• 제목/요약/키워드: axial strain at maximum stress

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탄소섬유쉬트로 횡구속된 콘크리트 공시체의 압축 거동에 관한 연구 (A Study on the Axial Behavior of the Concrete Cylinders Confined by Carbon Fiber Sheets)

  • 황진석
    • 한국구조물진단유지관리공학회 논문집
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    • 제4권4호
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    • pp.141-148
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    • 2000
  • Recently the Carbon Fiber Sheet(CFS) is widely used for strengthening damaged RC structures. Strengthening compression members such as column can increase ductility and strength due to the confinement effect. In this experiment, the behavior of concrete cylinders confined by CFS was examined. The confinement pressure is increased linearly as axial stress is increased in low axial stress, and the confinement effect of CFS was rapidly developed after near maximum axial stress, thus axial strength and ductility was improved. As the ratio of CPS is increased, concrete cylinders failed due to local fracture of CFS. The confinement effect of circular section is more efficient than that of rectangular section. And significant improvement of axial strength, axial strain, transverse strain at failure is observed in circular section. This is because in rectangular section the local fracture of CFS near corner may be occured, thus the strain efficiency ratio must be considered for RC structures with CFS.

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반월지역 해성점토의 비배수 전단강도 특성에 관한 연구 (Study on the Undrained Shear Strength Characteristics)

  • 장병욱;박영곤
    • 한국농공학회지
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    • 제36권3호
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    • pp.90-99
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    • 1994
  • To investigate the undrained shear strength characteristics of marine soils with high water content, high compressibility and weak bearing capacity, a series of undrained triaxial tests with pore pressure measurements on undisturbed and disturbed Banwol marine clay in normally consolidated and overconsolidated states is carried out. The results and main conclusions of this study are summarized as follows : 1 . When the consolidation pressure is increased, the maximum deviator stress of disturbed and undistubed clay in normally consolidated state is increased. Pore pressure parameters and internal friction angle of undisturbed clay are greater than those of disturbed clay. 2. The relationship between pore pressure and axial strain of undisturbed clay in normally consolidated state can be expressed as a hyperbolic function like stress-strain relation proposed by Kondner. 3. In the pore pressure-axial strain relation of disturbed clay in normally consolidated state, failure ratio R'f is greatly deviated in the range of 0.7~0.9 proposed by Christian and Desai. 4. For overconsolided clay, when overconsolidation ratio (OCR) is increased, normalized maximum deviator stress is increased and maximum pore pressure is decreased gradually. 5. Cohesion of overconsolidated clay is greater than that of nomally consolidated clay and internal friction angle slightly is decreased. 6. Pore pressure parameter at failure (Af) of overconsolidated clay is varied with OCR, Af becomes negative values with increment in OCR

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전열관의 굽힘 및 확관접합 잔류응력 (Residual Stress in U-Bending Deformations and Expansion Joints of Heat Exchanger Tubes)

  • 장진성;배강국;김우곤;김선재;국일현;김성청
    • 대한기계학회논문집A
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    • 제24권2호
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    • pp.279-289
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    • 2000
  • Residual stress induced in U-bending and tube-to-tubesheet joint processes of PWR's row-1 heat exchanger tube was measured by X-ray method and Hole-Drilling Method(HDM). Compressive residual stresses(-) at the extrados surface were induced in U-bending, and its maximum value reached -319 MPa in axial direction at the position of $\psi$ = $0^{\circ}$. Tensile residual stresses(+) of $\sigma_{zz}$ = 45 MPa and $\sigma_{\theta\theta}$ = 25 MPa were introduced in the intrados surface at the position of $\psi$ = $0^{\circ}$. Maximum tensile residual stress of 170 MPa was measured at the flank side at the position of $\psi$ = $90^{\circ}$, i.e., at apex region. It was observed that higher stress gradient was generated at the irregular transition regions (ITR). The trend of residual stress induced by U bending process of the tubes was found to be related with the change of ovality. The residual stress induced by the explosive joint method was found to be lower than that by the mechanical roll method. The gradient of residual stress along the expanded tube was highest at the transition region (TR), and the residual stress in circumferential direction was found to be higher than the residual stress in axial direction.

