• Title/Summary/Keyword: End-of-life vehicle

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Fatigue Cumulative Damage and Life Prediction of Uncovered Freight Car Under Service Load using Rainflow Counting Method (운전하중하의 레인플로집계법을 이용한 철도차량 무개화차의 피로누적손상과 수명예측)

  • Baek, Seok-Heum;Lee, Kyoung-Young;Mun, Sung-Jun;Cho, Seok-Swoo;Joo, Won-Sik
    • Transactions of the Korean Society of Automotive Engineers
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    • v.13 no.2
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    • pp.1-9
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    • 2005
  • An end beam is one of the most important structural members supporting uncovered freight under in-service loading. In general, it needs to endure over 25 years. However fatigue fracture has occurred at dynamic stress concentration location of the end beam because user's specifications demanded high speed and vehicle manufacturer made the uncovered freight car with comparatively low strength and stiffness. For durability analysis, finite element analysis is performed to evaluate the problem of uncovered freight structure and local strain. The uncovered freight car was operated on actual problematic railroad line to measure dynamic stress versus time history on the critical part from which a crack is initiated often. Rainflow cycle counting method was used to estimate fatigue damage at dangerous area under operating condition. Therefore, this study shows that analytical fatigue life at the end beam can be predicted on the basis of S-N curve and structure analysis and has a fairly good correlation with experimental fatigue life.

DYNAMIC MODELING AND ANALYSIS OF VEHICLE SMART STRUCTURES FOR FRONTAL COLLISION IMPROVEMENT

  • Elemarakbi, A.M.;Zu, J.W.
    • International Journal of Automotive Technology
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    • v.5 no.4
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    • pp.247-255
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    • 2004
  • The majority of real world frontal collisions involves partial overlap (offset) collision, in which only one of the two longitudinal members is used for energy absorption. This leads to dangerous intrusions of the passenger compartment. Excessive intrusion is usually generated on the impacted side causing higher contact injury risk on the occupants compared with full frontal collision. The ideal structure needs to have extendable length when the front-end structure is not capable to absorb crash energy without violating deceleration pulse requirements. A smart structure has been proposed to meet this ideal requirement. The proposed front-end structure consists of two hydraulic cylinders integrated with the front-end longitudinal members of standard vehicles. The work carried out in this paper includes developing and analyzing mathematical models of two different cases representing vehicle-to-vehicle and vehicle-to-barrier in full and offset collisions. By numerical crash simulations, this idea has been evaluated and optimized. It is proven form numerical simulations that the smart structures bring significantly lower intrusions and decelerations. In addition, it is shown that the mathematical models are valid, flexible, and can be used in an effective way to give a quick insight of real life crashes.

Development of Guardrail End Treatment System using LS-DYNA (LS-DYNA를 이용한 차량방호울타리 단부처리 시설의 개발)

  • IN, Younggun;Shin, Kwanghee;Bae, Kihun
    • Journal of the Society of Disaster Information
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    • v.12 no.3
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    • pp.279-285
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    • 2016
  • Road sides safety barrier system is the last safety during traffic accident. The structural performance of a roadside safety barrier should be kept above expectations. It is possible to protect the passenger's life. End treatment part is installed in the end of the barrier it prevents a phenomenon in which for the vehicle for the guardrail during a vehicle collision it is facility of the absorbing of car crashed impact. By repeated analysis through computer simulation for improving the vehicle crash it will be able to develop crash barriers to respond appropriately to various parameters.

A Study on Monitoring System Architecture for Calculation of Practical Recycling Rate of End of Life Vehicle (폐자동차의 실질적 재활용률 산정을 위한 모니터링 체계에 관한 연구)

  • Park, Jung Whan;Yi, Hwa-Cho;Park, Myon Woong;Sohn, Young Tae
    • Clean Technology
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    • v.18 no.4
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    • pp.373-378
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    • 2012
  • The end-of-life vehicles (ELV) are important recycling sources, and there are several stages involved in the recycling such as dismantling, shredding, and treatment of shredder residues (ASR). The legal recycling rate should be at least 95% on and after 2015, while we need a proper system to monitor recycling of ELV components and to calculate the practical recycling rate. The paper suggests a monitoring system that calculates practical recycling rates of dismantled components by use of a database of standard recycling rate as well as a web-based monitoring, which is linked to the Eco Assurance system for electric & electronic equipment and vehicle (EcoAS). Also the system supports dismantling and monitoring process by incorporating a standard vehicular component database, which facilitates recording dismantled weight data but also monitoring of dismantled components.

Policy Suggestion for Fostering the Industry of Using End of Life EV Batteries (전기차 사용 후 배터리 재사용 산업 육성을 위한 정책 제안)

  • LEE, HEE DONG;LIM, OCK TAECK
    • Journal of Hydrogen and New Energy
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    • v.32 no.4
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    • pp.263-270
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    • 2021
  • In this study, we proposed the necessity of reusing the battery industry after domestic use, preparing legal arrangements by step for recycling, clarifying responsible materials by processing stage, and establishing infrastructure and screening diagnostic rating system. The purpose of this study is to establish a life cycle integrated management system for electric vehicle batteries and to find suitable ways for improving the lifespan of electric vehicle batteries, reuse, and recycling in stages to avoid other environmental pollution problems due to batteries after using electric vehicles used to reduce environmental pollution due to climate change.

