I recently got a comment back from a reviewing engineer with the following comment regarding one of my analysis.
In the analysis i was calculating the prying (tensile) force on a bolt. I was asked to multiply my moment arm
by a factor of 0.85 to account for the difference in strain rates between concrete and steel. Exact comment is below.
Does anyone have an idea of how the 0.85 is calculated?
Detail description:
Angle anchored to side of concrete curb under eccentric gravity load. Angle is bearing on concrete.
"That is your elastic return coefficient. It is similar to the Whitney stress block that is assumed in concrete design. The concrete is not elastically equivalent to the steel, so to account for the difference in strain rates one multiplies the “arm” in the concrete by 0.85."
In the analysis i was calculating the prying (tensile) force on a bolt. I was asked to multiply my moment arm
by a factor of 0.85 to account for the difference in strain rates between concrete and steel. Exact comment is below.
Does anyone have an idea of how the 0.85 is calculated?
Detail description:
Angle anchored to side of concrete curb under eccentric gravity load. Angle is bearing on concrete.
"That is your elastic return coefficient. It is similar to the Whitney stress block that is assumed in concrete design. The concrete is not elastically equivalent to the steel, so to account for the difference in strain rates one multiplies the “arm” in the concrete by 0.85."