and kinematic design of the various types of gears most commonly used in practical applications, also considering the problems concerning their cutting processes. The cylindrical spur and helical gears are first considered, determining their main geometric quantities in the light of interference and undercut problems, as well as the related kinematic parameters. Particular attention is paid to the profile shift of these types of gears either generated by rack-type cutter or by pinion-rack cutter. Among other things, profile-shifted toothing allows to obtain teeth shapes capable of greater strength and more balanced specific sliding, as well as to reduce the number of teeth below the minimum one to avoid the operating interference or undercut. These very important aspects of geometric-kinematic design of cylindrical spur and helical gears are then generalized and extended to the other examined types of gears most commonly used in practical applications, such as: straight bevel gears; crossed helical gears; worm gears; spiral bevel and hypoid gears. Finally, ordinary gear trains, planetary gear trains and face gear drives are discussed. Includes fully-developed exercises to draw the reader's attention to the problems that are of interest to the designer, as well as to clarify the calculation procedure Topics are addressed from a theoretical standpoint, but in such a way as not to lose sight of the physical phenomena that characterize the various types of gears which are examined The analytical and numerical solutions are formulated so as to be of interest not only to academics, but also to designers who deal with actual engineering problems concerning the gears
