Tensile Strength, Ultimate 7.00 - 20.0 MPa 1020 - 2900 psi
This is the strength in a pure tension test. For bending use:
Modulus of Rupture 0.00410 - 0.0276 GPa 0.595 - 4.00 ksi
source: http://www.matweb.com/search/DataSheet.aspx?MatID=211&ckck=1
Granite: 7 to 25 MPa
http://www.stanford.edu/~tyzhu/Documents/Some%20Useful%20Numbers.pdf
But, averaging some models fitted to Laurentian Granite and Barre Granite, I get about 11.41 MPa with a sigma (stdev) of 7.92 MPa. This should be good for depths up to about 20 km or so.
it is delta force divided by delta area when failure occurs.
yes.
Tensile strength annealed 207
The tensile strength of concrete is 10% of it's compressive strength.
Tensile strength of Fe410Wa is 410 Mpa Min
tensile strength of astm A672Gr.55
Tensile strength was discovered by Leonardo Da Vinci in the 1800s.
the collagen fibers of bone have great tensile strength(the strength to endure stretching forces), while the calcium salts, which are similar in physical properties to marble, have great compressional strength (the strength to endure squeezing forces)
no iron has any tensile strength
Tensile strength annealed 207
The tensile strength of concrete is 10% of it's compressive strength.
Tensile strength of Fe410Wa is 410 Mpa Min
tensile strength of astm A672Gr.55
Liquids do not have tensile strength. The equivalent property is viscosity.
Tensile strength was discovered by Leonardo Da Vinci in the 1800s.
You mean tensile strength. Different steels have different tensile strengths. The way they are made (drawn, cast, forged, etc.) is critically important to the tensile strength. By the way--steel is more important for its stiffness than its tensile strength.
tensile strength is approximately between .08 to .15 of compression strength in concrete
Modulus of rupture > Splitting strength > Direct tensile strength
You mean tensile strength. Different steels have different tensile strengths. The way they are made (drawn, cast, forged, etc.) is critically important to the tensile strength. By the way--steel is more important for its stiffness than its tensile strength.