Talk:RC rock crawler truck
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(New page: ==Client comments on the Mechanical Analysis== This well-performed mechanical analysis mainly focuses on the gearbox design of the RC truck. As a client, I would like to see the team do a...) |
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==Client comments on the Mechanical Analysis== | ==Client comments on the Mechanical Analysis== | ||
| - | This well-performed mechanical analysis mainly focuses on the gearbox design of the RC truck. As a client, I would like to see the team do an optional analysis. It is to predict the steepest slope that this RC truck can climb (maximum gradability). The value can be simply calculated by using the output torque to wheel, wheel radius, vehicle weight and an assumed friction coefficient between the wheels and the ground. | + | This well-performed mechanical analysis mainly focuses on the gearbox design of the RC truck. My comments are in follows: |
| + | *Please clearly state the assumptions for the mechanical analysis. | ||
| + | *As a client, I would like to see the team do an optional analysis. It is to predict the steepest slope that this RC truck can climb (maximum gradability). The value can be simply calculated by using the output torque to wheel, wheel radius, vehicle weight and an assumed friction coefficient between the wheels and the ground. | ||
Revision as of 16:31, 28 September 2008
Client comments on the Mechanical Analysis
This well-performed mechanical analysis mainly focuses on the gearbox design of the RC truck. My comments are in follows:
- Please clearly state the assumptions for the mechanical analysis.
- As a client, I would like to see the team do an optional analysis. It is to predict the steepest slope that this RC truck can climb (maximum gradability). The value can be simply calculated by using the output torque to wheel, wheel radius, vehicle weight and an assumed friction coefficient between the wheels and the ground.
