저자명 임성준 
년도 2010 
Many safety systems for transportations have been developed to ensure the safety of drivers and passengers and to prepare for emergencies. These systems are very important because it is linked with lives of passengers directly. The safety system is composed of two devices: crash detection device and passenger protection device. Crash detection device consists of impact sensors such as an accelerometer. After the sensor detects crash of transportation, sensing signal is transmitted to passenger protection device. Passenger protection device such as seat-belts and airbags, operates to reduce the impact from a crash accident. However, in the case of high speed transportation accident, passengers are hardly protected by safety system because they are injured very quickly before the operation of the safety system. These situations happen due to the improper sensor triggering time of the impact sensor. Therefore, the sensor triggering time must be reduced to improve the safety system of high speed transportation.
In this thesis, a new design of micro impact sensor detecting stress wave was proposed using finite element analysis. Sensor triggering time can be extremely reduced by applying the stress wave sensor to safety systems because stress wave propagates very fast in solid structure. To analyze safety systems of high speed transportations, car airbag system was dealt for an example. Finite element analysis of car crash tests with ULSAB-AVC full car model was carried out to evaluate the necessity of the stress wave sensor. The necessity of the stress wave sensor was revealed by comparing acceleration and stress wave signals of car crash simulations. The stress wave micro sensor was designed by applying the transmission and reflection principle of stress wave propagation. This sensor was designed to be made of nickel and SU-8 photo resist, and to adhere on the surface where stress wave propagates to measure the intensity of stress wave. Dimensions of the sensor was determined by finite element analysis to increase the sensitivity of the sensor. Two virtual fabrication processes for the sensor using the electroplating method were proposed. Finally, crash simulations of a spot welded hat type member with the stress wave micro sensor attached on it were carried out to check the operation of the sensor in practical cases. As a result of the simulations, it was confirmed that stress wave micro sensor operates well and the intensity of stress wave can be measured by the stress wave micro sensor.
번호 제목 저자명 날짜 조회 수
49 Structural Design and Evaluation for Improvement of the Roof Strength of a Three-Wheel Vehicle(삼륜차의 루프 강도 향상을 위한 구조 설계 및 평가) file Jesung Yoo  2017.06.07 104
48 Tension/Compression Hardening Behavior of Auto-body Steel Sheets at Intermediate Strain Rates Ranging from 0.1/s to 50/s(중 변형률속도 0.1/s ~ 50/s 영역에서의 차체 강판의 인장/압축 경화 거동에 관한 연구) 주근수  2014.01.16 3339
47 Tensile Properties of Nugget Region in a Spot Weld at Various Strain-Rates (점용접 너겟부의 변형률속도에 따른 인장 물성에 관한 연구) 박문수  2014.01.16 3010
46 Validation of Dynamic Hardening Models at High Strain Rates Using Taylor Impact Tests (테일러 충격시험을 이용한 고 변형률속도 조건에서의 동적 경화모델 검증) 박명준  2013.09.02 3891
45 Tensile Material Properties of Carbon/epoxy Composite Laminates at High Strain Rates (탄소섬유강화 복합재료의 변형률 속도에 따른 인장물성의 평가) 최재영  2013.02.12 6075
44 Design and Dynamic Simulation of a New Shock Absorbing Device with a Bending Strap in a Helicopter Pilot Seat (헬리콥터 조종석의 굽힘 판재를 이용한 새로운 충격흡수장치의 설계 및 동적 모사해석에 관한 연구) [1] 박주형  2013.02.12 6230
43 Anisotropy Effect on the Fracture Forming Limit Diagram of DP980 Sheets Considering the Loading Path (DP980 강판의 하중경로를 고려한 파단성형한계도에 미치는 이방성의 영향) 박남수  2013.02.12 5302
42 Study on the Dynamic Failure Model of Structural Adhesive Joints under Combined Loading Conditions(차량 구조용 접착제를 이용한 접합부의 복합하중조건에서 동적 파단 특성 연구) 임승찬  2013.01.24 4716
41 Study on the Strain-Rate Dependent Tensile Properties of Micro-Scale Aluminum Specimens(알루미늄 마이크로시편의 변형률속도에 따른 인장 특성 연구) 권준범  2012.03.01 7019
40 Study on the Fracture Strain of DP780 Sheets Considering the Strain Rate and Loading Path (변형률속도와 하중경로를 고려한 DP780 강재의 파단변형률에 관한 연구) 박근환  2012.02.20 10737
39 Evaluation of Ultimate Buckling Strength of Stiffened Plates for Marine Structures (해양구조물용 보강판구조의 좌굴한계강도 평가) Waseem Gul  2010.07.13 7697
» Study on Design of Stress Wave Micro Sensor for High Speed Transportation Safety System (고속운송기구의 안전시스템을 위한 마이크로 응력파 센서 설계 연구) 임성준  2010.07.13 6535
37 Study on the Anisotropy of Auto-body Steel Sheets considering the Strain Rate(변형률속도를 고려한 차체강판의 이방성에 관한 연구) 이창수  2010.07.13 7938
36 Reliability Based Design Optimization for Crashworthiness of a Spot Welded Hat Type Member (점용접 모자형 사각관의 충돌성능에 대한 신뢰도 기반 최적설계) 김유종  2010.07.13 6296
35 Upper Bound Analysis of Dynamic Buckling Phenomenon of Circular Tubes Considering Strain Rate Effect (변형률 속도를 고려한 원형 튜브의 동적 좌굴 현상의 상계 해석에 관한 연구) 박충희  2008.08.02 6094
34 Study on the Crash Energy Absorption and Dynamic Local Buckling of the Expansion Tubes (확관튜브의 충돌에너지 흡수성능 및 동적 국부좌굴에 관한 연구) 안광현  2008.01.28 5385
33 Dynamic Material Properties of the Heat-Affected Zone (HAZ) in a Resistance Spot Weld(점용접 열영향부의 동적 물성특성에 관한 연구) 하지웅  2008.01.25 6863
32 Cross-section Shape Design of an Aluminum Crash Box for Crashworthiness Enhancement (충돌성능 향상을 위한 알루미늄 크래쉬 박스의 단면 형상 설계) [1] 이경호  2008.01.25 6455
31 Finite Element Inverse Analysis of the Sheet Metal Forming Process Considering Bending History (굽힘 이력을 고려한 박판성형공정의 유한요소 역해석) 허지향  2008.01.25 5202
30 Study on the 3-D finite element modeling of fiber reinforced rubber composite using the rebar element (리바요소를 이용한 섬유강화 고무기저 복합재료의 3차원 유한요소 모델링기법 연구) 정세환  2006.08.18 5856