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      KCI등재 SCIE SCOPUS

      Web-shear capacity of prestressed hollow-core slab unit with consideration on the minimum shear reinforcement requirement

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      https://www.riss.kr/link?id=A103841393

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      다국어 초록 (Multilingual Abstract)

      Prestressed hollow-core slabs (HCS) are widely used for modern lightweight precast floor structures because they are cost-efficient by reducing materials, and have excellent flexural strength and stiffness by using prestressing tendons, compared to re...

      Prestressed hollow-core slabs (HCS) are widely used for modern lightweight precast floor structures because they are cost-efficient by reducing materials, and have excellent flexural strength and stiffness by using prestressing tendons, compared to reinforced concrete (RC) floor system. According to the recently revised ACI318-08, the web-shear capacity of HCS members exceeding 315 mm in depth without the minimum shear reinforcement should be reduced by half. It is, however, difficult to provide shear reinforcement in HCS members produced by the extrusion method due to their unique concrete casting methods, and thus, their shear design is significantly affected by the minimum shear reinforcement provision in ACI318-08. In this study, a large number of shear test data on HCS members has been collected and analyzed to examine their web-shear capacity with consideration on the minimum shear reinforcement requirement in ACI318-08. The analysis results indicates that the minimum shear reinforcement requirement for deep HCS members are too severe, and that the web-shear strength equation in ACI318-08 does not provide good estimation of shear strengths for HCS members. Thus, in this paper, a rational web-shear strength equation for HCS members was derived in a simple manner, which provides a consistent margin of safety on shear strength for the HCS members up to 500 mm deep. More shear test data would be required to apply the proposed shear strength equation for the HCS members over 500 mm in depth though.

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      참고문헌 (Reference)

      1 Pajari, M., "Web shear failure in prestressed hollow core slabs" 42 (42): 207-217, 2009

      2 Kani, G N. J., "The riddle of shear failure and its solution" 61 (61): 441-467, 1964

      3 Walraven, J.C., "The bearing capacity of prestressed hollow-core slabs" 28 (28): 1-46, 1983

      4 TNO Building and Constructions Research, "TNO Report: Standard Shear Tests on Prestressed Hollow Core Slabs according to EN 1168" TNO Building and Constructions Research 2005

      5 British Standard Institute, "Structural Use of Concrete - Part 1 Code of Practice for Design and Construction"

      6 Concrete Committee of JSCE, "Standard Specifications for Concrete Structures – Design" Japan Society of Civil Engineers 2007

      7 Kuchma, D., "Simplified shear provisions of the AASHTO LRFD bridge design specifications" 38 (38): 53-73, 2008

      8 Becker, R.J, "Shear tests of extruded hollow core slabs" 30 (30): 40-54, 1985

      9 Hawkins, N.M, "Shear strength of hollow-core slabs" 51 (51): 110-115, 2006

      10 Reineck, K. H., "Shear database for reinforced concrete members without shear reinforcement" 100 (100): 240-249, 2003

      1 Pajari, M., "Web shear failure in prestressed hollow core slabs" 42 (42): 207-217, 2009

      2 Kani, G N. J., "The riddle of shear failure and its solution" 61 (61): 441-467, 1964

      3 Walraven, J.C., "The bearing capacity of prestressed hollow-core slabs" 28 (28): 1-46, 1983

      4 TNO Building and Constructions Research, "TNO Report: Standard Shear Tests on Prestressed Hollow Core Slabs according to EN 1168" TNO Building and Constructions Research 2005

      5 British Standard Institute, "Structural Use of Concrete - Part 1 Code of Practice for Design and Construction"

      6 Concrete Committee of JSCE, "Standard Specifications for Concrete Structures – Design" Japan Society of Civil Engineers 2007

      7 Kuchma, D., "Simplified shear provisions of the AASHTO LRFD bridge design specifications" 38 (38): 53-73, 2008

      8 Becker, R.J, "Shear tests of extruded hollow core slabs" 30 (30): 40-54, 1985

      9 Hawkins, N.M, "Shear strength of hollow-core slabs" 51 (51): 110-115, 2006

      10 Reineck, K. H., "Shear database for reinforced concrete members without shear reinforcement" 100 (100): 240-249, 2003

      11 Pajari, M., "Resistance of Prestressed Hollow Core Slabs Against Web Shear Failure" Technical Research Centre of Finland (VTT) 2005

      12 Mac Gregor, J. G., "Reinforced Concrete Mechanics and Design" Prentice Hall 2005

      13 Collins, M.P, "Prestressed Concrete Structures" Prentice Hall 1991

      14 Nawy, E. G., "Prestressed Concrete : a Fundamental approach" Prentice Hall 2006

      15 FIP Recommendations, "Precast prestressed hollow core floors" FIP Commission on Prefabrication 1988

      16 Buettner, D.R, "PCI Manual for the Design of Hollow-Core Slabs, 2nd edition"

      17 Kim, K.S., "Nonlinear analysis method for continuous post-tensioned concrete Members with Unbonded Tendons" 40 (40): 487-500, 2012

      18 이정연, "Investigation on Allowable Compressive Stresses in Pretensioned Concrete Members at Transfer" 대한토목학회 17 (17): 1083-1098, 2013

      19 Deuck Hang Lee, "Flexural strength of prestressed concrete members with unbonded tendons" 국제구조공학회 38 (38): 675-696, 2011

      20 Kim, K.S., "Flexural behavior model for post-tensioned concrete members with unbonded tendons" 10 (10): 241-258, 2012

      21 Bertagnoli, G., "Failure analysis of hollow-core slabs tested in shear" 10 (10): 139-152, 2009

      22 Palmer, K.D., "Factors affecting web-shear capacity of deep hollow-core units" 55 (55): 123-146, 2010

      23 Palmer, K.D., "Experimental investigation of the web-shear strength of deep hollow-core units" 56 (56): 83-104, 2011

      24 European Committee for Standardization (CEN), "Eurocode 2: Design of Concrete Structure. Part 1-1: General Rules and Rules for Buildings, EN 1992-1-1"

      25 Im, J. H., "Effect of effective prestress on shear capacity of hollow-core slab units" 2012

      26 Nilson, A., "Desing of Prestressed Concrete, 2nd edition" John Wiley & Sons 1987

      27 Yang, L., "Design of prestressed hollow-core slabs with reference to web-shear failure" 120 (120): 2675-2696, 1994

      28 British Standard Institute, "Code of practice for the structural use of concrete, Part 1, CP110"

      29 ACI Committee 318, "Building code requirements for structural concrete (ACI 318-08) and commentary"

      30 ACI Committee 318, "Building code requirements for structural concrete (ACI 318-05) and commentary"

      31 Ugural, A.C, "Advanced Strength and Applied Elasticity" Prentice Hall 2003

      32 AASHTO LRFD, "AASHTO LRFD Bridge Design Specifications" American Association of State Highway and Transportation Officials 2007

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      2020-12-01 평가 등재 탈락 (해외등재 학술지 평가)
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      2013-10-01 평가 SCOPUS 등재 (등재유지) KCI등재
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.72 0.07 0.53
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      0.44 0.4 0.173 0.02
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