Dense irregular connective tissue
tendons
Compact bones, which are dense, are bones adapted to withstand stresses. Compact bones are also referred to as cortical bone.
stresses of gravity and muscle pull on the skeleton
eat, sleep, reproduce, drink, snore, hear , feel, get stresses, work and taste.
One crucial structure for bacterial survival is the cell wall, providing shape, structural support, and protection against environmental stresses.
With no stresses or movement ( that's what casts are for ) any bone will heal in six to eight weeks. A metatarsal is stressed every time you step, so you should expect a little longer.
compression
Compression Fracture
Bending, Shearing, Torsion, Shearing, and Compression.
Peter Alexander McKenna has written: 'Fatigue of ferrous metals subjected to direct alternating stresses'
If the load is from the top pointing down, compessive stress is at the top and tension at the bottom
Compact bones, which are dense, are bones adapted to withstand stresses. Compact bones are also referred to as cortical bone.
Whenever an elastic body subjected to loads in its 3 dimensions, the stresses will get developed along the principal axis of the body. These are the principal stresses. These stress should not exceed the yield stress of the material. Von Mises (1913) postulated that, even though none of the principal stresses exceeds the yield stress of the material, it is possible for yielding of the same from the combination of stresses. The Von Mises criterion is a formula (refer any textbook which content failure theories for Ductile Materials) for combining these 3 stresses into an equivalent stress, which is then compared to the yield stress of the material.
If certain plastics (take for instance PTFE) is subjected to stresses below its yield point then it may be subjected to permanent deformation. This deformation will induce certain strains through out the material. If the plastic is heated up, these strains tend to relax which allows the plastic to return to its original shape. This is often refered to as "plastic memory".
An Electric field stress depends on the mechanical strength of the materials and the stresses that are generated during their operation. During high voltage applications, the dielectric strength of insulating materials are developed when subjected to high voltages.
Your question deals with nuclear fuel liquid. fluid fuels are not subjected to the structural stresses of solid fuels. If you drop liquid nuclear fuel, and you are not wearing protective gear, the Gaseous will sicken you and kill you.
Strike slip faults are formed as a result of shear stresses. However strictly speaking all faults are in a shear stress state as there is usually movement in differing directions along both sides of the fault however in the other cases, compressive or tensile stresses are the cause of the initial fault formation.
There are a number of stresses inflicted upon bridges. Some of these stresses include compression, tension, as well as bending.