• 제목/요약/키워드: Johnson-Cook Failure Model

검색결과 15건 처리시간 0.026초

LS-DYNA 발파 모델링에서 현장암반의 특성을 반영하기 위한 Hoek-Brown 파괴기준과 Holmquist-Johnson-Cook 콘크리트 재료모델의 접목 (Integrating the Hoek-Brown Failure Criterion into the Holmquist-Johnson-Cook Concrete Material Model to Reflect the Characteristics of Field Rock Mass in LS-DYNA Blast Modeling)

  • 최병희;선우춘;정용복
    • 화약ㆍ발파
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    • 제38권3호
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    • pp.15-29
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    • 2020
  • 본 논문에서는 Hoek-Brown (HB) 파괴기준을 Holmquist-Johnson-Cook (HJC) 콘크리트 재료모델에 접목시킴으로써 LS-DYNA 상에서 암반발파를 모델링할 때 현장암반의 고유한 특성이 잘 반영될 수 있도록 도모하였다. 이것은 많은 지질학적 불연속면을 포함하고 있는 현장암반이 지니고 있는 독특한 특징을 강조하기 위함이다. 두 모델의 접목은 HB 파괴기준으로 HJC 재료모델의 정적 강도 부분을 교체함으로써 이루어지며, 교체과정은 통계학적 곡선적합 기법에 의해 수행된다. 본 논문에서는 접목의 과정이 상세하게 소개되며, 획득된 HJC 재료모델의 사용에 대한 실례도 제시된다. 제시된 수치계산은 현장의 석회암 암반의 단일공 발파에 대한 평면변형률 모델링으로서 LS-DYNA가 제공하는 유체-구조물 상호작용(FSI) 기법과 다중재료 라그랑주-오일러(MMALE) 정식화 기법을 조합하여 수행된다.

고체추진기기의 고장분포 기반의 균열전파 모델: 실험과의 비교 (Failure distribution based crack propagation in solid propellant container: Comparison with experiment)

  • 여재익
    • 한국추진공학회:학술대회논문집
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    • 한국추진공학회 2005년도 제24회 춘계학술대회논문집
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    • pp.47-52
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    • 2005
  • 이 논문은 열폭발 실험에서의 열적, 화학적, 기계적 행동의 결과에 대한 3차원 모델 결과를 나타낸다. 폭발이 관찰되기 전까지 제한된 고 폭발물은 시간당 $1^{\circ}C$의 비율로 가열된다. 임의의 Lagrangian-Euler 코드를 사용하여 모델링된 가열, 점화 그리고, deflagration 단계는 구조적에서 동적인 hydro 시간단계까지 변하는 넓은 범위의 시간 영역에서 다루어 질수 있다. Johnson-Cook Failure Model (JCFM)에 실험적 고장분포를 더하여 폭발기기의 균열방향과 fragment의 크기를 예측할 수 있는 모델을 개발한다.

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횡충격하중을 받는 빙해선박 구조물의 파단에 관한 연구 (On the Fracture of Polar Class Vessel Structures Subjected to Lateral Impact Loads)

  • 민덕기;조상래
    • 대한조선학회논문집
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    • 제49권4호
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    • pp.281-286
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    • 2012
  • Single frame structures with notches were fractured by applying drop impact loadings at room temperature and low temperature. Johnson-Cook shear failure model has been employed to simulate the fractured single frame structures. Through several numerical analyses, material constants for Johnson-Cook shear failure model have been found producing the cracks resulted from experiments. Fracture strain-stress triaxiality curves at both room temperature and low temperature are presented based on the extracted material constants. It is expected that the fracture strain-stress triaxiality curves can offer objective fracture criteria for the assessment of structural fractures of polar class vessel structures fabricated from DH36 steels. The fracture experiments of single frame structures revealed that the structure on low temperature condition fractures at much lower strain than that on room temperature condition despite the same stress states at both temperatures. In conclusion, the material properties on low temperature condition are essential to estimate the fracture characteristics of steel structures operated in the Northern Sea Route.

