Wedge Friction | Engineering Mechanics - Civil Engineering (CE) PDF Download

Wedge: A wedge is in general a triangular object which is placed between two objects to either hold them in place or is used to move one relative to the other. For example, the following shows a wedge under a block that is supported by the wall.

Wedge Friction | Engineering Mechanics - Civil Engineering (CE)

If the force P is large enough to push the wedge forward, then the block will rise and the following is an appropriate free-body diagram. Note that for the wedge to move one needs to have slip on all three surfaces. The direction of the friction force on each surface will oppose the slipping.

Wedge Friction | Engineering Mechanics - Civil Engineering (CE)

Since before the wedge can move each surface must overcome the resistance to slipping, one can assume that 

F1 =μN1

F2 =μN2

F3 = μN3

These equations and the equations of equilibrium are combined to solve the problem. If the force P is not large enough to hold the top block from coming down, then the wedge will be pushed to the left and the appropriate free-body diagram is the following. Note that the only change is the direction of the frictional forces. A similar analysis to the above yield the solution to the problem.

Wedge Friction | Engineering Mechanics - Civil Engineering (CE)

The document Wedge Friction | Engineering Mechanics - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Engineering Mechanics.
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FAQs on Wedge Friction - Engineering Mechanics - Civil Engineering (CE)

1. What is wedge friction?
Ans. Wedge friction refers to the resistance encountered when a wedge-shaped object or tool is pushed or pulled between two surfaces. It is a type of mechanical friction that occurs due to the interaction between the wedge and the surfaces it is in contact with.
2. How does wedge friction affect the performance of a wedge tool?
Ans. Wedge friction plays a crucial role in the performance of a wedge tool. The amount of friction between the wedge and the surfaces determines the force required to drive the wedge into the material. Higher friction can increase the effectiveness of the wedge by providing better stability and preventing slippage.
3. What factors affect the magnitude of wedge friction?
Ans. Several factors influence the magnitude of wedge friction. These include the roughness of the surfaces in contact, the angle of the wedge, the material properties of the surfaces, and the force applied to the wedge. Higher roughness, larger wedge angles, and greater applied forces generally result in higher friction.
4. How can wedge friction be reduced or minimized?
Ans. To reduce or minimize wedge friction, several techniques can be employed. Lubricating the surfaces can help in reducing friction by providing a slippery barrier between the wedge and the surfaces. Smoother surfaces, reducing the wedge angle, and applying force in the direction of the wedge's taper can also help in minimizing friction.
5. What are some practical applications of wedge friction?
Ans. Wedge friction has numerous practical applications. It is utilized in various tools and devices such as axes, chisels, doorstops, and jacks. Wedge friction is also essential in engineering and construction, where it is utilized in foundation piles, retaining walls, and even the design of some types of screws.
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