Relationship between impact energy and compression toughness energy of high-strength fiber-reinforced concrete

A simple, economical, and practical drop-weight impact testing machine was developed to determine the impact resistance for high-strength fiber-reinfo rced concrete (HSFRC) composite. Impact and compression tests were carried out on concrete cylinders reinforced with three different aspect ratios of hooked-end steel fibers l/d (length/diameter): 60, 75, and 83 (30/0.50, 60/ 0.80, and 50/0.60 mm/mm), and four different percentages of steel fibers 0. 5%, 1.0%, 1.5% and 2.0% by volume of concrete, For each aspect ratio and vo lume of fibers, complete stress-strain curves of HSFRC were generated in or der to determine the total energy absorbed for each cylindrical specimen in compression. The addition of steel fibres to concrete has improved impact resistance and also the compression toughness. The test results showed that a logarithmic relation exists between compression toughness energy (E-Ct) by means of the generated stress-stress curves from the compressive tests a nd the impact energy (E-1) by means of the modified impact machine for HSFR C at different l/d ratio of 60, 75, and 83. (C) 2001 Elsevier Science B.V. All rights reserved.