Punching Tests of Double-Hooked-End Fiber Reinforced Concrete Slabs
Ten high-strength concrete slabs reinforced with a new type of steel fiber, double-hooked-end steel fibers, were tested under punching shear loads. The strength of the concrete fc' varied from 80 to 100 MPa (11,600 to 14,500 psi). The fiber content Vf varied from 0 to 1.2%. Two different values...
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| Veröffentlicht in: | ACI structural journal 2018-11, Vol.115 (6), p.1777-1789 |
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| creator | Chanthabouala, Khatthanam Teng, Susanto Chandra, Jimmy Tan, Kang-Hai Ostertag, Claudia P. |
| description | Ten high-strength concrete slabs reinforced with a new type of steel fiber, double-hooked-end steel fibers, were tested under punching shear loads. The strength of the concrete fc' varied from 80 to 100 MPa (11,600 to 14,500 psi). The fiber content Vf varied from 0 to 1.2%. Two different values of flexural reinforcement ratios p (= As/bd) of 0.9% and 1.4% were chosen for this test program. The experimental results showed that the use of double-hooked-end steel fibers in concrete enhances slab performance significantly in many ways. As the fiber volume orfiber content Vf increased, the flexural stiffness of the slab throughout loading history also increased, while both the deflections and crack widths decreased considerably. At the ultimate load stage, the punching shear strength increased by up to 156% compared to non-fibrous concrete slabs. The increase in punching shear strength is significantly higher than the increase introduced by conventional single hooked-end steel fibers. The ductility of the slabs was also significantly improved.Comparisons between design methods with experimental results show that the design method from The Concrete Society's TR-34 performs very well. Another method that was based on the yield line theory overestimates the strengths of the slabs. Model Code 2010 method also overestimates the punching shear strengths. Finally, some relevant design recommendations are given. |
| doi_str_mv | 10.14359/51706891 |
| format | Article |
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The strength of the concrete fc' varied from 80 to 100 MPa (11,600 to 14,500 psi). The fiber content Vf varied from 0 to 1.2%. Two different values of flexural reinforcement ratios p (= As/bd) of 0.9% and 1.4% were chosen for this test program. The experimental results showed that the use of double-hooked-end steel fibers in concrete enhances slab performance significantly in many ways. As the fiber volume orfiber content Vf increased, the flexural stiffness of the slab throughout loading history also increased, while both the deflections and crack widths decreased considerably. At the ultimate load stage, the punching shear strength increased by up to 156% compared to non-fibrous concrete slabs. The increase in punching shear strength is significantly higher than the increase introduced by conventional single hooked-end steel fibers. The ductility of the slabs was also significantly improved.Comparisons between design methods with experimental results show that the design method from The Concrete Society's TR-34 performs very well. Another method that was based on the yield line theory overestimates the strengths of the slabs. Model Code 2010 method also overestimates the punching shear strengths. Finally, some relevant design recommendations are given.</description><identifier>ISSN: 0889-3241</identifier><identifier>EISSN: 1944-7361</identifier><identifier>DOI: 10.14359/51706891</identifier><language>eng</language><publisher>Farmington Hills: American Concrete Institute</publisher><subject>Building codes ; Concrete ; Concrete slabs ; Design ; Ductility ; Engineering ; Fiber reinforced concretes ; High strength concretes ; Methods ; Punching ; Punching shear ; Ratios ; Reinforced concrete ; Reinforcing steels ; Shear strength ; Shear tests ; Slabs ; Steel ; Steel fibers ; Stiffness ; Tensile strength ; Ultimate loads</subject><ispartof>ACI structural journal, 2018-11, Vol.115 (6), p.1777-1789</ispartof><rights>Copyright American Concrete Institute Nov 2018</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c292t-e27f0003b4d7c5854d4bbebf79e992121d780c1a55603ed0fe1bbe0b964b981d3</citedby><cites>FETCH-LOGICAL-c292t-e27f0003b4d7c5854d4bbebf79e992121d780c1a55603ed0fe1bbe0b964b981d3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27901,27902</link.rule.ids></links><search><creatorcontrib>Chanthabouala, Khatthanam</creatorcontrib><creatorcontrib>Teng, Susanto</creatorcontrib><creatorcontrib>Chandra, Jimmy</creatorcontrib><creatorcontrib>Tan, Kang-Hai</creatorcontrib><creatorcontrib>Ostertag, Claudia P.</creatorcontrib><title>Punching Tests of Double-Hooked-End Fiber Reinforced Concrete Slabs</title><title>ACI structural journal</title><description>Ten high-strength concrete slabs reinforced with a new type of steel fiber, double-hooked-end steel fibers, were tested under punching shear loads. The strength of the concrete fc' varied from 80 to 100 MPa (11,600 to 14,500 psi). The fiber content Vf varied from 0 to 1.2%. Two different values of flexural reinforcement ratios p (= As/bd) of 0.9% and 1.4% were chosen for this test program. The experimental results showed that the use of double-hooked-end steel fibers in concrete enhances slab performance significantly in many ways. As the fiber volume orfiber content Vf increased, the flexural stiffness of the slab throughout loading history also increased, while both the deflections and crack widths decreased considerably. At the ultimate load stage, the punching shear strength increased by up to 156% compared to non-fibrous concrete slabs. The increase in punching shear strength is significantly higher than the increase introduced by conventional single hooked-end steel fibers. The ductility of the slabs was also significantly improved.Comparisons between design methods with experimental results show that the design method from The Concrete Society's TR-34 performs very well. Another method that was based on the yield line theory overestimates the strengths of the slabs. Model Code 2010 method also overestimates the punching shear strengths. 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The strength of the concrete fc' varied from 80 to 100 MPa (11,600 to 14,500 psi). The fiber content Vf varied from 0 to 1.2%. Two different values of flexural reinforcement ratios p (= As/bd) of 0.9% and 1.4% were chosen for this test program. The experimental results showed that the use of double-hooked-end steel fibers in concrete enhances slab performance significantly in many ways. As the fiber volume orfiber content Vf increased, the flexural stiffness of the slab throughout loading history also increased, while both the deflections and crack widths decreased considerably. At the ultimate load stage, the punching shear strength increased by up to 156% compared to non-fibrous concrete slabs. The increase in punching shear strength is significantly higher than the increase introduced by conventional single hooked-end steel fibers. The ductility of the slabs was also significantly improved.Comparisons between design methods with experimental results show that the design method from The Concrete Society's TR-34 performs very well. Another method that was based on the yield line theory overestimates the strengths of the slabs. Model Code 2010 method also overestimates the punching shear strengths. Finally, some relevant design recommendations are given.</abstract><cop>Farmington Hills</cop><pub>American Concrete Institute</pub><doi>10.14359/51706891</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record> |
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| source | American Concrete Institute Online Journal Archives |
| subjects | Building codes Concrete Concrete slabs Design Ductility Engineering Fiber reinforced concretes High strength concretes Methods Punching Punching shear Ratios Reinforced concrete Reinforcing steels Shear strength Shear tests Slabs Steel Steel fibers Stiffness Tensile strength Ultimate loads |
| title | Punching Tests of Double-Hooked-End Fiber Reinforced Concrete Slabs |
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