For predefined materials, the SN curve is already available in ANSYS. For custom materials, the SN curve needs to be defined in the material information.
According to the body which shows the plan of the foot step bearing, when doing assembly drawing of it are we supposed to draw the full diagram or sectional
We should draw the full diagram, but we can convert the drawing into a sectional view. This helps in clearly showing the internal features and components, which are crucial for understanding the assembly and function of the bearing.
How do u know T3 and T4 is facing which direction (ur T3 n T4 is facing left direction which means T3 n T4 it's going down) or it's bcz we following the direction of weighing of pulley Design n6 from college
Sir help me I'm lost im Calculation of Forces acting on Pinion (P) wen we ar drawing forces I don't understand why is Big circle being called driving gear and sometimes is Driven Gear ,im lost 😐 i only know that if we came a cross 2 gears meshing The bigger 1 is Driven and smaller one is driver
It's not about the size of the gear. In the question, if it is stated that "the shaft or gear receives power," it means it is a driven gear. If it is stated that "the shaft or gear delivers power," it means it is a driving gear.
It's not about the size of the gear. In the question, if it is stated that "the shaft or gear receives power," it means it is a driven gear. If it is stated that "the shaft or gear delivers power," it means it is a driving gear.
In this problem, we are considering the maximum load-carrying capacity (P) of the plate to design the weld. There are two parts: first, calculating the load-carrying capacity of the plate, and second, determining the size of the weld. We will transfer the value of P to the second step.
Hi, Thanks for the video. I have a brief question, the stress simulated, is higuer than the maximum allowed by ASME. How can I show my results? Thanks for your kind response
First, if you want to reduce the stress, altering the geometry of the component can significantly reduce stress concentrations. This can be achieved by adding fillets to sharp corners, increasing the cross-sectional area, or redesigning the component to distribute loads more evenly. Additionally, increasing the thickness of parts where high stress is observed can help distribute the load over a larger area, thereby reducing stress. Also, using materials with higher yield strength can help the component withstand higher stresses without deforming or failing. If it is not possible to make these changes, present the results as they are and conclude that the design will fail under the given conditions. Additionally, suggest ways to mitigate the high stress levels, such as adding supports or braces, and using high strength materials.
Hello, can you tell me if springs with the same K and different diameters have different speeds? Example; a spring with a diameter of 50mm with a total length of 500mm, assuming that it would have a rate of 0.500 kgf/mm and another spring with the same K and the same length but with a diameter of 60mm would have different speeds. If you compress both and release, would the speed be the same or would one extend faster than the other? This is my question, if you can help I would appreciate it. Thanks.
If two springs have the same spring constant (k) and are compressed by the same amount, they will exert the same force. However, the speed at which each spring extends might still vary slightly due to factors such as mass and diameter. Typically, a spring with a larger diameter, having more mass, might extend slightly slower than a narrower spring.
Hello, can you tell me if springs with the same K and different diameters have different speeds? Example; a spring with a diameter of 50mm with a total length of 500mm, assuming that it would have a rate of 0.500 kgf/mm and another spring with the same K and the same length but with a diameter of 60mm would have different speeds. If you compress both and release, would the speed be the same or would one extend faster than the other? This is my question, if you can help I would appreciate it. Thanks.
If two springs have the same spring constant (k) and are compressed by the same amount, they will exert the same force. However, the speed at which each spring extends might still vary slightly due to factors such as mass and diameter. Typically, a spring with a larger diameter, having more mass, might extend slightly slower than a narrower spring.
Thank you for sharing tutorials! It is so helpful for me. But, I have a question, 3:32 How can I choose only surface or line not geometry? I wanna choose inside surface not all body... and the scoping method is Geometry Selection. so can I choose only geometry(= full body?) Thank you for your cooperation!!
Hello sir, I watched your videos. Please, can you explain the Ansys Workbench watertight geometry workflow meshing and boundary condition settings for the Double Pipe Heat Exchanger.
