• Title/Summary/Keyword: 목상해

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A Study on the Neck Injury in Low Speed Rear Impact through the Real Car Test (실차시험을 통한 저속 추돌시 목상해 연구)

  • JO, H.C.;PARK, I.S.
    • Journal of the Korean Society of Mechanical Technology
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    • v.13 no.1
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    • pp.49-56
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    • 2011
  • The neck injury occupies the most of injury that happened by the rear impact car accident. This study was analyzed about influence of the neck injury in low speed rear impact and car crash accident investigation. There is no neck injury in low speed side rear impact. On the other hand, there is initial neck injury symptom of 10 % but no long-term neck injury symptom in low speed offset rear impact. It appeared that the possibility of neck injury in low speed rear impact is low. For the more study about the neck injury, it should be evaluate the effects of the car body structure, frame structure and rear crash pattern.

A Predictive Study on Backset Variation on the Neck Injury of Human Model during Rear-end Collision (후방추돌시 백세트 변화에 따른 인체모형의 목상해에 관한 예측 연구)

  • Park, Jin-Su;Baek, Se-Ryong;Lim, Jong-Han;Yoon, Jun-Kyu
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.18 no.6
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    • pp.251-258
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    • 2018
  • Recently, due to the increase in the traffic volume of vehicle, the collision of the vehicle collision has been increased so that the neck injuries of the passengers has been increased. In order to prevent this, vehicle collision analysis research using computer simulation has been actively carried out in consideration of the design point of car seat. In this study, I used the MADYMO program for analyzing the passenger behavior using a BioRID II dummy, and predicted the neck injuries of passengers according to the change of the backset at the rearward collision of the driving speed of 16km/h. As a result, it was found that the shorter the backset, the shorter the contact start time but the contact completion time was almost the same and the T1 acceleration showed that the acceleration increased with the backset. In addition, the tensile strength increases as the backset increases, and NIC (Neck Injury Criterion) increases as the head speed reaches the headrest.

A Study on Influence of the Impact Direction on the Neck Injury during Low Speed Rear Impacts (저속 추돌시 충돌방향에 따른 목상해 해석)

  • Jo, Hui-Chang;Kim, Young-Eun
    • Transactions of the Korean Society of Automotive Engineers
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    • v.15 no.2
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    • pp.135-142
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    • 2007
  • MADYMO human model with the detail neck was used to investigate the reaction force of neck and neck injury from rear impact directions. In the validation simulation, head acceleration, thorax acceleration and the global kinematics of the head and neck were correlated well with experimental data. Acceleration data from three 15 km/h low speed car rear impact pendulum tests(rear-end, offset, oblique) were used to simulate the model. In the simulation results, the reaction force on the facet joint and discs in the oblique rear impact were higher than rear-end, offset rear impacts. Further research is still needed in order to neck injury analysis about different crash parameters.

Compare Characteristics of Neck Injuries between Rear Impact Pulse and NCAP Pulse (후방 충돌 펄스와 NCAP 펄스 차이로 인한 목상해 특성 비교)

  • Kim, Jong Kon;Park, Jong Ho
    • Journal of Auto-vehicle Safety Association
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    • v.9 no.3
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    • pp.7-12
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    • 2017
  • The whiplash is the most important issue of low speed rear-impact. So auto makers are committed to developing a seat to improve whiplash injury. Most NCAP tests have been used by same pulse (Mid Velocity 16kph). Only Euro NCAP uses different pulse that consists of Low, Mid, High velocity. But Euro NCAP also uses same pulse in Mid velocity as other NCAP test. That Mid velocity NCAP pulse was made by rear impact that has 90's vehicle structure properties. That pulse was used until now days. However these days, auto maker use more high tensile steel than 90's as customer and society demand more fuel efficiency and light vehicle with good safety structure. So modern vehicles have different pulse patterns of rear impact than NCAP pulse and 90's vehicle crash properties. In this paper, the test was conducted by following condition. Target car was impacted by the rigid barrier with certain velocity. Finally target vehicle gained delta V 16kph which was same velocity as NCAP Mid Velocity pulse. It is critical velocity which occur long period neck injury. It is very different pulse that was gained by real car impact from NCAP pulse. And it has higher peak G with high fluctuation and short duration than NCAP pulse.

A Study on Influence of the Head Restraint Position on Neck Injury in Rear End Collision (후방 추돌시 머리지지대 위치에 따른 목상해 연구)

  • Choi, Dong-Won;Chun, Young-Bum;Park, In-Song
    • Transactions of the Korean Society of Automotive Engineers
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    • v.18 no.5
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    • pp.20-24
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    • 2010
  • The position of the automobile's head restraint is very important for the neck injury in rear end collision. This study is about influence of the head restraint height and distance on neck injury during rear end collision. The effects of the position have been evaluated experimentally. The neck injuries are calculated by the relative acceleration between the upper and lower neck. As a result, It is found that the head restraint should be close enough to the back of the head and high enough to the top of the head.

Comparison Head-Neck Movement and Neck Injury Criteria of BiRIDII in Rear-impact Sled Test (후방추돌시 BioRIDII 머리-목의 거동과 목상해지수와의 비교)

  • Kim, Si-Woo;Shim, So-Jung;Suh, Myung-Won
    • Transactions of the Korean Society of Automotive Engineers
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    • v.18 no.1
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    • pp.51-57
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    • 2010
  • In recent years, a large number of study for rear impact has been conducted and as a result of study, researchers proposed the neck injury criteria and test procedures. But many questions, related to injury criteria and dummy biomechanical levels, remain unresolved. In recently reports, rear impact motions of BioRIDIIg is not humanlike but better than other dummy(HybridIII, RID3d). So, in this paper, 4 times sled test would be done to find the substitutable neck injury criteria in BioRIDIIg. To review corelation trend with neck injury critera and head-neck movement, we compared with recently announced neck injury criteria(NIC, Nkm, T1 ect.) and head-neck X-direction movement in BioRIDIIg. Finally, we find the head-neck X-direction movement on head C.G to T1 point may be considerable as the additional neck injury criteria.