right single shear situation
method
determine the force acting on the bolt, divide this by the area of the bolt to get the shear stress that will be acting in the bolt.
now determine a bolt class to use 8.8 12.9 etc, take the tensile yield stress, now 60% of this is the shear yield stress...
how do you determine the shear stess of a bolt? I have determined the shear stress for the situation so I now need to know if the fastener will take it. thanks
I need to determine the shear stress of a bolt in single shear and a bolt in double shear, is the equation
Shear stress = force / cross sectional area
The bolt in question is a m10 bolt, class not known yet although will be 8.8 or 12.9, force applied on threaded section so overall diameter of...
I wonder if someone can help me, I am creating a vehicle that will tilt into corners, I decided to use a centrally mounted differental and drive shafts out to the rear axles, the problem I am encountering is getting the power through the large angles required, up to a max of 47 degrees each end...
I wonder if anyone can help me, I have a problem, Im curently designing a vehicle with a large amout of travel. The problem i am encountering is getting the power from the dsmall differential in the middle of the car to the wheels, the wheels are currently mounted on an axle.
I am looking for a...
the three force approach will as far as i can see give both forces to be equal on each bolt, I have also looked at the bolt group loading method but this also gives the horizontal load for each bolt as the same.
sorry i should have said A and B are the mounting points where the caliper is mounted to the frame.
I am just looking into the use of the three force body method
points a and b are both fixed, they cannot move in any direction. Below is the caliper that this problem is based on, the caliper is the one at the top left hand side. my diagram is a simplified version of this situation
Hello
I wonder if anyone can help/guide me with a problem i have, the figure below shows a free body diagram of a brake caliper, the force on the body acts at 30 degrees from the vertical at point C, I resolved this to get the two forces shown in the x and y direction.
I have determined the...