Course Description
Format: Live Online Virtual Training
Date: January 30, 2025
- Thursday, January 30 – 12:00-4:00pm ET
Reg. Deadline: January 22, 2025
Registration Rates
Member
Early Bird*/Standard
$350/$375
Non-Member
Early Bird*/Standard
*Rate ends 12/19/24
$450/$475
Loaded Tooth Contact Analysis
Evaluation of loaded tooth contact and development of tooth modifications using commercially available software to improve and apply a realistic load distribution factor Km in gear rating calculations and reduce transmission error. Two real life gearing examples will be reviewed in the course, one will have a cantilever mounted pinion, the other a shaft pinion straddled non-symmetrically by bearings. Both examples demonstrate component deflections under load which significantly reduce tooth mesh contact which is then corrected with developed helix and profile modifications. Other gear performance optimization tools will also be presented, Material and Heat Treatment Selection, Profile Shift, Isotropic Finishing, Shot Peening, Accuracy. These design tools along with LTCA are commonly applied by gear designers to optimize design reliability and calculated rating safety factors.
This course is online. A webcam on your computer equipped with a microphone and speakers/headset are required for participation. Space is limited to 20-25 participants per course. Course materials will be mailed in hard copy. Please make sure to indicate your preferred mailing address in the registration process.
How Many CEUs Will I Earn?
As an IACET-accredited provider, AGMA offers 0.3 CEUs for this class.
Learning Objectives
- Identify the need for Loaded Tooth Contact Analysis and describe the theory behind the contact analysis process
- Model the loaded gear mesh shafts, bearings and gear geometry in commercially available dedicated gearing โFEAโ software to calculate magnitude and direction of tooth deflections and deformations.
- Develop and apply tooth profile and helix modifications that compensate for tooth, shaft and bearing deflections, reducing transmission error and optimizing power density
- Describe the tools and processes of contact analysis
- Review cantilever pinion example of contact analysis and corrective action
- Review non-symmetrical bearing mounted shaft pinion example of contact analysis and corrective action
- Present contact analysis Doโs and Donโts
- Review other gear performance optimization tools
Instructors
TERRY KLAVES
Terry Klaves semi-retired from the Milwaukee Gear Division of Regal Beloit in 2017 after 45 years of work in the gearing industry with four different companies, positions varying from gear engineer to VP of Engineering and responsibilities including gear design, optimization, manufacturing and Quality Assurance. He has a passion for solving gearing related problems and continues to serve the gearing industry as part time consultant and trainer for AGMA, in addition, he is Chairman of the AGMA TC-60 Committee, contributing to development of ISO gearing standards. Terry graduated with a BS-Engineering in 1976 and a MS-Engineering from UW-Milwaukee in 1981 and enjoys sharing his knowledge and passion for gears through formal consulting and training activities.
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