• 제목/요약/키워드: Dislocation density evolution

검색결과 17건 처리시간 0.028초

다결정 미세입자 소각입계면에서의 전위밀도 확산 (Dislocation Density Propagation adjacent to the Low Angle Grain Boundaries of Polycrystalline Materials)

  • 마정범
    • 한국생산제조학회지
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    • 제20권5호
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    • pp.618-622
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    • 2011
  • Specialized large-scale computational finite-element and molecular dynamic models have been used in order to understand and predict how dislocation density emission and contact stress field due to nanoindentation affect inelastic deformation evolution scales that span the molecular to the continuum level in ductile crystalline systems. Dislocation density distributions and local stress fields have been obtained for different crystalline slip-system and grain-boundary orientations. The interrelated effects of grain-boundary interfaces and orientations, dislocation density evolution and crystalline structure on indentation inelastic regions have been investigated.

전위쎌에 기초한 미세조직 구성모델을 이용한 ECAP 공정 시 변형과 미세조직의 진화 해석 (Analysis of Deformation and Microstructural Evolution during ECAP Using a Dislocation Cell Related Microstructure-Based Constitutive Model)

  • 김형섭
    • 한국소성가공학회:학술대회논문집
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    • 한국소성가공학회 2004년도 추계학술대회논문집
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    • pp.207-210
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    • 2004
  • The deformation behavior of copper during equal channel angular pressing (ECAP) was calculated using a three-dimensional version of a constitutive model based on the dislocation density evolution. Finite element simulations of the variation of the dislocation density and the dislocation cell size with the number of ECAP passes are reported. The calculated stress, strain and cell size are compared with the experimental data for Cu deformed by ECAP in a modified Route C regime. The results of FEM analysis were found to be in good agreement with the experiments. After a rapid initial decrease down to about 200 nm in the first ECAP pass, the average cell size was found to change little with further passes. Similarly, the strength increased steeply after the first pass, but tended to saturate with further pressings. The FEM simulations also showed strain non-uniformities and the dependence of the resulting strength on the location within the workpiece.

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미세조직학적 변수를 고려한 합금의 구성모델링 (Constitutive Modelling of Alloys Implementing Microstructural Variables)

  • 김형섭;김성호;류우석
    • 한국소성가공학회:학술대회논문집
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    • 한국소성가공학회 2002년도 춘계학술대회 논문집
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    • pp.129-132
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    • 2002
  • A unified elastic-viscoplastic ocnstitutive model based on dislocation density considerations is described. A combination of a kinetic equation, which describes the mechanical response of a material at a given microstructure in terms of dislocation glide and evolution equations for internal variables characterizing the microstructure provide the constitutive equations of the Model. Microstructural features of the material, such as the grain size, spacing between second phase particles etc., are directly implemented in the constitutive equations. The internal variables are associated with the total dislocation density in the simple version of the model. The model has a modular structure and can be adjusted to describe a particular type of metal forming processes.

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전위쎌에 기초한 미세조직 구성모델을 이용한 ECAP 공정 시 소성변형과 미세조직의 진화 (Plastic Deformation and Microstructural Evolution during ECAP Using a Dislocation Cell Related Microstructure-Based Constitutive Model)

  • 윤승채;백승철;김형섭
    • 소성∙가공
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    • 제15권6호
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    • pp.441-444
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    • 2006
  • The deformation behavior of copper during equal channel angular pressing(ECAP) was calculated using a three-dimensional version of a constitutive model based on the dislocation density evolution. Finite element simulations of the variation of the dislocation density and the dislocation cell size with the number of ECAP passes are reported. The calculated stress, strain and cell size are compared with the experimental data for Cu deformed by ECAP in a modified Route C regime. The results of FEM analysis were found to be in good agreement with the experiments. After a rapid initial decrease down to about 200nm in the first ECAP pass, the average cell size was found to change little with further passes. Similarly, the strength increased steeply after the first pass, but tended to saturate with further pressings. The FEM simulations also showed strain non-uniformities and the dependence of the resulting strength on the location within the workpiece.

미세조직기반 구성모델을 이용한 고크롬강의 크리프 거동 해석 (Creep Behavior Analysis of High Cr Steel Using the Constitutive Model Based on Microstructure)

  • 윤승채;서민홍;백경호;김성호;류우석;김형섭
    • 소성∙가공
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    • 제13권2호
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    • pp.160-167
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    • 2004
  • In order to theoretically analyze the creep behavior of high Cr steel at $600^{\circ}C$, a unified elasto-viscoplastic constitutive model based on the consideration of dislocation density is proposed. A combination of a kinetic equation describing the mechanical response of a material at a given microstructure in terms of dislocation glide and evolution equations for internal variables characterizing the microstructure provides the constitutive equations of the model. Microstructural features of the material such as the grain size and spacing between second phase particles are directly implemented in the constitutive equations. The internal variables are associated with the total dislocation density in a simple model. The model has a modular structure and can be adjusted to describe a creep behavior using the material parameters obtained from uniaxial tensile tests.

