Steel-encased pull-through tests of seven-wire strands
Report, 2002

Pull-through tests of seven-wire strands were conducted to investigate the bond properties of strands with different surfaces. Three types of strands were tested, denoted “old smooth”, “new smooth”, and “indented”. Steel-encased specimens were used, and not only the bond and slip were measured, but also the tangential strain in the steel tube to investigate the normal stresses generated by the bond mechanism. The tests show that the smooth strands behave stiffer initially than the indented strand. The “new smooth” has a higher bond capacity than the “old smooth”; for large slip values the “new smooth” even has a higher capacity than the indented strand. For slip values between 0.3 to 4 mm, the indented strand has the highest capacity. However, the indented strands also causes the largest tangential strains in the steel tube; i.e. the indented strands causes larger normal stresses than the smooth strands, which increases the risk for splitting failure. The two different types of smooth strands appear to cause approximately the same normal stresses.

pull-through tests

seven-wire strands

bond

steel-encased

Author

Karin Lundgren

Chalmers, Department of Structural Engineering

Subject Categories

Civil Engineering

Rapport - Institutionen för konstruktionsteknik, Chalmers tekniska högskola: 02:13

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Latest update

1/22/2021