• Title/Summary/Keyword: Automotive outer door panel

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Deformation Characteristics of an Automotive Outer Door Panel by Vacuum-assisted Incremental Sheet Forming using Multi-tool paths (진공점진성형에서 복합공구경로가 차량용 외판부 도어패널의 변형특성에 미치는 영향 분석)

  • H.W. Youn;N. Park
    • Transactions of Materials Processing
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    • v.32 no.4
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    • pp.208-214
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    • 2023
  • This paper discusses the deformation characteristics of a scaled-down automotive outer door panel with vacuum-assisted incremental sheet forming. The vacuum condition between the die and Al6052-H32 sheet with a thickness of 1.0 mm is reviewed with the goal of improving the geometrical accuracy of the target product. The material flow according to the forming tool path, including the multi-tool path and conventional contour tool path, is investigated considering the degradation of the pillow effect. To reduce friction between the tool and the sheet during incremental forming, automotive engine oil (5W-30) is used as a lubricant, and the strain field on the surface of the formed product is analyzed using ARGUS. By comparing the geometry and material flow characteristics of products under different test conditions, it is confirmed that the product surface quality can be significantly improved when the vacuum condition is employed in conjunction with a multi-tool path strategy.

Forming of Automotive Outer Body Panel using High Strength Steel Sheet for Improving Dent Resistance (차체 외판 부품의 내덴트성 향상을 위한 고강도 강판의 성형에 관한 연구)

  • Kim, T.J.;Kim, I.S.;Jung, Y.I.;Yoon, C.S.;Lim, J.D.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2007.05a
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    • pp.322-325
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    • 2007
  • Dent resistance is an important characteristic to avoid damage on automotive outer panels. From a practical point of view, dents can be caused in a number of ways. Considering doors as an example, denting can occur from stone impacts or from the careless opening of an adjacently parked vehicle door. Denting can occur where the door surface is smooth and may not have sufficient curvature to resist dent. These exterior body parts are designed to improve dent resistance using a combination of work hardening and bake hardening. In brief, dent is affected by the shape of the parts and the material properties such as yield strength, strain and thickness. In this work, forming of door outer panel is investigated by Taguchi method. Main parameters are yield strength, thickness, blank size, blank holding force and so on. For the given value of design parameters, forming analysis of the thirty six cases are carried out according to L18 orthogonal array. After comparing the performance by simple conversion of simulation results into dent resistance, the final suggestion of the forming parameters is verified for the best improvement of dent resistance.

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3-Dimensional Finite Element Analysis of Hemming for Automotive Outer Panels by Part Model Assembling Method (부분모델 합성법을 이용한 자동차 외판의 헤밍 공정에 대한 3차원 유한요소해석)

  • 김헌영;임희택;김형종;이우홍;박춘달
    • Transactions of Materials Processing
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    • v.13 no.2
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    • pp.115-121
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    • 2004
  • Hemming is the last farming process in stamping and determines external quality of automotive outer panels. Few numerical approaches using 3-dimensional finite element model have been applied to a hemming process due to small element size which is needed to express the bending behavior of the sheet around small die comer and comparatively big model size of automotive opening parts, such as side door, back door and trunk lid etc In this study, part model assembling method is suggested and applied to the 3-dimensional finite element simulation of flanging and hemming process far an automotive front hood.

Development of Door Outer Panel using High Strength Steel Sheet for Improving Dent Resistance (내덴트성 향상을 위한 고강도 도어 외판 개발)

  • Kim, I.S.;Kim, T.J.;Jung, Y.I.;Yoon, C.S.;Lim, J.D.
    • Transactions of Materials Processing
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    • v.16 no.4 s.94
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    • pp.254-259
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    • 2007
  • Dent resistance is an important characteristic to avoid damage on automotive outer panels. From a practical point of view, dents can be caused in a number of ways. Considering doors as an example, denting can occur from stone impacts or from the careless opening of an adjacently parked vehicle door. Denting can occur where the door surface is smooth and may not have sufficient curvature to resist dent. These exterior body parts are designed to improve dent resistance using a combination of work hardening and bake hardening. In brief, dent is affected by the shape of the parts and the material properties such as yield strength, strain and thickness. In this work, forming of door outer panel is investigated by Taguchi method. Main parameters are yield strength, thickness, blank size, blank holding force and so on. For the given value of design parameters, forming analysis of the eighteen cases are carried out according to L18 orthogonal array. After comparing the performance by simple conversion of simulation results into dent resistance, the final suggestion of the forming parameters is verified for the optimal improvement of dent resistance.

