• 제목/요약/키워드: Severe Plastic Deformation(SPD)

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Pure-Zirconium의 ECAP 공정에서의 금형의 교차각과 만곡각에 따른 재료의 변형거동해석 (Analysis of Deformation Behavior due to Die Angles during Equal Channel Angular Pressing (ECAP) with Pure-Zirconium)

  • 권기환;채수인;권숙인;김명호;황선근
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2000년도 추계학술대회논문집A
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    • pp.747-753
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    • 2000
  • There has been a number of investigations in recent years reporting the results obtained on the structure and properties of metals deformed to severe plastic deformation (SPD). Being deformed to SPD, ultra-fine grains (UFG) are usually formed, and UFG structure exhibits fundamental differences in original physical properties. One method often used to obtain SPD is equal channel angular pressing (ECAP). In order for this technique to be exploited, it is important to understand the deformation behavior during the ECAP processing and relationship to the configuration of die. The finite element method (FEM) has been used to investigate this issue. It has been found that the plastic deformation is sensitive to the channel angle and material properties and is not uniform across the width of the specimen and the pressing load is relative to deformation during the ECAP processing.

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새로운 강소성 가공 공정으로서 Half Channel Angular Extrusion(HCAE)의 유한요소해석 (Finite Element Analysis of Half Channel Angular Extrusion (HCAE) as a New Severe Plastic Deformation Process)

  • 김경진
    • 소성∙가공
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    • 제21권3호
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    • pp.164-171
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    • 2012
  • This paper focuses on the development of a new SPD (severe plastic deformation) process named HCAE (half channel angular extrusion). HCAE technology is based on principled similar to ECAE, but imposes a larger amount and more effective plastic deformation on materials. The amount of shear deformation can be altered by varying the process parameters. Finite element analyses of HCAE were conducted in order to investigate the characteristics of deformation during HCAE and the simulated results show that the predicted value of imposed plastic strain in a single pass reaches 2.5.

유한요소해석을 이용한 HCAE 공정의 가공 경로가 AZ61 마그네슘 합금의 변형 특성에 미치는 영향에 대한 연구 (Effects of Processing Routes on the Deformation Behavior of an AZ61 Mg Alloy by Half Channel Angular Extrusion(HCAE) using 3D Finite Element Analysis)

  • 이상익;윤종헌;김경진
    • 소성∙가공
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    • 제23권3호
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    • pp.151-158
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    • 2014
  • Half channel angular extrusion(HCAE) is the integration of equal channel angular extrusion(ECAE), which is a well-known severe plastic deformation(SPD) method, with conventional forward extrusion in order to increase the strain per pass and effectiveness of the grain refinement. In the current study, the effects of processing routes during HCAE(Routes A, B, and C) on the strain distribution of the specimens have been investigated for an AZ61 Mg alloy by using three-dimensional finite element analysis. Comparisons with the results from a multi-pass of ECAE are made.

Pure-Zr의 ECAP공정에서 마찰의 영향 (Frictional Effect during Equal Channel Angular Pressing(ECAP) with Pure-Zr)

  • 박상석;권기환;채수원;권숙인;김명호;황선근
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2000년도 추계학술대회 논문집
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    • pp.409-412
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    • 2000
  • Much research efforts have been made on the structure and properties of metals deformed to severe plastic deformation (SPD). Being deformed to SPD, ultra-fine grains (UFG) are usually formed, and UFG structure exhibits fundamental differences in original physical properties. One method often used to obtain SPD is equal channel angular pressing (ECAP). In order for this technique to be exploited, it is important to understand the deformation behavior during the ECAP processing with respect to friction. The finite element method (FEM) has been used to investigate this issue.

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분말 ECAP 공정에 미치는 금형 모서리각 효과에 대한 유한요소해석 (Finite Element Analysis on the Effect of Die Corner Angle in Equal Channel Angular Pressing Process of Powders)

  • 윤승채;복천희;팜쾅;김형섭
    • 한국분말재료학회지
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    • 제14권1호
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    • pp.26-31
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    • 2007
  • Manufacturing bulk nanostructured materials with least grain growth from initial powders is challenging because of the bottle neck of bottom-up methods using the conventional powder metallurgy of compaction and sintering. In this study, bottom-up type powder metallurgy processing and top-down type SPD (Severe Plastic Deformation) approaches were combined in order to achieve both real density and grain refinement of metallic powders. ECAP (Equal Channel Angular Pressing), one of the most promising processes in SPD, was used for the powder consolidation method. For understanding the ECAP process, investigating the powder density as well as internal stress, strain distribution is crucial. We investigated the consolidation and plastic deformation of the metallic powders during ECAP using the finite element simulations. Almost independent behavior of powder densification in the entry channel and shear deformation in the main deformation zone was found by the finite element method. Effects of processing parameters on densification and density distributions were investigated.

