Abstract
AbstractSteel H-piles (HP shapes) are most commonly available as ASTM A572 Grade 50 material, having a nominal yield strength of Fy = 50 ksi (345 MPa). However, until fairly recently, HP shapes were typically available as ASTM A36 shapes, for which Fy = 36 ksi (248 MPa). Many state DOT provisions for driven piles continue to base design structural capacity calculations on the lower yield stress. In this paper, a parametric study investigating the impact of increasing the yield capacity from Fy = 36 ksi to Fy = 50 ksi on design structural capacity and driving analysis of steel H-piles is presented. Results of the parametric study indicate that the AASHTO-permitted pile capacity of 0.5 AgFy is not achievable without a reduction in the required overstrength factor of 2 (based on assessing driveability by wave analysis only), and even then, this capacity may only be achievable for smaller pile sections. Driving piles to the maximum permitted driving stress of 0.90 Fy = 45 ksi (310 MPa) resulted in pile capaci...
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