• Title/Summary/Keyword: Aluminum Bumper

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Finite Element Analysis of the Extrusion Process for an Automobile Bumper (자동차용 범퍼 압출 공정의 유한요소해석)

  • Kim, Kwang-Heui;Yoon, Moon-Chul
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.4 no.1
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    • pp.24-29
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    • 2005
  • The development of an aluminum bumper is required in order to reduce the weight of the automobile. An porthole die extrusion process is simulated by the finite element method in order to develop the aluminum bumper which is manufactured by hollow section extrusion. The general-purpose finite element analysis software is used. The developed analysis method can be applied to the optimization of the porthole die extrusion process for the aluminum bumper.

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Development of Lightweight & High Strength Bumper Beam of 7XXX Series Aluminum Alloy (경량 고강도 알루미늄 범퍼 빔 개발)

  • Lee W. S.;LEE M. Y.;Kim D. U.;Kang D. P.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2005.10a
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    • pp.30-33
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    • 2005
  • Although extruded aluminium bumper beam has been commonly used in advanced car makers, there are not so much precedent for it's localization. For the localization of aluminum bumper beam of 7XXX series, benchmarking, material modifications of 7XXX series aluminum alloy, section design of beam, impact analysis had been performed in this study. High fuel efficiency and weight reduction could be achieved by using aluminum bumper beam of which the weight is lighter than that of steel. Moreover, it is expected to reach higher recycling rate by substituting aluminum for steel.

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Design and Impact Analysis of Automotive Bumper Beam Using Aluminum Foam (알루미늄 폼을 사용한 자동차 범퍼 빔의 설계 및 충돌해석)

  • Bang, Seung-Ok;Kim, Sei-Hwan;Cho, Jae-Ung
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.12 no.4
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    • pp.1552-1558
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    • 2011
  • In this paper, the automotive beam using aluminium foam is designed and the impact analysis is carried out. The analysis model is the beam of actual size with B- type section structure. At the frontal crash of low speed, ANSYS AUTODYN is used by predicting the behavior of deformation and its internal energy. By the use of 7075-T6 aluminum alloy, the weight is reduced as much as 55% than steel. The deformation at the bumper foam of aluminum is similar with that of steel and the impact energy reduction at aluminum is more than steel. The foam filled with aluminum as much as 50 % has more impact energy absorption than the completely filled aluminum foam.

A Study on The Curvature Extrusion for Al Bumper Beam (알루미늄 범퍼 빔 곡률압출공정에 관한 연구)

  • Lee, S.K.;Kim, B.M.;Oh, K.H.;Park, S.W.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2008.10a
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    • pp.42-45
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    • 2008
  • Recently, aluminum is widely used to reduce the vehicle weight. Aluminum curved extruded products are used for the design of automotive frame parts. This study focuses on the determination of process condition fur automotive bumper beam with various curvatures. In this study, a curvature prediction model has been proposed considering the geometric relationship and the characteristic of the curvature extrusion equipment. Using the proposed model and FE analysis, the appropriated process condition was determined to produce the bumper beam. Finally, curvature extrusion experiment was carried out to verify the effectiveness of the proposed curvature prediction model and the process condition.

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Light Weighted Design of Aluminum Bumper Backbeam by Rib Shape Change (리브 형상 변경에 의한 알루미늄 범퍼 백빔의 경량화 설계)

  • Kang, Sungjong
    • Journal of Auto-vehicle Safety Association
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    • v.10 no.2
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    • pp.6-12
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    • 2018
  • Optimized section shape of aluminum bumper backbeam for enhancing the front high speed crashworthiness was investigated. Front body analysis model of a convertible vehicle was built up and parameter studies were carried out with changing the inner rib shape and the section thickness distribution. First an inner rib shape displaying most efficient structural performance was selected. Next, for the selected section the effect of section thickness combination was examined. Also, a light weighed backbeam section displaying crash performance over the current design was suggested. Finally RCAR front low speed impact analyses were carried out for the optimized models.

The Development of Material Technology Applied to Bumper Beam (자동차 범퍼빔 적용 차세대 재료기술의 개발)

  • 이상제;박진수;구도회;정병훈
    • Transactions of the Korean Society of Automotive Engineers
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    • v.10 no.4
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    • pp.206-215
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    • 2002
  • It is to be classified into friendly environment and safety problems, as a main technology development of the recent automotive industry. As these tendency, lots of automobile companies focus on a reduction of fuel expenses and strengthen of crash safety using high strength steel. In this study advanced technologies such as tailored blanks, aluminum extrusion and high strength steel forming applied to bumper beam will be described. As a result of impact analysis and an actual impact test, in terms of beam performance and a possibility fur the mass production will be discussed.