복합항복면 일-경화구성 모델을 이용한 지반거동해석 (The Analysis of Soil Behaviour by Double Surface Work-hardening Constitutive Model)

  • 윤일로;오세욱
    • 한국산업융합학회 논문집
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    • 제15권1호
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    • pp.21-27
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    • 2012
  • Decomposed granite soils are in a wide range of conditions depending on the degrees of weathering. This paper is intended to examine laboratory tests such as consolidation tests and conventional triaxial compression tests conducted in order to find out the mechanical properties of Cheongju granite soil. Along with the foregoing, the results of basic physical tests conducted in order to grasp the physical properties of Cheongju granite soil were described and based on the results, methods to calculate the mechanical parameters of numerical approaches using Lade's double surface work-hardening constitutive model were examined. Finally, it is intended to explain the stress properties of Cheongju granite soil used as a geotechnical material based on its shear behavior and critical state concept using the results of isotropic consolidation tests and triaxial compression tests. As a conclusion, it can be seen that in the relationship between confining stress and maximum deviator stress, the slope is maintained at a constant value of 2.95. In the drained CTC test, maximum deviator stress generally existed in a range of axial strain of 6~8% and larger dilatancy phenomena appeared when confining stress was smaller. Finally, based on the results of the CTC tests on Cheongju granite soil, although axial strain, deviator stress and pore water pressure showed mechanical properties similar to those of overconsolidated soil, Cheongju granite soil showed behavior similar to that of normally consolidated soil in terms of volumetric strain.

나선근에 의한 콘크리트의 횡보강 효과에 관한 실험적 연구 (An Experimental Research on the Confinement Effect of Concrete Specimens with Spirals)

  • 김진근;박찬규
    • 콘크리트학회지
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    • 제7권2호
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    • pp.146-154
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    • 1995
  • 이 연구에서는 중심 압축 하중을 받는 나선근으로 횡보강된 시험체에 대한 횡보강 효과를 실험적으로 규명하였다. 주요 변수는 콘크리트의 압축강도, 나선근의 간격과 나선근의 항복강도로서 콘크리트 압축강도는 27.2, 62.4, 81.2MPa, 나선근 간격은 120, 60, 40, 30, 25, 20mm 나선근의 항복 강도는 451,1375MPa로 하였다. 실험 결과, 동일한 나선근 체적비 및 항복 강도에서 횡보강된 콘크리트의 압축강도증가는 콘크리트의 압축강도에 관계없이 일정하였지만, 최대 응력에서의 축방향 변형도는 압축강도가 증가함에 따라 감소하는 것으로 나타났다.

平面應力狀態 에서 균열先端 의 小規模降伏 에 관한 有限要素解析 (Finite Element Analysis on the Small Scale Yielding of a Crack Tip in Plane Stress)

  • 임장근;맹주성;김병용
    • 대한기계학회논문집
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    • 제7권3호
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    • pp.270-277
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    • 1983
  • Plastic plane stress solutions are given for a center cracked strip, characterized by the Ramberg-Osgood plastic index, under bi-axial tension. Using a power law hardening stress-strain relation, an incremental plasticity finite element formulation is developed, and simple formulation is given for computing J-integral with nodal displacements. The near tip angular distribution of von Mises effective stress doesn't differ significantly in magnitude according to the change of loading stress and bi-axial load combination factor. But, for smaller plastic index, the location of its maximum value moves vertically at a head of crack. J-integral value, in the plastic zone near crack tip, decreases with load combination factor for large and small plastic index.

Compressive performances of concrete filled Square CFRP-Steel Tubes (S-CFRP-CFST)

  • Wang, Qingli;Shao, Yongbo
    • Steel and Composite Structures
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    • 제16권5호
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    • pp.455-480
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    • 2014
  • Sixteen concrete filled square CFRP-steel tubular (S-CFRP-CFST) stub columns under axial compression were experimentally investigated. The experimental results showed that the failure mode of the specimens is strength loss of the materials, and the confined concrete has good plasticity due to confinement of the CFRP-steel composite tube. The steel tube and CFRP can work concurrently. The load versus longitudinal strain curves of the specimens can be divided into 3 stages, i.e., elastic stage, elasto-plastic stage and softening stage. Analysis based on finite element method showed that the longitudinal stress of the steel tube keeps almost constant along axial direction, and the transverse stress at the corner of the concrete is the maximum. The confinement effect of the outer tube to the concrete is mainly focused on the corner. The confinements along the side of the cross-section and the height of the specimen are both non-uniform. The adhesive strength has little effect both on the load versus longitudinal strain curves and on the confinement force versus longitudinal strain curves. With the increasing of the initial stress in the steel tube, the load carrying capacity, the stiffness and the peak value of the average confinement force are all reduced. Equation for calculating the load carrying capacity of the composite stub columns is presented, and the estimated results agree well with the experimental results.

