KCI Concrete Journal

한국콘크리트학회 (Korea Concrete Institute)
권호 표지

Time-dependent Material Properties in FCM Segment of Prestressed Concrete Box-Girder Bridge

  • 발행 : 1999.07.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

In designing the Prestressed concrete box-girder bridge. dead load, prestressing force, creep and shrinkage of concrete are the main factors which influence the camber and deflection of segmental concrete structure under construction. Among these factors the creep and shrinkage are the functions of the time-dependent property which. therefore, must be considered with time. The prediction model for estimating creep and shrinkage of concrete has been suggested by ACI, CEB/FIP, JSCE and KSCE design code and EMM, AEMM, RCM, IDM and SSM has been suggested for analytical method in consideration of time-dependent characteristics. In this study the creep test was carried out for four different curing ages of concrete which were applied to the Prestressed concrete structure at the construction site, and the results of test were compared with the values of creep prediction proposed by the design code. Also the creep test was performed with step-wise incremental stresses and the results were compared to the analytical values.

키워드

참고문헌

  1. Standard Specification of Concrete Structure Ministry of Construction and Transformation
  2. Standard Specification of Concrete Structure(Design Part) JSCE
  3. ACI-SP-76 Prediction of Creep. Shrinkage, and Temperature Effect in Concrete Structure ACI Committe 209
  4. Annual Book of ASTM Standards v.4 no.2 Standard Test Method for Creep of Concrete in Compression ASTM Committee C-9
  5. Annual Book of ASTM Standards v.4 no.2 Standard Test Method for Length Change of Hardened Hydraulic-Cement Mortar and Concrete ASTM Committe C-9
  6. Annual Book of ASTM Standards v.4 no.2 Standard Test Method for Static Modulus of Elasticity and Poisson's Ratio of Concrete in Compression ASTM Committee C-9
  7. Journal of the Structural Division, Proceedings v.105 Approximate Relaxation Function for Concrete Bazant, Z. P.;Kim, S. S.
  8. Proceedings, ASCE v.99 no.ST9 Comparison of Approximate Linear Methods for Concrete Creep Bazant, Z. P.;Najjar, J.
  9. Journal of ACI v.69 Prediction of Concrete Creep Effects Using Age-Adjusted Effective Modulus Method Bazant, Z. P.
  10. Creep and Shrinkage in Concrete Structures Bazant, Z. P.;Wittmann, F. H.
  11. Model Code 1978 CEB/FIP
  12. Model Code 1990 CEB/FIP
  13. Time effect in concrete structure Grlbert, R. I.
  14. Creep of Plain and Structural Concrete Neville, A. M.;Dilger. W. H.;Brooks, J. J.
  15. Property of Concrete Neville, A. M.
  16. ACI Journal, Proceedings v.78 no.4 Shrinkage and Creep of High Strength Concrete Ngab, A. S.;Nilson, A. H.;Slate, F. O.