SHEAR STRESS
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'Shear stress' is a stress state where the stress is parallel or tangential to a face of the material, as opposed to normal stress when the stress is perpendicular to the face. The variable used to denote shear stress is ''Ï„'' (tau).
The formula for shear stress in a beam is:
:
★ ''V'' = shear force at that location
★ ''Q'' = first moment of area
★ ''t'' = thickness in the material perpendicular to the shear
★ ''I'' = second moment of area of the cross section.
Structural members in pure shear stress are the torsion bars and the driveshafts in automobiles. Riveted and bolted joints may also be mainly subjected to shear stress. Cantilevers, beams, consoles and column heads are subject to composite loading, consisting of shear, tensile and compressive stress.
Shear stresses within a semi-monocoque structure may be calculated by idealizing the cross-section of the structure into a set of stringers (carrying only axial loads) and webs (carrying only shear flows). Dividing the shear flow by the thickness of a given portion of the semi-monocoque structure yields the shear stress. Thus, the maximum shear stress will occur either in the web of maximum shear flow or minimum thickness.
Also constructions in soil can fail due to shear; e.g., the weight of an earth-filled dam or dike may cause the subsoil to collapse, like a small landslide.
Shear stress is relevant to the motion of fluids upon surfaces, which result in the generation of shear stress. Particularly, the laminar fluid flow over the surface has a zero velocity and shear stress occurs between the zero-velocity surface and the higher-velocity flow away from the surface.
The physical quantity of shear stress is ''pressure'', thus force divided by surface area. The SI-UNIT is thereby Pascal (Pa), thus N/m² - Newton per square meter.
★ Geotechnical engineering
★ Scissors work by shear stress
★ Shear
★ Shear modulus
★ Shear rate
★ Shear strength
★ Shear strength (soil)
★ Strength of materials
★ Tensile stress
The formula for shear stress in a beam is:
:
★ ''V'' = shear force at that location
★ ''Q'' = first moment of area
★ ''t'' = thickness in the material perpendicular to the shear
★ ''I'' = second moment of area of the cross section.
Structural members in pure shear stress are the torsion bars and the driveshafts in automobiles. Riveted and bolted joints may also be mainly subjected to shear stress. Cantilevers, beams, consoles and column heads are subject to composite loading, consisting of shear, tensile and compressive stress.
Shear stresses within a semi-monocoque structure may be calculated by idealizing the cross-section of the structure into a set of stringers (carrying only axial loads) and webs (carrying only shear flows). Dividing the shear flow by the thickness of a given portion of the semi-monocoque structure yields the shear stress. Thus, the maximum shear stress will occur either in the web of maximum shear flow or minimum thickness.
Also constructions in soil can fail due to shear; e.g., the weight of an earth-filled dam or dike may cause the subsoil to collapse, like a small landslide.
Shear stress is relevant to the motion of fluids upon surfaces, which result in the generation of shear stress. Particularly, the laminar fluid flow over the surface has a zero velocity and shear stress occurs between the zero-velocity surface and the higher-velocity flow away from the surface.
| Contents |
| Unit of measure |
| See also |
Unit of measure
The physical quantity of shear stress is ''pressure'', thus force divided by surface area. The SI-UNIT is thereby Pascal (Pa), thus N/m² - Newton per square meter.
See also
★ Geotechnical engineering
★ Scissors work by shear stress
★ Shear
★ Shear modulus
★ Shear rate
★ Shear strength
★ Shear strength (soil)
★ Strength of materials
★ Tensile stress
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