Optimization of the Hydro-Forming Process for Aluminum Bumper Beams by Using Finite Element Analysis (유한요소법을 이용한 하이드로포밍 알루미늄 범퍼빔의 성형공정 최적화)

  • Son, Wonsik;Yum, Sanghyuk;Lee, Jihoon;Kim, Seungmo
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.26 no.4
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    • pp.410-417
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    • 2017
  • Hydro-forming is being employed increasingly to realize lightweight vehicular parts. The bumper beam produced by this process weighs 30% less than the conventional products with equal stiffness. However, hydro-forming involves complex parameters to obtain the target geometry and low residual stress. Parametric studies are conducted using finite element analysis to obtain optimized process conditions. Through these numerical approaches, the internal and holding pressures and feeder forward stroke along the extruded direction are optimized to achieve low residual stress and to minimize springback. The numerical results are verified by experimental observations made by employing a three-dimensional laser scanner. The numerical and experimental results are compared in terms of the springback. Both results show similar tendencies.

Process Development of Variable Curvature Extrusion for Automotive Aluminum Bumper (자동차 알루미늄 범퍼의 가변 곡률 압출공정 개발)

  • Kim, Byung-Min;Jo, Young-June;Oh, Kae-Hee;Park, Sang-Woo;Lee, Sang-Kon
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.32 no.4
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    • pp.327-332
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    • 2008
  • The effectiveness of vehicle parts made through extrusion is in the limelight because of the advantages of high strength stiffness materials can be produced and the number of processes can be drastically reduced. Therefore, the parts should have sufficient stiffness and be lightweight enough to improve fuel efficiency. However, the application of extruded aluminum requires pre-bending technologies that can manufacture the complex designs profiles demanded by vehicle parts. The aim of this research is that the development of the variable curvature extrusion technology that can produce a variety of curvature. In order to produce a variable curvature, the guide transfer speed and transfer time should be controlled properly. The guide transfer speed and transfer time were examined by the theoretical analysis. A model was developed to simulate the deformation behaviors of extrusion and bending process from the symmetric bumper with range of radii from 1863mm to 2163mm. The theoretical analysis and FE analysis were verified through experimental method.

Development of aluminium chassis parts applied for Extruforming (알루미늄 익스트루포밍 샤시부품 개발 현찰)

  • Jang, G.W.;Lee, W.S.;Kim, D.E.;Oh, K.H.;Kim, J.C.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2006.05a
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    • pp.337-340
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    • 2006
  • Aluminum extruded profiles have been mostly used only a few automotive parts until now, such as roof rail, sunroof frame and bumper beams. However, Aluminum Extru-form technology, which was recently developed by foreign advanced manufacturer, made it possible to apply the aluminum extruded profiles to suspension parts of passenger and RV cars. It could be obtained by optimized billet casting, extrusion and stretch bending technology. It was possible to have the excellent weight reduction and the competitive price comparing with conventional process of aluminum for automotive parts. Combining additional process technology such as machining and joining, the application can be extended to various automotive parts. We have developed high strength aluminum alloy and fabricated subframe and suspension arm by extruforming process.

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Process Development of Constant Curvature Extrusion for Aluminum Alloy (알루미늄 합금의 일정 곡률 압출공정 개발)

  • Joe, Y.J.;Lee, S.K.;Oh, K.H.;Park, S.W.;Kim, B.M.
    • Transactions of Materials Processing
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    • v.16 no.7
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    • pp.555-560
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    • 2007
  • This paper shows some achievements at bending of extruded aluminum profiles during the extrusion process. The conventional process for the production of bent profiles involves a successive extrusion, stretching, and bending of the profiles. Conventional bending methods can not meet demands far precision and cost-effective production in some cases, due to cross sectional deformation, irregular decrease of tube wall thickness and a complication of the process design. An estimation of spring-back required for precision of the bending radius can not always be achieved by the over bending of the profile. Since the profile is hot during the bending process, the spring-back phenomenon can be avoided. This means that an additional bending process is not necessary. Consequently, flexible bending can be achieved with cost reduction and quality improvement. Experimental tests were completed to study the relationship between curvature radius of profile and position of guide on the extrusion for vehicle bumper. A7108 is applied as a billet material in order to increase strength. The overall correlation between the experimental and numerical results is good. It is therefore concluded that the present method provides an efficient means for the constant curvature extrusion process.