• Title/Summary/Keyword: FMVSS

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Experimental Study on Side Impact Characteristics for Automotives Door Module (자동차용 도어 모듈의 측면 충돌특성에 관한 실험적 연구)

  • Jeon, S.J.;Kim, M.H.;Lee, G.B.;Lee, M.Y.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2009.10a
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    • pp.318-318
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    • 2009
  • The door stiffness is one of the important factors side impact. Generally, the researches have been conducted on the assembled door module. This study is to analysis the side impact characteristics for automotives door module. The impact characteristics have been determined by door module side impact test machine. To determine the initial, intermediate and peak crush resistances use the plot of load versus displacement and obtain the integral of the applied load with respect to the crush distances specified below for each door tested. The initial crush resistance is the average force required to deform the door through the initial 6 inches of crush. The intermediate crush resistance is the average force required to deform the door through the initial 12 inches of crush. The peak crush resistance will be directly obtained from the plot of load versus displacement since it is the largest force required to deform the door through the entire 18 inches crush distance. The data are used to determine if a specific vehicle or item of automotives equipment meets the minimum performance requirements of the subject Federal Motor Vehicle Safety Standard(FMVSS). FMVSS Static 214, Side impact protection, specifies performance requirements for protection of occupants in side impact crashes.

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A Study on the Evaluation of Motorcycle Jacket with Built-in Airbag (에어백 장착 모터사이클 쟈켓의 성능 실험방법 연구)

  • Do Wol-Hee;Choi Hei-Sun
    • Journal of the Korean Society of Clothing and Textiles
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    • v.29 no.6
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    • pp.837-846
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    • 2005
  • The purpose of this study is to suggest a standard of guidance for testing the performance and safety of motorcycle jacket with built-in airbag. The method of testing were as follows: The effects of the motorcycle jacket with built-in airbag are experimentaly investigated according to neck injury of FMVSS 208. The experiment consists of the crash simulation test by shield and the impact test. The head and neck injuries are evaluated based on industrial standards. Also, the displacements of the head and neck and chest are observed by film analysis. Using the results of the crash simulation test, neck injury$(N_ij)$ is discussed and the peak chest deflection of the results of the impact test, chest injury is pursued. Neck injury$(N_ij)$ of the result of the crash test show that the chance of a serious wound is $18\%$ if rider wear the R&D motorcycle jacket with built-in airbag(Type A). Chest injury is expected by peak chest deflection of the result of the impact test. The result of the peak chest deflection show that the reduction effect in chest injury of Type A motorcycle jacket is $10.3\%$.

INJURY PERFORMANCE EVALUATION OF THE CHILD RESTRAINT SYSTEMS

  • Shin, Y.J.;Kim, H.;Kim, S.B.;Kim, H.Y.
    • International Journal of Automotive Technology
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    • v.8 no.2
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    • pp.185-191
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    • 2007
  • The new FMVSS 208, 213, 225 regulations include automatic suppression of airbags to prevent low-risk airbag deployment and the use of child seats with a rigid-bar anchor system. The regulations mean that children must sit in the rear seat, but do not include other specific safety measures for their protection. In the rear, restraint equipment consists of three-point shoulder/lap belts for the outside seats and a static two-point lap belt in the middle, with no additional devices such as pretensioners or load limiters; this is far from optimal for children. This study investigated injury rates using a 3-year-old-child dummy. ECE R44 sled tests used a booster, a speed of 48 km/h, and a 26- to 32-g rectangular deceleration pulse. While seated on a booster, the dummies were restrained by an adult shoulder/lap three-point belt. HIC_15 msec, Chest G and Nij were somewhat lower with an emergency locking retractor (ELR)+pretensioner+load limiter than with only an ELR or with ELR+pretensioner. However, the current seat-belt system results in injury rates that exceed the limit for OOP performance under the new FMVSS 208 regulations.

DFSS case study for the automobile safety regulation FMVSS201 (자동차 안전규정 대응을 위한 DFSS 적용사례)

  • Park, Jong-Geun;Baik, Jai-Wook
    • Journal of Applied Reliability
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    • v.10 no.3
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    • pp.161-169
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    • 2010
  • Automobiles have become part of our lives in modern society. But since they can be detrimental once problems occur on the road safety requirements are stringent. In this paper DFSS procedure is applied to the establishment of headliner safety. Specifically, IDDOV is employed where problems are identified, areas for development clarified, optimization realized, and finally optimal conditions verified at the final stage.

타이어의 안전기준

  • Lee, Gwang-Jae
    • The tire
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    • s.119
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    • pp.26-32
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    • 1985
  • 타이어의 안전기준에 관한 문제는 역시 자동차의 선진국이면서 또 소비자운동에서도 선구자인 미국에서 제일 먼저 큰 사회문제로 대두되었다. 그래서 미국에서는 곧 미국연방자동차안전기준(FMVSS :Federal Motor Vechicle Safety Standard)을 제정하여 시행함으로써 일단락되었으며, 그 후 일본, 유럽, 호주 등 자동차선진국들도 대체적으로 미국기준을 모방한 자동차안전기준을 제정하여 오늘에 이르게 되었다. 그러나 그 내용에 있어서는 앞으로도 계속 논의대상이 있을 것으로 보이며 또 다소의 변화도 생길 것으로 보인다. 따라서 여기서는, 지금에 이르기까지의 미국의 현황에 대해서 약간 살펴본 다음 각국의 안전기준의 현황을 간단히 설명해보고자 한다.

