shear stress and strain   6 Nickels awarded! Tagged with:  shear stress stress and strain     pictiorial representation     academic    posted on 4 May 2007 08:00:16 IST
SHEAR STRESS In additional to Axial (or normal) Stress and Strain (discussed in topic 2.1and 2.2), we may also have what is known as Shear Stress and Shear Strain.In Diagram 1 we have shown a metal rod which is solidly attached to the floor. We then exert a force, F, acting at angle theta with respect to the horizontal, on the rod. The component of the Force perpendicular to the surface area will produce an Axial Stress on the rod given by Force perpendicular to an area divided by the area, or: The component of the Force parallel to the area will also effect the rod by producing a Shear Stress, defined as Force parallel to an area divided by the area, or: where the Greek letter, Tau, is used to represent Shear Stress. The units of both Axial and Shear Stress will normally be lb/in2 or N/m2. Shear Strain: Just as an axial stress results in an axial strain, which is the change in the length divided by the original length of the member, so does shear stress produce a shear strain. Both Axial Strain and Shear Strain are shown in Diagram 2. The shear stress produces a displacement of the rod as indicated in the right drawing in Diagram 2. The edge of the rod is displaced a horizontal distance, from its initial position. This displacement (or horizontal deformation) divided by the length of the rod L is equal to the Shear Strain. Examining the small triangle made by , L and the side of the rod, we see that the Shear Strain, /L , is also equal to the tangent of the angle gamma, and since the amount of displacement is quite small the tangent of the angle is approximately equal to the angle itself. Or we may write: Shear Strain = As with Axial Stress and Strain, Shear Stress and Strain are proportional in the elastic region of the material. This relationship may be expressed as G = Shear Stress/Shear Strain, where G is a property of the material and is called the Modulus of Rigidity (or at times, the Shear Modulus) and has units of lb/in2. The Modulus of Rigidity for Steel is approximately 12 x 106 lb/in2. If a graph is made of Shear Stress versus Shear Strain, it will normally exhibit the same characteristics as the graph of Axial Stress versus Axial Strain. There is an Elastic Region in which the Stress is directly proportional to the Strain. The point at which the Elastic Region ends is called the elastic limit, or the proportional limit. In actuality, these two points are not quite the same. The Elastic Limit is the point at which permanent deformation occurs, that is, after the elastic limit, if the force is taken off the sample, it will not return to its original size and shape, permanent deformation has occurred. The Proportional Limit is the point at which the deformation is no longer directly proportional to the applied force (Hooke's Law no longer holds). Although these two points are slightly different, we will treat them as the same in this course. There is a Plastic Region, where a small increase in the Shear Stress results in a larger increase in Shear Strain, and finally there is a Failure Point where the sample fails in shear.     SOURCE:NET	About the Author: karthik_abiram (1222) Blazing goIITian  216  [287 rates] total posts: 1010     Offline
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comment by karthik_abiram    (posted on 4 May 2007 12:40:15 IST) no comments?
comment by vinod    (posted on 4 May 2007 14:35:43 IST) Thats the nice explatation !!! :) really good !!!
comment by chimanshu_007    (posted on 4 May 2007 14:46:46 IST) great job excellent :):)

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