등통로각압축공정을 통한 결정립의 균질한 초미세립화에 대한 고찰 (Evaluation of Homogeneous Ultra-fine Grain Refinements via Equal Channel Angler Pressing Process)

  • 김우열;이학현;서승재;이재근;윤태식;김형섭
    • 소성∙가공
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    • 제27권4호
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    • pp.222-226
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    • 2018
  • Severe plastic deformation (SPD) is a promising method for drastically enhancing the mechanical properties of the materials by grain refinement of metallic materials. However, inhomogeneous deformation during the SPD process results in the inhomogeneous microstructure of the SPD-processed material. We manufactured cylindrical copper specimens of 42 mm in diameter with ultrafine grains (UFG) using an equal channel angular pressing (ECAP) to figure out the relationship between homogeneous microstructure and the number of the processing passes. Two specimens, which are ECAP-processed 4 times (4pass) and 6 times (6pass) each with Route Bc, are prepared for comparison of mechanical properties and microstructure. The results show that the mechanical properties of the two specimens (4pass and 6pass) are similar. Moreover, both the specimens show highly enhanced mechanical properties. The 4pass specimen, however, shows inhomogeneity in hardness distribution, while the 6pass specimen shows a homogeneous distribution. Microstructure analysis reveals that the 4pass specimen has an inhomogeneous microstructure with incompletely refined grain structure. This inhomogeneity of the 4pass specimen could be explained by the circumferential rotation during ECAP process.

분말 ECAP 공정 시 치밀화의 유한요소해석 (Finite Element Analysis of Densification Behavior during Equal Channel Angular Pressing Process of Powders)

  • 윤승채;팜쾅;천병선;이홍로;김형섭
    • 한국분말재료학회지
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    • 제13권6호
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    • pp.415-420
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    • 2006
  • Nanostructured metallic materials are synthesized by bottom-up processing which starts with powders for assembling bulk materials or top-down processing starting with a bulk solid. A representative bottom-up and top-down paths for bulk nanostructured/ultrafine grained metallic materials are powder consolidation and severe plastic deformation (SPD) methods, respectively. In this study, the bottom-up powder and top-down SPD approaches were combined in order to achieve both full density and grain refinement without grain growth, which were considered as a bottle neck of the bottom-up method using conventional powder metallurgy of compaction and sintering. For the powder consolidation, equal channel angular pressing (ECAP), one of the most promising method in SPD, was used. The ECAP processing associated with stress developments was investigated. ECAP for powder consolidation were numerically analyzed using the finite element method (FEM) in conjunction with pressure and shear stress.

CNT/Cu 혼합분말의 ECAP 공정 시 치밀화 및 소성변형 거동 해석 (Analyses of Densification and Plastic Deformation during Equal Channel Angular Pressing of CNT/Cu Powder Mixtures)

  • 팜쾅;윤승채;정영기;김형섭
    • 한국소성가공학회:학술대회논문집
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    • 한국소성가공학회 2006년도 춘계학술대회 논문집
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    • pp.123-126
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    • 2006
  • In this study, bottom-up type powder processing and top-down type SPD (severe plastic deformation) approaches were combined in order to achieve full density of carbon nanotube (CNT)/metal matrix composites with superior mechanical properties by improved particle bonding and least grain growth, which were considered as a bottle neck of the bottom-up method using the conventional powder metallurgy of compaction and sintering. ECAP (equal channel angular pressing), the most promising method in SPD, was used for the CNT/Cu powder consolidation. The powder ECAP processing with 1, 2, 4 and 8 route C passes was conducted at room temperature.

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연속 다단 ECAP 공정을 통한 급속응고 Al-20 wt% Si 합금 분말의 고형화 및 특성 평가 (Consolidation and Mechanical Property of Rapidly Solidified Al-20 wt% Si Alloy Powders by Continuous Equal Channel Multi-Angular Pressing)

  • 윤승채;복천희;서민홍;홍순직;김형섭
    • 한국분말재료학회지
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    • 제15권1호
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    • pp.31-36
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    • 2008
  • In this study, the bottom-up powder metallurgy and the top-down severe plastic deformation (SPD) techniques for manufacturing bulk nanomaterials were combined in order to achieve both full density and grain refinement without grain growth of rapidly solidified Al-20 wt% Si alloy powders during consolidation processing. Continuous equal channel multi-angular processing (C-ECMAP) was proposed to improve low productivity of conventional ECAP, one of the most promising method in SPD. As a powder consolidation method, C-ECMAP was employed. A wide range of experimental studies were carried out for characterizing mechanical properties and microstructures of the ECMAP processed materials. It was found that effective properties of high strength and full density maintaining nanoscale microstructure are achieved. The proposed SPD processing of powder materials can be a good method to achieve fully density and nanostructured materials.

High Temperature Deformation Behavior of Nano Grain W Produced by SPD-PM Process

  • Oda, Eiji;Ohtaki, Takao;Kuroda, Akio;Fujiwara, Hiroshi;Ameyama, Kei;Yoshida, Kayo
    • 한국분말야금학회:학술대회논문집
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    • 한국분말야금학회 2006년도 Extended Abstracts of 2006 POWDER METALLURGY World Congress Part 1
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    • pp.126-127
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    • 2006
  • In this study, nano grain W is fabricated by Severe Plastic Deformation-Powder Metallurgy (SPD-PM) process. W powder and W-Re powder mixtures are processed by SPD-PM process, a Mechanical Milling (MM) process. As results, a nano grain structure, whose grain size is approximately 20nm, is obtained in W powder after MM for 360ks. A nano grain W compact, whose grain size 630nm, has excellent deformability above 1273K. A nano grain W-10Re compact is composed of equiaxed grain, a grain growth is restrained and has low dislocation density after the large deformation; therefore it is considered that W-Re compact shows superplasticity.

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