It will depend on the Nylon type; average is about 200,000 psi (1380 MPa)
For isotropic materials G = E/ (2(1+u) where u = poisson ratio
By using tensile test.
It really depends on the type of Nylon; if you need a number it is around 500,000 psi (3.4 GPa)
y(young's modulus of rigidity)=stress/strain now strain is dimensionless hence y=stress y=M L-1 T-2
1. Young's modulus of elasticity, E, also called elastic modulus in tension 2. Flexural modulus, usually the same as the elastic modulus for uniform isotropic materials 3. Shear modulus, also known as modulus of rigidity, G ; G = E/2/(1 + u) for isotropic materials, where u = poisson ratio 4. Dynamic modulus 5. Storage modulus 6. Bulk modulus The first three are most commonly used; the last three are for more specialized use
there are different types of modulus it depends on what types of stress is acting on the material if its direct stress then then there is modulus of elasticity,if tis shear stress then its modulus of rigidity and when its volumetric stress it is bulk modulus and so on
modulus of elasticity = 15 Msi; poisson ratio = 0.3 modulus of rigidity = E/ ((2(1 + poisson)) = 5.8 Msi
G = E/2(1+u) where G = mod of rigidity and u =poisson ration and E = young modulus
http://www.engineeringtoolbox.com/modulus-rigidity-d_946.html
The modulus of rigidity of a wire is a measure of its resistance to shearing deformation. It is typically represented by the symbol G and is expressed in units of pascals (Pa). The specific value of the modulus of rigidity for a given wire will depend on its material composition and properties.
It is around 40 GPa.
The known value of Young's modulus for nylon typically ranges from 2 to 6 GPa, depending on the specific type of nylon and its manufacturing process.
shearing stress to shearing strain
about 70 to 80 GPa
change in shape due to stress applied
It is the ratio of shear stress to shear strain.
flywheel