Vehicle Emergency Lamp Fuzzy Control Systems Using The GPS (GPS를 이용한 자동차 비상등 작동 장치)

  • Kwon, Yunjung;Nam, Sangyep
    • Journal of the Institute of Electronics and Information Engineers
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    • v.51 no.6
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    • pp.276-281
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    • 2014
  • Necessities of a traffic means work a car in the modern society human to an usability of a life is enjoying. On the other hand, the damage by traffic accident increment the human quotient worked as we were in proportion to the vehicle which increased. Passing an examination moves necessarily on an obstacle to suddenly appear at the fronts if a car travels and the vehicles which stopped suddenly. Dynamic passing an examination about an obstacle turn on Vehicle Emergency Lamp to by hand when is unhurried, and can turn off, but to appear urgently dynamic passing an examination in time human is instinctive, but cannot inform an emergency to a back vehicle, and a rear-end collision occurs. A car we synthesize a speed of a vehicle, and this unit analyzes as we use GPS, and to drive runs Vehicle Emergency Lamp to automatic in the situations that shall turn on emergencies etc. If a speed of a vehicle continuously slows down in too high-speed driving or low-speed driving, or we are stopped, Vehicle Emergency Lamp is always turned on. It was built if we rise again as clearing itself from risk, and a speed of a vehicle judges, and we turn off Vehicle Emergency Lamp to automatic. It runs till rear-end collision sensor operates, and by hand reset does Vehicle Emergency Lamp a driving vehicle collides from behind to a back vehicle or when a driving vehicle was overthrown. It is shortened very much to the chain rear-end collision traffic accident that is a traffic accident of large size if we use this unit. And we did authentication through the experiment which a driver was helpful to unnecessary operation and a relaxed safe driving during drivings.

Reliability Analysis and Preventive Maintenance for Fatigue Life of End Beam for Uncovered Freight Car (무개화차용 엔드빔의 피로수명에 대한 신뢰성 분석과 계획예방정비)

  • Baek Seok Hem;Jeon Joo Heon;Lee Kyoung Young;Cho Seok Swoo;Joo Won Sik
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.29 no.3 s.234
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    • pp.495-502
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    • 2005
  • Increased cumulative running times of railroad vehicle brings out such degradation as wear and fatigue. It doesn't adapt corrective maintenance which repairs a poor part after a trouble but use preventive maintenance which fixes a bad part before a trouble. There were a few researches for preventive maintenance such as inspect affairs and facilities management. They couldn't estimate the operation reliability on railroad vehicle. Therefore, this study proposes the preventive maintenance procedure that predict repair period of end beam fur uncovered freight car using reliability function and instantaneous failure rate on the basis of fatigue test and load history data.

Destruction of HFC-134a Refrigerant in Gasification-melting Demonstration System (가스화용융(熔融) 실증 시스템에서 HFC-134a 냉매분해(冷媒分解) 특성(特性) 연구(硏究))

  • Jung, Dae Sung;Hong, Byeong Kwon;Kim, Woo Hyun;Roh, Seon Ah
    • Resources Recycling
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    • v.21 no.4
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    • pp.69-75
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    • 2012
  • Destruction of HFC-134a from ELV (End of Life Vehicle) were determined in a gasification-melting demonstration system of municipal solid waste (100ton/day). The injection system has been developed for the uniform injection of HFC-134a to the gasification-melting system. The destruction characteristics of HFC-134a and analysis of exhaust gases have been performed. The destruction efficiency was 99.995% for HFC-134a feeding of 3 kg/hr and the exhaust gases such as CO, SOx, NOx, HCl and HF satisfied the environmental standards.

End-of-Life Vehicle Rating Classification for Remanufacturing Core Collection (재제조 코어 회수를 위한 폐자동차 등급 분류)

  • Son, Woo Hyun;Li, Wen Hao;Mok, Hak Soo
    • Resources Recycling
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    • v.27 no.2
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    • pp.11-23
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    • 2018
  • The need for remanufacturing automotive parts is required due to the depletion of resources, rising raw material prices and strengthening environmental regulations. For remanufacturing, stable supply and demand of core must be accompanied. At present, remanufacturing companies collect cores through various routes, but the recovery rate of cores from the End-of-Life Vehicles is low. If we can systematically collect cores from hundreds of thousands of ELVs that were generated each year, the recovery rate of the core for remanufacturing will be further improved. Therefore, in this paper, we tried to establish a classification system for the ELV as a method for collecting the cores from the ELV. First, we selected the elements affecting the classification and determined the scope for the evaluation. The final rating classification is established by calculating the weights among the influence elements. Finally, through the case study, the dismantling grade of the actual ELV was evaluated to derive the second grade.

Current Recycling Status of End-of-Life Vehicles(ELV) and Proposal of Recycling System Model (자동차(自動車)리싸이클링의 현황(現況)과 리싸이클링모델의 제시(提示))

  • Oh, Jae-Hyun;Kang, Jung-Ho
    • Resources Recycling
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    • v.16 no.1 s.75
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    • pp.15-27
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    • 2007
  • The Korean Auto industry has developed remarkably over the past 30 years. In 2005 alone, Korea produced 3.7 million vehicles, and the number of vehicles registered surpassed the 15 million marks. The rapid growth in registration, however, has given increasing problems to the traffic congestion and the environmental pollution. The system for handling of ELV in Korea is governed by the 'Motor management law'. The law places the responsibility for vehicle scrapping directly on the vehicle owners. The take-back rate of ELV reaches nearly 100% in Korea since 1987. To further entourage recycling, the government introduced the extended producer responsibility system(EPRS) starting January 1, 2003, which imposes waste recycling obligations on producers or importers. According to the system, producers must recycle home appliances and packaging materials. This system, however, did not involve the automobiles. In 2006, the automobiles recycling law is under preparing now by the government. This article is concerning current status for End-of-Life vehicle's recycling and the recycling system model for advanced ELV industries in Korea.