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A Design of Vehicle Seat Equipped with Damper for a Reducing of Human Injury in Rear End Impact (후방추돌시 인체상해방지를 위한 뎀퍼구조형 자동차 시트 설계)

  • Shin, Yun-Ho;Kang, Hoon-Hyo;Jeon, Euy-Sik
    • Proceedings of the KAIS Fall Conference
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    • 2007.11a
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    • pp.315-318
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    • 2007
  • 최근 자동차안전기준이 중요시되면서 안전에 대한 관심이 높아지고 있다. 본 연구는 FMVSS301 및 자동차안전기준 제 91조에 해당하는 시험조건으로 후방추돌시 인체상해를 방지하기위해 뎀퍼가 장착된 자동차시트의 메카니즘을 설계 및 해석을 하였다.

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Optimization of Passenger Safety Restraint System for USNCAP by Response Surface Methodology (USNCAP에 대응하는 반응표면법을 이용한 조수석 안전구속장치 최적화)

  • Oh, Eun-Kyung;Lee, Ki-Sun;Son, Chang-Kyu;Kim, Dong-Seok;Chae, Soo-Won
    • Transactions of the Korean Society of Automotive Engineers
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    • v.22 no.6
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    • pp.1-8
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    • 2014
  • Safety performance of a new car is evaluated through USNCAP and their results in the star rating are provided to the consumers. It is very important to obtain high score of USNCAP to appeal their performance to consumers. Therefore the car companies have made the effort to improve their car safety performance. These efforts should satisfy the demand not only to get high score but also to pass the FMVSS, NHTSA regulations on safety. Huge numbers of car crash tests have been conducted on these bases by car companies. However physical tests spend too much cost and time, as an alternative way, the simulation on the car crash could be a solution to reduce the cost and time. Therefore the simulations have been widely conducted in car industry and various researches on this have been reported. In this study, restraint system had been optimized to minimize the injury of female passenger. Belted $5^{th}%ile$ female frontal crash test was selected from various test methods of USNCAP for the study. Initial velocity of the test was 56km/h. The combination injury probability of USNCAP was selected as an objective function and the injury limit value, which was defined in FMVSS, was set to an optimization constraint. Many researches that were similar to this study had been conducted, however most of them had limitation that interaction between airbag and safety belt had not been considered. Contrary to these researches, the interaction was considered in this study.

An Analytical Study on the Improvement of the Performance of Swivel Valve Tube Couplers (스위벨 밸브 튜브 커플러 개발을 위한 해석 연구)

  • Lee, Jun-Ho;Sung, Jae-Kyeong
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.10 no.3
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    • pp.1-6
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    • 2011
  • This study focused on the localization of swivel type tube couplers, which all depend on imports. In this study, a computer application analysis was performed using a finite element method as a preliminary study. In the major developments related to the objective of this study, the air brake system produced by car makers represents a different in the installation point of an air tank according to the type of cars or in the length and direction of its hoses and that leads to cause lots of problems. For solving such problems, the design of the major elements in a swivel type tube coupler was analyzed using a finite element method, and its validity was also verified. In the process that verifies the validity of this study, it was necessary to investigate how much external force affects the desorption of the tube support, which is the most important element in swivel type tube couplers. For achieving the investigation, a pressure test was implemented for the tube support according to the Federal Motor Vehicle Safety Standards(FMVSS). In the results of the pressure test, all samples satisfied the FMVSS. In addition, several tests were implemented by installing the sample of the developed swivel type tube coupler to an actual vehicle. In particular, rotation tests with various angles were applied by welding the swivel type coupler to an air tank through an argon welding process. In the results of the installing test for an actual vehicle, it was verified that the designed structure was determined as a structure that is able to endure the eccentric torque and deformation pressure applied to several directions that are the major problems in such fixed type tube couplers. Therefore, in the comparison of the performance of the developed product with the product of PARKER, it was possible to verify that the localized swivel type tube coupler developed in this study shows more excellent than that of the existing products by PARKER.

Low Speed Crash Behaviour of Aluminium Bumper System W.R.T. Design Variables (설계변수에 따른 알루미늄 범퍼 시스템의 저속 충돌해석)

  • Kim, Dae Young;Han, Bo Seok;Hong, Min Sun;Kim, Dong Ok;Cheon, Seong Sik
    • Transactions of the Korean Society of Automotive Engineers
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    • v.25 no.1
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    • pp.11-18
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    • 2017
  • In the present study, the low speed (4 km/h) crash behaviour of an aluminium bumper system was characterised by FE analyses based on the FMVSS 581, which regulates automotive bumpers. Two types of cross-sectional designs, i.e., Model 1, which contains a single rib and Model 2, double ribs, have been considered along with Al7021, 6082 and 6060 for the aluminium bumper back beam. Variations in thickness starting from 2 to 4 mm of the bumper system cross-section in the FE model was implemented in order to investigate the thickness effect on the bumper's crash behaviour.. Three kinds of design variables, namely, number of ribs, material and thickness, are considered. The FE analysis results are summarised with the maximum load and the Specific Energy Absorption (SEA) since they are the key factors in determining the crashworthiness of automotive structures. The results may also be able to indicate how to achieve lightweight structure of the automotive bumper system either directly or indirectly.