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      점진성형공구 코팅처리 및 소재에 따른 성형품 표면품질 분석 = Surface Quality of Products according to the Material and Coating Condition of the Forming Tool in Incremental Sheet Forming

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      https://www.riss.kr/link?id=A108871536

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      This study is concerned with the surface quality of products according to the material and coating condition of the forming tool in incremental sheet forming. Three forming tools, SKD11 with and without diamond-like-coating (DLC) and polymer tool tip, were used to form conical and pyramidal geometries to take into account the influence of friction between the forming tool and the sheet on the surface quality including geometric accuracy of deformed samples. Each test was performed using SUS304 with a thickness of 0.4 mm according to different incremental depths per lap of 0.5 mm, 1.0 mm, and 1.5 mm for the contour tool path, considering the increase in normal force which is associated with the frictional behavior during local deformation. The surface quality was then investigated through surface roughness measured with KEYENCE VR-6000 and relative strain distribution including deformed shape analyzed with ARGUS which is a non-contact optical strain measurement system. Differences between 3D CAD surfaces and captured geometry from experiments were evaluated to compare the effect of friction on geometric accuracy. From comparisons of experimental results, it was revealed that the polymer-based tool tip can improve surface quality and geometric accuracy by reducing the undesired material flow due to local friction in the increment sheet forming process.
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      This study is concerned with the surface quality of products according to the material and coating condition of the forming tool in incremental sheet forming. Three forming tools, SKD11 with and without diamond-like-coating (DLC) and polymer tool tip,...

      This study is concerned with the surface quality of products according to the material and coating condition of the forming tool in incremental sheet forming. Three forming tools, SKD11 with and without diamond-like-coating (DLC) and polymer tool tip, were used to form conical and pyramidal geometries to take into account the influence of friction between the forming tool and the sheet on the surface quality including geometric accuracy of deformed samples. Each test was performed using SUS304 with a thickness of 0.4 mm according to different incremental depths per lap of 0.5 mm, 1.0 mm, and 1.5 mm for the contour tool path, considering the increase in normal force which is associated with the frictional behavior during local deformation. The surface quality was then investigated through surface roughness measured with KEYENCE VR-6000 and relative strain distribution including deformed shape analyzed with ARGUS which is a non-contact optical strain measurement system. Differences between 3D CAD surfaces and captured geometry from experiments were evaluated to compare the effect of friction on geometric accuracy. From comparisons of experimental results, it was revealed that the polymer-based tool tip can improve surface quality and geometric accuracy by reducing the undesired material flow due to local friction in the increment sheet forming process.

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      참고문헌 (Reference)

      1 경준현 ; 이병협 ; 이선재 ; 조경훈 ; 윤형원 ; 이창환, "볼 타입 공구를 사용한 판재 점진 성형 공정의 성형 특성 분석" 한국정밀공학회 39 (39): 371-378, 2022

      2 P. G. McMenamin, "The production of anatomical teaching resources using three-dimensional(3D)printing technology" 7 (7): 479-486, 2014

      3 H. Lee, "Recent developments and trends in flexible forming technology" 23 (23): 741-763, 2022

      4 Hyung‑Rim Lee ; Myoung‑Gyu Lee ; Namsu Park, "Incremental Tube Forming Process with a Novel Free Rotating Bearing Tool Tip: Experiment and FE Modeling with Anisotropic Plasticity Model" 대한금속·재료학회 28 (28): 2356-2370, 2022

      5 M. Kim, "Evaluation of deformation for titanium alloy sheet in single point incremental forming based on asymmetric yield function" 15 (15): 1-12, 2022

      6 H. R. Lee, "Effect of evolutionary anisotropic hardening on the prediction of deformation and forming load in incremental sheet forming simulation" 193 : 111231-, 2023

      7 J.H. Lee, "Analysis of Formability and Wrinkle Formation according to the Thickness of Ultra-thin Stainless Steel in the Incremental Sheet forming Process Trans" 28 (28): 328-334, 2019

      8 N. Shahrubudin, "An overview on 3D printing technology : Technological, materials, and applications" 35 : 1286-1296, 2019

      9 Q. Yan, "A review of 3D printing technology for medical applications" 4 (4): 729-742, 2018

      1 경준현 ; 이병협 ; 이선재 ; 조경훈 ; 윤형원 ; 이창환, "볼 타입 공구를 사용한 판재 점진 성형 공정의 성형 특성 분석" 한국정밀공학회 39 (39): 371-378, 2022

      2 P. G. McMenamin, "The production of anatomical teaching resources using three-dimensional(3D)printing technology" 7 (7): 479-486, 2014

      3 H. Lee, "Recent developments and trends in flexible forming technology" 23 (23): 741-763, 2022

      4 Hyung‑Rim Lee ; Myoung‑Gyu Lee ; Namsu Park, "Incremental Tube Forming Process with a Novel Free Rotating Bearing Tool Tip: Experiment and FE Modeling with Anisotropic Plasticity Model" 대한금속·재료학회 28 (28): 2356-2370, 2022

      5 M. Kim, "Evaluation of deformation for titanium alloy sheet in single point incremental forming based on asymmetric yield function" 15 (15): 1-12, 2022

      6 H. R. Lee, "Effect of evolutionary anisotropic hardening on the prediction of deformation and forming load in incremental sheet forming simulation" 193 : 111231-, 2023

      7 J.H. Lee, "Analysis of Formability and Wrinkle Formation according to the Thickness of Ultra-thin Stainless Steel in the Incremental Sheet forming Process Trans" 28 (28): 328-334, 2019

      8 N. Shahrubudin, "An overview on 3D printing technology : Technological, materials, and applications" 35 : 1286-1296, 2019

      9 Q. Yan, "A review of 3D printing technology for medical applications" 4 (4): 729-742, 2018

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