Cu와 Cu-Zn 합금의 저주기피로 동안 발달한 미세조직 평가를 위한 비파괴기술 (Nondestructive Techniques for Characterization of Microstructural Evolution during Low Cycle Fatigue of Cu and Cu-Zn Alloy)

  • 김정석;장경영;현창용
    • 비파괴검사학회지
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    • 제31권1호
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    • pp.32-39
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    • 2011
  • 본 연구에서는 Cu와 Cu-Zn 합금의 저주기 피로 동안 발달한 전위 하부조직의 변화를 비파괴적으로 구분하고 평가하고자 하였다. 비파괴시험으로 초음파속도, 전기비저항 그리고 양성자소멸시간을 측정하였다. 서로 다른 적층결함 에너지를 갖는 Cu와 Cu-Zn에 대해 반복피로시험을 수행하고 이들 재료에서의 전위거동과 비파괴평가 파라미터와의 상관성을 연구하였다. Cu는 전위셀 하부구조를 형성하였지만, Cu-Zn 합금은 피로 사이클에 따라서 전위밀도는 증가하고 단지 평면배열의 전위구조를 형성하였다. 상온에서의 반복적인 피로에 의해 발달한 격자결함인 전위와 공공으로 인해 초음파속도의 감소, 전기비저항의 증가 그리고 양성자 소멸시간이 증가하였다. 비파괴평가파라미터의 지속적인 변화를 보이는 평면배열의 전위구조를 갖는 Cu-Zn에서와 달리, Cu에서는 전위셀구조가 발달하면서 더 이상의 큰 변화를 보이지 않았다.

전위 셀 구성모델을 결합한 유한요소법을 이용한 3차원 등통로각압출 공정 해석 (Analysis of Three Dimensional Equal Chanel Angular Pressing by Using the Finite Element Method in Conjunction with the Dislocation Cell Based Constitutive Model)

  • 윤승채;김형섭
    • 대한금속재료학회지
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    • 제47권11호
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    • pp.699-706
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    • 2009
  • Deformation behavior of pure aluminum during equal channel angular pressing (ECAP) was simulated using a three-dimensional version of the finite element method in conjunction with a constitutive model based on the dislocation density and cell evolution. The three-dimensional finite element analyses for the prediction of microstructural features, such as the variation of the dislocation density and the cell size with the number of ECAP, are reported. The calculated stress and strain and their distributions are also investigated for the route Bc ECAP processed pure aluminum. The results of finite element analyses are found to be in good agreement with experimental results for the dislocation cell size. Due to the accumulation of strain throughout the workpiece and an overall trend to saturation in cell size, a decrease of the difference in cell size with the number of passes (1~4) was predicted.

Al-6.2wt.%Si 합금의 등온교반시간에 따른 미세조직변화 (Microstructural evolution of rheocast Al-6.2wt.%Si alloy with isothermal stirring)

  • 이정일;박지호;김긍호;이호인
    • 한국주조공학회지
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    • 제15권5호
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    • pp.514-522
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    • 1995
  • The microstructural evolution with isothermal stirring during semi-solid state processing of hypoeutectic Al-6.2wt%Si alloy was studied. Substructure of the individual primary solid particle in the slurry was investigated through transmission electron microscopy(TEM). Formation of subgrain boundaries on the rheocast Al-6.2wt%Si alloy is observed and the misorientation between the grains is shown typically under 2 degrees by analyzing selected area diffraction (SAD) and convergent beam electron diffraction (CBED) patterns. The existence of high angle grain boundaries are also observed in the alloy. Based upon these observations, mechanisms for the primary particles fragmentation are considered. With isothermal stirring, the dislocation density increases, and the evolution of dislocation cell structure takes place, which is interpreted as a process of achieving uniform deformation by dynamic recovery under applied shear stress.

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열처리에 따른 미세구조 변화가 Ti 판재의 부식특성에 미치는 영향 (The Effect of Microstructural Evolution on Corrosion Property of Ti Plate with Heat Treatment)

  • 김민규;이찬수;김태규;김혜성
    • 열처리공학회지
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    • 제31권1호
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    • pp.12-17
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    • 2018
  • We investigated the corrosion behavior of commercially pure cold working processed (CP)-Ti with coarse-grained (CG) microstructure heat-treated at $400^{\circ}C$ and $600^{\circ}C$, respectively. It is observed that corrosion resistance of as-received CP-Ti heat-treated at $400^{\circ}C$, at which recrystallization proceeds, is largely improved. Interestingly, the mechanical property of CP-Ti sample at $400^{\circ}C$ was scarcely deteriorated. It is attributed to the decrease of the defects such as strain variance and dislocation density. On the other hand, the annealing treatment at $600^{\circ}C$ of CP-Ti plate causes to grain growth with the noticeable reduction of mechanical property. Hence, it is considered that defect density such as strain and dislocation density is important microstructural parameter for the improvement of corrosion resistance. The introduction of proper annealing treatment can help to improve corrosion resistance without scarifying mechanical property of CP-Ti.

초초임계압 발전용 소재의 장시간 열처리에 따른 미세조직 변화와 기계적 특성의 상관관계 연구 (A Study on Correlation of Microstructural Degradation and Mechanical Properties of 9-12%Cr-Steel for Ultra-Super Critical Power Generation)

  • 주성욱;유정훈;신기삼;허성강;이재현;석진익;김정태;김병훈
    • 한국재료학회지
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    • 제15권1호
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    • pp.19-24
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    • 2005
  • For the good combination of high-temperature strength, toughness and creep property, $9-12\%$ chromium steels are often used for gas turbine compressors, steam turbine rotors, blade and casing. In this study, the correlation of microstructural evolution and mechanical properties was investigated fur the specimens heat-treated at 600, 650 and $700^{\circ}C$ for 1000, 3000 and 5000 hrs. The microstructure of as-received specimen was tempered martensite with a high dislocation density, small sub-grains and fine secondary phase such as $M_23C_6$. Aging for long-time at high temperature caused the growth of martensite lath and the decrease of dislocation density resulting in the decrease in strength. However, the evolution of secondary phases had influence on hardness, yield strength and impact property. In the group A specimen aged at $600^{\circ}C\;and\;650^{\circ}C$, Laves phase was observed. The Laves phase caused the increase of the hardness and the decrease of the impact property. In addition, the abrupt growth of secondary phases caused decrease of the impact property in both A and B group specimens.