A STUDY ON CAE APPLICATION FOR FORMING(STAMPING) OF AUTOMOTIVE PANEL AND IMPROVEMENT OF DIE MANUFATURING PROCESS (자동차 PANEL 성형 CAE 적용 사례 연구 및 금형제작 PROCESS의 개선)

  • 박용국;김재훈;곽태수
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 1998.06a
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    • pp.33-40
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    • 1998
  • In recent domestic automotive industry, applications of computer simulation to the manufacturing of stamping dies for inner and outer body panels which greatly affect durability and aesthetic quality of automobiles, have been increased. Enhancement of die quality, and reduction of total die manufacturing time and consequently manufacturing cost are the visible outcome. However, to successfully apply the result of simulation by a commercial package to the die manufacturing, development of an optimal die manufacturing process is required upon the completion of analysis of forte and shortcomings of available sheet metal forming softwares in the market. Based on the results of numerical analysis of front door outer panel forming, this paper evaluates the applicability of simulation results to the real die making for automotive body panels. Also, it attempts to select an optimal die manufacturing process including design, machining and tryout. Lastly, it discusses the expected effects by adopting the selected process in a real stamping die manufacturing facility.

Numerical Evaluation of Hemming Defects Found on Automotive Door Panels (유한요소해석에 의한 자동차 도어패널의 헤밍 결함 평가)

  • Seo, O.S;Jeon, K.Y;Rhie, C.H;Kim, H.Y
    • Transactions of Materials Processing
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    • v.24 no.4
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    • pp.280-286
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    • 2015
  • Hemming is used to connect two sheet metal components by folding the edge of an outer panel around an inner panel to create a smooth edge. The minimization of hemming defects is critical to the final quality of automobile products because hemming is one of the last operations during fabrication. Designing the hemmed part is not easy and is influenced by the geometry of the bent part. Therefore, the main problem for automotive parts is dimensional accuracy since formed products often deviate geometrically due to large springback. Few numerical approaches using 3-dimensional finite element model have been applied to hemming due to the small element size which is needed to properly capture the bending behavior of the sheet around small die corner and the comparatively big size of automotive opening parts, such as doors, hoods and deck lids. The current study concentrates on the 3-dimensional numerical simulation of hemming for an automotive door. The relationship between the design parameters of the hemming operation and the height difference defect is shown. Quality improvement of the automotive door can be increased through the study of model parameters.

Study on Drawing Analysis of an Automotive Front Door and Stamping Die Manufacturing Process (프런트 도어의 드로잉 공정해석과 프레스 금형 제작 공정에 관한 연구)

  • Park, Yong-Guk
    • Transactions of Materials Processing
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    • v.7 no.6
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    • pp.586-593
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    • 1998
  • In recent automotive industries there has been significant increase in applications of computer simulation to the manufacturing of stamping dies for inner and outer body panels which greatly affect durability and aesthetic quality of automobiles. Enhancement of die quality and reduction of total die manufacturing time and consequently manufacturing cost are the visible outcome. However to successfully apply the result of simulation by a commercial package to the die manufacturing development of an optimal die manufacturing process is required upon the completion of analysis of forte and shortcoming of available sheet metal forming softwares. Based on the results of numerical analysis of front door outer panel forming. this paper evaluates the applicability of simulation results to the real die manufacturing for automotive body panels. Also it attempts to select an optimal die manufacturing process including design machining and tryout. Lastly it discusses the expected effects by adopt-ing the selected process in a real stamping die manufacturing facility.

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Effect of Temper Rolling on Formability and Baking Hardenability in Baking Hardenable Steels for Auto Body Outer Panel (자동차 외판용 BH강판에서 성형성과 소부경화성에 미치는 조질압연의 영향)

  • Ko H. S.;Moon M. B.;Shin C. S.;Oh H. W.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2004.08a
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    • pp.37-44
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    • 2004
  • Automotive company has been endeavoring to develop high strength steels to get higher fuel efficiency of car since the oil shortage in 1970s and to cope with the recent strict environmental regulation. Outer panels(Hood, Roof, Door and Fender) for automobile require higher dent resistance. Bake-hardenable(BH) steels are known as useful for their high deep drawability and high dent resistance. Recently BH steels are increasingly adapted for outer panel use due to their high drawability and high dent resistance. In this study effect of temper rolling on formability (textures, r value) and bake hardenability is investigated fur improving characteristic of bake-hardenable steels.

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