• 한국자동차공학회논문집
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• 제17권1호
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• pp.12-18
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• 2009

Skid mark and coefficient of friction are usually utilized to calculate the velocity and behavior of vehicles. For a critical case such as traffic accident reconstruction, however, the initial velocity of the car should be calculated precisely. In this study, in order to estimate the speed at the brake onset, rapid braking tests were executed on the proving ground. We compared with a skid length and wheel locking time of an expert driver and a general person. We verified that the skid mark of expert driver occurs longer than general person's. A new method is proposed to determine the speed of a vehicle at the brake onset of maximum braking, which could be applied to a reconstruction of vehicle with Non-ABS.

• 자동차안전학회지
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• 제7권1호
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• pp.45-50
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• 2015

The protection of frontal seat passengers in both driver and front seated occupant has been more focused from the auto industries as well as regulatory bodies more than 40 years. Recently, their interests have been extended to rear seat occupants especially children and female occupants. However, the current available safety devices for the rear seat occupants are seat belt only. According to the previous researchers, the injury level of the rear seat passengers tend to be higher than the injury level of the frontal seat passengers. In this study, the optimal location of seat belts anchorages to enhance rear passengers crashworthiness are studied. FEM models are designed in accordance with regulation of KMVSS102, UN R44, UN R16, and UN R14. and three point belts are fitted on the HybridIII 5th percentile dummy and HybridIII 50th percentile dummy. The combined injury value used HIC15, Nij, Chest deflection, Femur force are used to evaluate rear seat belt anchorage optimal locations.

• 한국자동차공학회논문집
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• 제14권3호
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• pp.22-27
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• 2006

As the regulation and assessment program for safety of passengers become stringent, automakers are required to develop lighter and safer vehicles. In order to fulfill both requirements which conflict with each other, automobile and steel companies have proposed the application of AHSS(Advance High Strength Steel) such as DP, TRIP and martensite steel. ULSAB-AVC model is one of the most remarkable reactions to offer solutions with the use of steel for the challenge to improve simultaneously the fuel efficiency, passenger safety, vehicle performance and affordability. This paper is concerned with the crash analysis of ULSAB-AVC model according to the US-SINCAP in order to compare the effectiveness between the model with AHSS and that with conventional steels. The crashworthiness is investigated by comparing the deformed shape of the cabin room, the energy absorption characteristics and the intrusion velocity of a car.

• Tribology and Lubricants
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• 제37권3호
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• pp.112-116
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• 2021

Appropriate friction model usage is important for impact analysis because the relative motions between parts that are in contact for very short durations can vary greatly depending on the friction model. Vehicle seat components that have significant effects on impact analysis are also considered. This paper presents an experimental investigation of various material contact pairs to obtain the friction parameters of the Benson exponential friction model for impact simulation. The Coulomb friction model has limitations for impact analysis because of singularity at zero velocity. Metal/nonmetal materials are prepared, and friction tests are conducted for various sliding speeds, loads, and lubrication conditions. The obtained data are used in the friction model to implement finite element analysis. The parameters of the friction model are obtained by the curve-fitting method. The experimental results show that the friction coefficient with metal/nonmetal contact pairs is stable regardless of the working conditions. The friction model used in this study can also be applied for finite element analysis of the crash conditions, where the friction changes abruptly at the contact interface; the obtained friction parameters are also expected to be more accurate with more precise tests under different working conditions. These results can help improve the accuracy of the finite element analysis.

• 대한인간공학회:학술대회논문집
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• 대한인간공학회 1993년도 추계학술대회논문집
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• pp.243-251
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• 1993

With the recent issuance of a dynamic side impact test regulation in the Federal Motor Vehicle Safety Standard in the United States of America, many aspects of occupant protection in side impact crashes have been under investigation. Many investigations of real world accidents, crash test results and simulation studies have established that in side impact crashes of passenger cars, thoracic and pelvic injuries of occupant are, large part, caused by occupants' impact against the interior side of the vehicle, primarily the door. This paper is concerned with the development of a lumped mass computer model, which simulates the interaction of a struck car door and an adjacent seated occupant in side impacr, based CTP code which has been successfully used in vehicle and occupant simulation. New model developments include elimination of influence of vehicle side structure stiffness in the occupant injury responses. The model was used to investigated the effect of various door padding characteristics on occupant responses to improve vehicle safety performance. The evaluation of different crush properties of door padding have also focused to understand of behavior of impacted occupant. Results from simulations, The effects of both material coefficients $C_{f}$ and p were illustrated in terms of occupant injury criteria TTI and pelvis.

• 한국소성가공학회:학술대회논문집
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• 한국소성가공학회 2009년도 추계학술대회 논문집
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• pp.223-226
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• 2009

The plastics are widely utilized in the inside of vehicles. The dynamic tensile characteristics of auto-body plastics are important in a prediction of deformation mode of the plastic component which undergoes the high speed deformation during car crash. This paper is concerned with the dynamic tensile characteristics of the auto-body plastics at intermediate strain rates. Quasi-static tensile tests were carried out at the strain rate ranged from 0.001/sec to 0.01/sec using the static tensile machine(Instron 5583). Dynamic tensile tests were carried out at the strain rate ranged from 0.1/sec to 100/sec using the high speed material testing machine developed. Conventional extensometry method is no longer available for plastics, since the deformation of plastic is accompanied with localized deformation. In this paper, quasi-static and dynamic tensile tests were performed using ASTM IV standard specimens with grids and images from a high speed camera were analyzed for strain measurement. True stress-strain relations and the actual strain rates at each deformation step were obtained by processing load data and deformation images, assuming the plastics to deform uniformly in each grid.