SHPB 기법과 확률이론을 이용한 고분자재료의 동적거동특성 및 건전성 평가 (Reliability Estimation and Dynamic Deformation of Polymeric Material Using SHPB Technique and Probability Theory)

  • 이억섭;김동혁
    • 대한기계학회논문집A
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    • 제32권9호
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    • pp.740-753
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    • 2008
  • The conventional Split Hopkinson Pressure Bar (C-SHPB) technique with aluminum pressure bars to achieve a closer impedance match between the pressure bars and the specimen materials such as hot temperature degraded POM (Poly Oxy Methylene) and PP (Poly Propylene) to obtain more distinguishable experimental signals is used to obtain a dynamic behavior of material deformation under a high strain rate loading condition. An experimental modification with Pulse shaper is introduced to reduce the nonequilibrium on the dynamic material response during a short test period to increase the rise time of the incident pulse for two polymeric materials. For the dynamic stress strain curve obtained from SHPB experiment under high strain rate, the Johnson-Cook model is applied as a constitutive equation, and we verify the applicability of this constitutive equation to the probabilistic reliability estimation method. The methodology to estimate the reliability using the probabilistic method such as the FORM and the SORM has been proposed, after compose the limit state function using Johnson-Cook model. It is found that the failure probability estimated by using the SORM is more reliable than those of the FORM, and the failure probability increases with the increase of applied stress. Moreover, it is noted that the parameters of Johnson-Cook model such as A and n, and applied stress affect the failure probability more than the other random variables according to the sensitivity analysis.

멀티노즐시스템의 노즐마개 파열 거동 분석 (An Evaluation on Rupture Behavior of Nozzle Closure in Multi-Nozzle System)

  • 노영희
    • 한국항공우주학회지
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    • 제42권9호
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    • pp.745-751
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    • 2014
  • 멀티 노즐로 구성된 추진기관의 경우, 각 노즐별 노즐마개 파열압력의 편차가 초기 분력을 유발하고 유도탄의 비행안정성에 영향을 미친다. 따라서 노즐마개 설계 시 먼저 형태별로 파열거동을 분석하여 원하는 파열압력에서 균일하게 파열되는지를 확인해야 한다. 본 연구에서는 평판형, "+" 노치형 노즐마개에 대한 파열거동을 실험적, 해석적인 방법으로 분석하였다. 실험 시 저장온도, 노치의 유무, 노치방향에 따른 노즐마개 파열압력 및 편차를 분석하였다. 그리고 유한요소해석을 통해 노즐마개의 파열거동을 순차적으로 분석하고, 그 결과를 실험값과 비교하여 정확성을 검증하고자 하였다. 해석 시 상용프로그램인 Abaqus/Explicit를 사용하였고, 파손모델은 Johnson-cook 전단파손모델을 적용하였다.

변형률 속도를 고려한 유한요소 기반 연성 찢김 해석 기법 개발 (Development of Finite Element Ductile Tearing Simulation Model Considering Strain Rate Effect)

  • 남현석;김지수;김진원;김윤재
    • 대한기계학회논문집A
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    • 제40권2호
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    • pp.167-173
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    • 2016
  • 본 논문은 유한요소해석을 이용한 고변형률 조건에서의 연성파손 해석기법을 제안한다. 고변형률 하중이 작용하는 구조물에 대한 파괴거동 예측을 위해 본 논문에서는 Johnson/Cook 모델을 고려한 수정응력 파괴변형률 모델을 사용하였다. 제시된 모델은 인장 실험 모사해석결과로부터 얻어지는 삼축응력 및 파괴변형률에 의해 파손이 정의된다. 다양한 실험속도의 인장 실험결과 및 정적 하중조건에서의 파괴인성 실험을 이용하여 수정응력 파괴변형률 모델의 변수를 결정하였다. 결정된 모델을 이용하여 동적하중조건에서 파괴인성시편에 대한 해석을 수행하였으며 해석결과와 실험결과를 비교하여 해석기법을 검증하였다.

폭발하중을 받는 콘크리트 보의 요소의존성 최소화 인장기준식 (A Tensile Criterion to Minimize FE Mesh-Dependency in Concrete Beam under Blast Loading)

  • 곽효경;강한글
    • 한국전산구조공학회논문집
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    • 제30권2호
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    • pp.137-143
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    • 2017
  • 본 논문에서는 파괴에너지이론에 기초하여 요소의존성을 최소화할 수 있는 인장파괴기준식을 제안하고 HJC(holmquist johnson cook), CSC(continuous surface cap), Orthotropic 모델을 이용한 폭발수치해석을 통해 기준식을 검증하였다. 폭발하중으로 인한 RC 보의 시간에 따른 중앙지점의 처짐을 실험결과와 비교하였다. 그 결과 기준식을 통해 산정된 파괴변형률을 수치해석상에 적용해줌으로써 해석결과의 요소의존성이 감소하였고 해의 정확성 또한 향상되는 것을 파악할 수 있었다.