UNS N06690 제1열 시제전열관의 U-굽힘성형에서 형상변화와 표면잔류응력 (Geometric variations and surface residual stresses in U-bending processes of an UNS N06690 row-1 heat exchanger tubes)

  • 김우곤;장진성;국일현;주진원;김성청
    • 대한기계학회논문집A
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    • 제22권1호
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    • pp.238-246
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    • 1998
  • Surface residual stresses as well as wall thickness and ovality changes after U-bending process on UNS N06690 row-1 heat exchanger tubes, were estimated. Surface residual stresses were measured by Hole Drilling Method(HDM), calculating the stresses from relieved strains of 3 rosette strain gages. After bending of the tubes, dimensional tolerances for wall thickness and ovality were satisfied with ASTM requirements. Residual stresses at the extrados were introduced with compressive stress(-) by bending operations, and its maximum value reached-319 MPa in axial direction at ${\phi}=0^{\circ}$ in position. Tensile residual stresses(+) of ${\sigma}_zz=45$ MPa,${\sigma}_zz=25$ MPa were introduced in the intrados surface at position of ${\phi}=0^{\circ}$ Maximum tensile residual stress of 170 MPa was detected on the flank side at position of ,${\phi}=95^{\circ}$i.e., at apex region. It appeared that higher stress gradients were generated at the irregular transition regions. In the trend of residual stress changes with U-bend position, the extrados is related with the changes of ovality and the intrados is related with the changes of wall thickness.

인장시험을 유한요소해석 시뮬레이션하여 진응력-진변형도 곡선을 결정하는 방법 (True Stress-True Strain Curves Obtained by Simulating Tensile Tests Using Finite Element Program)

  • 주석재
    • 대한기계학회논문집A
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    • 제35권1호
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    • pp.25-31
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    • 2011
  • 인장시험할 때 최대하중점을 넘으며 네킹이 발생하여 단면에 분포하는 응력이 더 이상 균일하지 않다. 네킹이 진행될수록 상당응력은 축방향 응력과 더 달라진다. 이 네킹현상을 극복하고 진응력-진변형도 곡선을 결정하는 방법이 이제까지 많이 연구개발되었다. 그 중에서 유한요소해석 시뮬레이션을 이용하는 방법이 매력적이다. 이 논문에서는 범용상용 프로그램을 사용하여 인장시험을 시뮬레이션하였다. 같은 강괴에서 채취한 봉상시편과 판상시편을 인장시험하고 시뮬레이션하였다. Hollomon 법칙을 가정하지 않고 진응력-진변형도 곡선을 결정하였다.

Fracture mechanics analysis of multipurpose canister for spent nuclear fuels under horizontal/oblique drop accidents

  • Jae-Yoon Jeong;Cheol-Ho Kim;Hune-Tae Kim;Ji-Hye Kim;Yun-Jae Kim
    • Nuclear Engineering and Technology
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    • 제55권12호
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    • pp.4647-4658
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    • 2023
  • In this paper, elastic-plastic fracture mechanics analysis is performed to determine the critical crack sizes of the multipurpose canister (MPC) manufactured using austenitic stainless steel under dynamic loading conditions that simulate drop accidents. Firstly, dynamic finite element (FE) analysis is performed using Abaqus v.2018 with the KORAD (Korea Radioactive Waste Agency)-21 model under two drop accident conditions. Through the FE analysis, critical locations and through-thickness stress distributions in the MPC are identified, where the maximum plastic strain occurs during impact loadings. Then, the evaluation using the failure assessment diagram (FAD) is performed by postulating an external surface crack at the critical location to determine the critical crack depth. It is found that, for the drop cases considered in this paper, the principal failure mechanism for the circumferential surface crack is found to be the plastic collapse due to dominant high bending axial stress in the thickness. For axial cracks, the plastic collapse is also the dominant failure mechanism due to high membrane hoop stress, followed by the ductile tearing analysis. When incorporating the strain rate effect on yield strength and fracture toughness, the critical crack depth increases from 10 to 20%.