November 1, 2018 at 3:26 pmfmp123Subscriberwe working on the crack initiation in gear, we have rpm on one mating gear and another has moment, we know both the values but the problem is arising in calculating the load acting at the location of actual contact, in the given figure -1 we need "P", we have formula for half contact width and maximum stress , we need load per unit length or total load for calculation. for that, we divided the moment by pitch circle radius to get the force but the results were not matching. we know stress variation along the depth from the gear tooth surface, the maximum stress is going to be at some depth from the surface and that is the spot where most likely the crack is going to initiate. just we need the value of load at the actual point of contact of gear teeth.
all the figures are for better understanding we need the load at the point of gear meshing.
- You must be logged in to reply to this topic.
Earth Rescue – An Ansys Online Series
The climate crisis is here. But so is the human ingenuity to fight it. Earth Rescue reveals what visionary companies are doing today to engineer radical new ideas in the fight against climate change. Click here to watch the first episode.
Subscribe to the Ansys Blog to get great new content about the power of simulation delivered right to your email on a weekly basis. With content from Ansys experts, partners and customers you will learn about product development advances, thought leadership and trends and tips to better use Ansys tools. Sign up here.
- Saving & sharing of Working project files in .wbpz format
- An Unknown error occurred during solution. Check the Solver Output…..
- Understanding Force Convergence Solution Output
- Solver Pivot Warning in Beam Element Model
- Colors and Mesh Display
- How to calculate the residual stress on a coating by Vickers indentation?
- whether have the difference between using contact and target bodies
- What is the difference between bonded contact region and fixed joint
- The solver engine was unable to converge on a solution for the nonlinear problem as constrained.
- User manual
© 2023 Copyright ANSYS, Inc. All rights reserved.