• Title/Summary/Keyword: FMVSS201 Test

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Designing FMH Impact-Absorbing Structure by Using Subcomponent Collapse Simulation (단품 압궤 시뮬레이션을 이용한 FMH 충격흡수부재의 설계방법에 관한 연구)

  • Kim, Ji-Hun;Jun, In-Ki;Choi, Jae-Min;Kim, Sung-Hun
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.34 no.8
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    • pp.1113-1118
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    • 2010
  • It is requested that the interior compartment of a passenger vehicle must be satisfied with the FMVSS201U regulation, FMH impact test. It is needed the design methodology to find the appropriate structure about the FMH impact. When designing the impact-absorbing structure for the FMH impact test, it is to be noted that the impact absorber must have different performance considering the stiffness of the vehicle as the impact position and approach angle of FMH. In this study, an efficient design methodology was developed by using subcomponent collapse simulation instead of conducting full-vehicle simulation, thereby reducing the time and resources spent. Further, this unit-model simulation helps optimize the impact absorbing structure.

A Study on the Structural Strength Evaluation for the Development of One-ton Grade Commercial Vehicle Seat Frame for the FMVSS 201 Model (1톤급 상용차 시트 개발에 따른 FMVSS 210 Model 구조 강도 평가 연구)

  • Cho, Kyu-Chun;Ha, Man-Ho;Moon, Hong-ju;Kim, Young-Gon
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.17 no.2
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    • pp.130-136
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    • 2018
  • This study develops a seat with electric motor technology for a one-ton grade commercial vehicle. While applying electric motor technology, the FMVSS 210 seat frame strength test is also conducted to examine the product's weak parts. The seat frame strength test used the FMVSS 210 test standard and the ANSYS program was used to simulate the test and identify weak parts in the deformation and strain values. The test results showed that the cushion frame and slide rail connection bracket were fractured at loads of about 10,000 N. Similarly, the maximum stress and strain values in the bracket were obtained in the simulation results. On this basis, it was evaluated that the connection part bracket was a considerably weak part in the case of the first model, and changing the shape of the bracket and reinforcing the strength were required. In addition, the seat belt anchorage test results and simulation results were compared to assure their validity. In the comparison results, the error for each is about 5-10%. Therefore, the simulation performed in this study is considered to have produced reasonably accurate results.

Development of Integrated System for Virtual Design and Performance Testing of Automobile Seat (자동차 시트 가상설계와 성능평가를 위한 통합시스템 개발)

  • Im, O-Gang;Yu, Wan-Seok;Jeong, Yung-Ho;Kim, Gwang-Seok;Lee, Jin-Sik;No, Hyo-Cheol
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.24 no.7 s.178
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    • pp.1779-1786
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    • 2000
  • Most of traditional design processes of mechanical parts are regarded as sequential and discrete, since different kinds of softwas should be introduced. In this paper, we develop an integrated fram ework for virtual design and performance testing of an automobile seat. The system is composed of four modules, i.e. CAD, static analysis, dynamic analysis, and draft drawing module. In the CAD module, PRO/ENGINEER 3D seat model is created using parameters to be modified with the result of static and dynamic analysis. In the static analysis, headrest tere used in each design stage make it difficult to feedback their results to upstream process. These discrete processes may result in time loss and cost rise. In recent years, life cycle of product is reduced. To have competence with others, new concept design processt is simulated using ANSYS. In the dynamic analysis module, FMVSS201 test is simulated using DADS. Overall data flow is controlled by Motif. The advantage of the system is that even a novice can perform and review the whole design process, without a good hand at professional design/analysis S/W in each stage. The system also provides a virtual design space, where engineers in different development stage can access common data of design models. The concept could be applied to other fields and it could reduce time and money required in design process.