• Journal of Welding and Joining
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• 제34권1호
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• pp.59-67
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• 2016

The automotive manufactures increase their use of lightweight materials to improve fuel economy and energy usage has a significant influence on the choice of developing materials. To meet this requirements manufacturers are replacing individual body parts with lightweight metals, for these the process treating and painting surfaces is changing. The pre-coated steels are newly developed to avoid the conventional complex and non-environmental painting process in the body-in-white car manufacturing. The development of new joining techniques is critically needed for pre-coated steel sheets, which are electrically non-conductive materials. In the present study, dissimilar combination of pre-coated steel and galvanized steel sheets were joined by the self-piercing rivet, adhesive bonding and hybrid joining techniques. The tensile shear test and free falling high speed crash test were conducted to evaluate the mechanical properties of the joints. The highest tensile peak load with large deformation was observed for the hybrid joining process which has attained 48% higher than the self-piercing rivet. Moreover, the hybrid and adhesive joints were observed better strain energy compared to self-piercing rivet. The fractography analyses were revealed that the mixed mode of cohesive and interfacial fracture for both the hybrid and adhesive bonding joints.

• 한국도로학회논문집
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• 제10권4호
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• pp.199-211
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• 2008

본 연구는 청주시 4지 신호교차로에서 발생한 측면직각 충돌사고를 다루고 있다. 연구의 목적은 측면직각 충돌사고의 특성을 분석하고, 순서형 프로빗 모형을 이용하여 사고의 심각도에 영향을 주는 사고요인을 파악하는 것이다. 이를 위해 본 연구는 2004년과 2005년의 2년간 181개 교차로에서 발생한 580건의 측면직각 충돌사고 자료를 이용한다. 사고특성 분석결과, 야간과 직진 중에 가장 많은 교통사고가 발생하였으며, 주된 원인은 신호위반으로 밝혀졌다. 사고심각도 모형개발의 주요결과는 다음과 같다. 첫째, 모형의 적합도를 나타내는 우도비(${\rho}^2$)값은 0.094이며, 변수의 적합성을 나타내는 t-ratio 값은 모두 통계적으로 유의한 것으로 분석되었다. 둘째, 측면직각 충돌사고의 심각도에 영향을 미치는 변수로는 부도로 교통량, 부도로 차로수, 주도로 좌회전차로, 주도로 좌회전신호유무, 주도로 황색신호시간, 교차각, 주도로 부도로 제한속도가 선정되었다.

• 국제지역연구
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• 제18권3호
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• pp.269-291
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• 2014

이 연구 목적은 객관적 자료들에 대한 분석을 통해, 탈냉전 후 무력갈등의 추세와 특징에 대해 검토하는 것이다. 국제적으로 가장 신뢰성과 객관성을 지닌 것으로 평가받고 있는 웁살라대학의 웁살라갈등자료 프로그램(UCDP)의 자료들을 근거로 진행했다. UCDP의 '무력갈등' 개념은 적어도 한 당사자가 국가의 정부인 양 당사자 간에 정부나 영토를 둘러싸고 경쟁하는 비양립성을 지니며, 당사자들의 무력사용에 의한 전투관련 사망자수가 단일 년도 안에 최소 25명 이상인 갈등을 의미한다. 양극체제의 붕괴와 냉전체제의 해체는 국제사회의 무력갈등에도 구조적 개념적으로 큰 변화의 계기가 되었다. 무력갈등의 추세 분석은 무력갈등의 강도, 형태 그리고 대륙별로 지역 차원에서 분류했다. 탈냉전 시기 무력갈등은 냉전 시기와는 다른 특징들을 보여주고 있다. 첫째, 무력갈등의 형태면에서, 국가 간 갈등이 줄어든 반면 국내갈등이 증가했다. 둘째, 강대국들 간에 상호 무력갈등을 자제하면서 이해관계가 걸린 특정지역에 대해서는 해당 강대국의 기득권을 서로 용인하고 있다. 셋째, 무력갈등의 종결 방식이 무력을 통한 승리 보다는 평화적 해결이 강조되고 있다. 넷째, 국경을 경계로 한 갈등을 넘어서 여러 국가에 걸쳐 일어나거나 인접국가로 확산 가능성이 커지고 있다. 다섯째, 갈등 해결과정에서 UN의 역할이 켜졌다.

• Composites Research
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• 제21권1호
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• pp.22-29
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• 2008

본 논문은 유리섬유 에폭시 면재에 알루미늄 하니컴 샌드위치 복합재가 적용된 저상버스 차체에 대한 정면충돌과 전복에 대한 특성에 대해 연구하였다. 이때 충돌과 전복 해석은 외연유한요소 해석 프로그램인 LS-DYNA3D를 이용하였다. 차체 구조물에 적용되는 적층 복합재 면재에 대해 기계적 특성시험을 통하여 물성을 획득하였고, 직교이방성 특성을 갖는 하니컴 심재의 물성은 유효등가손상 모델을 적용하였다. 저상버스의 충돌 해석은 60km/h의 속도로 정면충돌 사고를 모사하여 해석을 수행하였고, 전복해석은 유럽 안전법규 ECE-R66의 시험 방법을 고려하여 해석하였다. 저상버스의 정면충돌과 전복에 대해 운전자와 승객의 생존 공간 안전성에 관한 결과를 보여준다. 또한, 수정된 Chang-Chang 파손기준식은 충돌과 전복해석에 대한 복합재 구조물의 파손 모드 예측에 추천된다.