A Parametric Study of Ridge-cut Explosive Bolts using Hydrocodes

  • Lee, Juho;Han, Jae-Hung;Lee, YeungJo;Lee, Hyoungjin
    • International Journal of Aeronautical and Space Sciences
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    • 제16권1호
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    • pp.50-63
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    • 2015
  • Explosive bolts are one of pyrotechnic release devices, which are highly reliable and efficient for a built-in release. Among them, ridge-cut explosive bolts which utilize shock wave generated by detonation to separate bolt body produce minimal fragments, little swelling and clean breaks. In this study, separation phenomena of ridge-cut explosive bolts or ridge-cut mechanism are computationally analyzed using Hydrocodes. To analyze separation mechanism of ridge-cut explosive bolts, fluid-structure interactions with complex material modeling are essential. For modeling of high explosives (RDX and PETN), Euler elements with Jones-Wilkins-Lee E.O.S. are utilized. For Lagrange elements of bolt body structures, shock E.O.S., Johnson-Cook strength model, and principal stress failure criteria are used. From the computational analysis of the author's explosive bolt model, computational analysis framework is verified and perfected with tuned failure criteria. Practical design improvements are also suggested based on a parametric study. Some design parameters, such as explosive weights, ridge angle, and ridge position, are chosen that might affect the separation reliability; and analysis is carried out for several designs. The results of this study provide useful information to avoid unnecessary separation experiments related with design parameters.

변형률속도 변화에 따른 INCONEL 718 초내열합금의 동적 물성특성 (Dynamic Material Characteristics of Superalloy INCONEL 718 with the Variation of Strain Rates)

  • 송정한;허훈
    • 한국소성가공학회:학술대회논문집
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    • 한국소성가공학회 2005년도 춘계학술대회 논문집
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    • pp.275-278
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    • 2005
  • INCONEL 718, nickel based superalloy, has good formability, high strength, excellent corrosion resistance and mechanical properties at high temperature. Owing to theses attractive properties, it finds use in applications such as combustion system, turbine engines and nuclear reactors. In such applications, components are typically required to be tolerant of high stress impact loading. This may cause material degradation and lead to catastrophic failure during service operation. In order to design optimal structural parts made of INCONEL 718, accurate understanding of material's mechanical properties, dynamic behavior and fracture characteristic as a function of strain rates are required. This paper concerned with the dynamic material properties of the INCONEL 718 for the various strain rates. The dynamic response of the INCONEL 718 at intermediate strain rate is obtained from the high speed tensile test machine test and at the high strain rate is from the split Hopkinson pressure bar test. Based on the experimental results, the effects of strain rate on dynamic flow stress, work hardening characteristics, strain rate sensitivity and elongation to the failure are evaluated. Experimental results from both quasi-static and high strain rate up to the 5000/sec are interpolated in order to construct the Johnson-Cook model as the constitutive relation that should be applied to simulate and design the structural parts made of INCONEL 718.

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변형률속도 변화에 따른 INCONEL 718 초내열합금의 동적 물성특성 (Dynamic Material Characteristics of Superalloy INCONEL 718 with the Variation of Strain Rates)

  • 송정한;허훈
    • 소성∙가공
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    • 제14권6호
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    • pp.559-564
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    • 2005
  • INCONEL 718, nickel based superalloy, has good formability, high strength, excellent corrosion resistance and mechanical properties at high temperature. Owing to theses attractive properties, it is utilized in applications such as combustion system, turbine engines and nuclear reactors. In such applications, components are typically required to be tolerant of high stress impact loading. This may cause material degradation and lead to catastrophic failure during service operation. Accurate understanding of material's mechanical properties with various strain rates is required in order to guarantee the reliability of structural parts made of INCONEL 718. This paper is concerned with the dynamic material properties of the INCONEL 718 at various strain rates. The dynamic response of the INCONEL 718 at the intermediate strain rate is obtained from the high speed tensile test and at the high strain rate is from the split Hopkinson pressure bar test. The effect of the strain rate on dynamic flow stress, work hardening characteristics, strain rate sensitivity and elongation to the failure is evaluated with the experimental results. Experimental results from both the quasi-static and the high strain rate up to 5000/sec are interpolated in order to construct the Johnson-Cook model as the constitutive relation that should be applied to simulate and design the structural parts made of rNCONEL 718.