• Title/Summary/Keyword: 이축 휨파괴강도

Search Result 4, Processing Time 0.019 seconds

The Experimental Comparison of the Uniaxial and Biaxial Tensile Strengths of Concretes (일축 및 이축 휨인장강도의 실험적 비교)

  • Oh, Hong-Seob;Zi, Goang-Seup
    • Journal of the Korea Concrete Institute
    • /
    • v.20 no.2
    • /
    • pp.139-146
    • /
    • 2008
  • The characteristics of the biaxial flexural tensile strength of concretes was compared to that of the uniaxial strength. The uniaxial and biaxial strengths in this study were obtained from the classical modulus of rupture test and the biaxial flexural test recently developed by Zi and Oh and Zi et al., respectively. Three different sizes were considered to investigate the effect of the size of aggregates. To estimate the stochastic aspect of the strength, 32 specimens were used for each test. The average biaxial flexural fracture strength was about 20% greater than the uniaxial test. At the same time, the coefficient of variation for the biaxial test was 18% greater than the uniaxial test. This means that the probability of the biaxial cracking can be greater than the uniaxial cracking.

Uniaxial and Biaxial Flexural Strength of Plain Concrete using Optimum Specimen Configuration (최적실험체 제원에 의한 콘크리트의 일축 및 이축 휨인장강도)

  • Oh, Hongseob;Zi, Goangseup
    • KSCE Journal of Civil and Environmental Engineering Research
    • /
    • v.30 no.2A
    • /
    • pp.185-191
    • /
    • 2010
  • Because the concrete crack that is the reason of the serviceability and durability degradation of concrete structure can be arisen from either the stress magnitude and gradient or other structural and material defects, the crack strength of concrete is hard to accurately evaluate. Especially, stress-state in concrete plate components such as rigid pavement and long span slab is biaxial flexure stress, and the flexural strength of those component may be different than the traditional rupture modulus of concrete subjected to uniaxial stress. In this study, an experimental investigation to assess of mechanical behavior under uniaxial and biaxial flexure stress is conducted and the proposed optimum specimen configuration is adopted. From the test, the modulus of rupture under uniaxial and biaxial stress are decreased as the size of aggregate or specimen is larger. And biaxial flexure strength of concrete specimens is varied from 39.5 to 99.2% as compared with that of uniaxial strength, and the biaxial strength of specimen with 20mm aggregate size is only 76% of uniaxial strength.

The Biaxial Flexure Test(BFT) method and its finite element analysis (이방향 휨인장 시험(Biaxial Flexure Test; BFT) 및 삼차원 유한요소 해석)

  • Kim, Ji-Hwan;Zi, Goang-Seup;Kang, Jin-Gu;Oh, Hong-Seob
    • Proceedings of the Korea Concrete Institute Conference
    • /
    • 2008.04a
    • /
    • pp.693-696
    • /
    • 2008
  • The biaxial tensile strength of concretes was measured by the Biaxial Flexure Test(BFT) which was recently developed to measure the biaxial tensile strength of concretes. From the test result, The circular specimen is generally fractured after 1${\sim}$3 of the initial crack were formed on the top of specimen. The direction and number of the initial crack was completely arbitrary. As the specimen was larger, the number of the crack increased. And, the strengths of the different radii and thickness of specimens were calculated by the commercial finite element program to study the size effect of the biaxial tensile strength like the uniaxial tensile strength. The parameters such as radii to the support and to the load point, were studied using the program. The results of the FE analysis were entirely consistent with the predictive solution, when b/a>0.4, and the thickness of the specimens were increased. On the other hands, those with lesser free length showed good results.

  • PDF

Improved Biaxial Flexure Test (BFT) for Concrete with the Optimum Specimen Geometry (최적 시험체 형상을 고려한 개선된 콘크리트 등방휨인장강도 시험법)

  • Zi, Gooang-Seup;Kim, Ji-Hwan;Oh, Hong-Seob
    • Journal of the Korea Concrete Institute
    • /
    • v.21 no.4
    • /
    • pp.523-530
    • /
    • 2009
  • For designing concrete structures, engineers are provided data from unidirectional flexure test in most cases. But real structural components such as pavements and deck panel are subjected to multiaxial stress throughout their body. Therefore, biaxial flexure test for concrete may be considered as a gage of the performance of concrete in service. In this paper, we propose the optimum biaixial flexture test (BFT) to measure the biaxial flexural strength of concrete. This method are an improved version of the ring-on-ring test which have been used extensively in the fields of ceramics and biomaterials. The optimum geometry of the test specimen was determined by using a three-dimensional finite element analysis. A series of test data obtained from the proposed test method is provided to show that the proposed optimum biaxial flexure test method can be used to identify the biaxial tensile strength of concrete.