• 제목/요약/키워드: Replacement Period

검색결과 667건 처리시간 0.018초

전자식 전력량계의 수명평가 (Lifetime Assessment of Electronic Watt-hour Meters)

  • 설일호;박정원
    • 한국신뢰성학회지:신뢰성응용연구
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    • 제9권1호
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    • pp.37-45
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    • 2009
  • Recently mechanical watt-hour meters are being replaced by electronic watt-hour meters. The replacement period of mechanical watt-hour meters is 7 years. This period is based on long term historical data. The replacement period of electronic watt-meters is also 7 years. This period is determined using the replacement period of mechanical watt-hour meters. However lifetime of mechanical watt-hour meters is different from the lifetime of electronic meters. In order to determine desirable replacement period of electronic watt-hour meters, accelerated life tests of major components in electronic watt-hour meters were performed. The test results showed that LCD was the component which had the shortest lifetime. In this paper, lifetime of electronic watt-hour meters manufactured by 3 company was estimated and life test standard for LCD was developed.

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Extended warranty model under minimal repair-replacement warranty policy

  • Jung, Ki Mun
    • International Journal of Reliability and Applications
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    • 제18권1호
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    • pp.1-8
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    • 2017
  • In this paper, we study an extended warranty model under minimal repair-replacement warranty (MRRW) which is suggested by Park, Jung and Park (2013). Under MRRW policy, the manufacturer is responsible for providing the minimal repair-replacement services upon the system failures during the warranty period. And if the failure occurs during the extended warranty period, only the minimal repair is conducted. Following the expiration of extended warranty, the user is solely responsible for maintaining the system for a fixed length of time period and replaces the system at the end of such a maintenance period. During the maintenance period, only the minimally repair is given for each system failure. The main purpose of this article is to suggest the extended warranty and replacement model with MRRW. Given the cost structures incurred during the life cycle of the system, we formulate the expected cost and the expected length of life cycle to obtain the expected cost rate.

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사용환경의 변화에 대한 최적예방교환정책 (Optimal Preventive Replacement Policies for a Change of Operational Environment)

  • 공명복
    • 대한산업공학회지
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    • 제21권4호
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    • pp.507-517
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    • 1995
  • The failure rate of an item depends on operational environment. When an item has a chance failure period and a wearout failure period in sequel, the severity of operational environment causes the increase in the slop of wearout failure rate or the increase in the magnitude of chance failure rate. For such a change of operational environment, this paper concerns the change of optimal preventive replacement time. Two preventive replacement policies, age replacement policy and periodic replacement policy with minimal repair, are considered. Investigated properties are: (a) in age replacement policy, optimal preventive replacement time increases as the chance failure rate increases and optimal preventive replacement time decreases as the slope of wearout failure rate increases, and (b) in periodic replacement policy with minimal repair, optimal preventive replacement time increases as the slope of wearout failure rate increases; however, the change of chance failure rate does not alter the optimal preventive replacement time.

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고장형태(故障形態)를 고려(考慮)한 다부품장비(多部品裝備)의 최적교환시기(最適交換時期) 결정(決定) (Determination of Optimal Replacement Period for A Multicomponent System Consider with Failure Types)

  • 이승준;강창욱;황의철
    • 품질경영학회지
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    • 제19권2호
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    • pp.117-124
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    • 1991
  • In this paper, it is assumed that a system is composed of an essential unit and a nonessential unit. During the running of the system, an essential unit is replaced at periodic replacement time T or at nth failure of essential unit whichever occurs first. Nonessential unit is replaced at its failure and at the replacement of essential unit. This paper derive optimal replacement period which minmises the total expected cost for replacement. The unimodality of totoal maintenance cost function is proved under the assumption that hazard rate of each component is continuous and monotone increasing failure rate(IFR). Based on this condition, it is shown that the optimal replacement period is finite and unique.

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A Bayesian Approach to Optimal Replacement Policy for a Repairable System with Warranty Period

  • Jung, Gi-Mun;Han, Sung-Sil
    • Communications for Statistical Applications and Methods
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    • 제9권1호
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    • pp.21-31
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    • 2002
  • This paper considers a Bayesian approach to determine an optimal replacement policy for a repairable system with warranty period. The mathematical formula of the expected cost rate per unit time is obtained for two cases : RFRW(renewing free-replacement warranty) and RPRW(renewing pro-rata warranty). When the failure time is Weibull distribution with uncertain parameters, a Bayesian approach is established to formally express and update the uncertain parameters for determining an optimal replacement policy. Some numerical examples are presented for illustrative purpose.

차량용 에어컨필터 교환시점 알림 시스템 및 과농도 먼지 차단 시스템 (Auto Alarm System of Replacement Period for Vehicle Cabin Filter & Interception System of High Concentration Dust)

  • 이규세;변성욱;김영민;박성우;염영진
    • 대한기계학회논문집A
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    • 제32권11호
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    • pp.1035-1040
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    • 2008
  • Replacement period for vehicle cabin filter of most automobiles is fixed without consideration of conditions of filter and environment. Auto alarm system of replacement period at vehicle cabin filter and interception system of high concentration dust were developed. Control program which is related with the AQS has been developed based on the circuit drive algorithm. This system is expected to be beneficial to passenger's health and to extend the life of the filter which regulates vehicle HVAC system by ventilation mode change at the time of high concentration dust.

심장판막치환환자와 항응혈치료 (Cardiac Valve Replacement and Anticoagulation)

  • 김종환
    • Journal of Chest Surgery
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    • 제11권3호
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    • pp.303-315
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    • 1978
  • During the full 10-year period from June 1968 through June 1978, 112 consecutive patients underwent isolated or double valve replacement. A total of 130 valves were used in aortic, mitral or tricuspid positions: 63 prosthetic valves in 56 and 67 glutaraldehyde-preserved porcine aortic valves in 56 patients. There were 31 early and 9 late deaths with a cumulative mortality rate of 35.7 percent. Eighty-five patients survived longer than 10 days postoperatively were studied for the occurrence of thromboembolism and complications related to anticoagulant therapy. At the end of follow-up period, 68 patients were on Coumadin; 74 were on Persantin with or without Coumadin; 11 were off any antithrombotic drugs with 6 of them being off electively after 6 months of tissue valve replacement. Thromboembolism occurred in 7 [8.2%] of 85 patients or 10.9%/patient-year. Embolic rates were as follows: one of 18 patients anticoagulated [5.6%] or 6.1%/patient-year and 4 of 16 patients not anticoagulated [25.0%] or 17.8%/patient-year for the prosthetic valve replacement; and one of 40 patients anticoagulated [2.5%] or 7.9%/patient-year and one of 11 patients not anticoagulated [9.1%] or 7.9%/patient-year for tissue valve replacement. Three complications of major bleeding were experienced by 3 patients during the follow-up period, being related to Coumadin therapy. The importance of proper anticoagulation were stressed for the successful management of patients after cardiac valve replacement, both prosthetic and tissue valves.

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손실함수를 고려한 열화시스템의 최적교체정책 (Optimal Replacement Policy of Degradation System with Loss Function)

  • 박종훈;이창훈
    • 한국신뢰성학회지:신뢰성응용연구
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    • 제1권1호
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    • pp.35-46
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    • 2001
  • Replacement policy of a degradation system is investigated by incorporating the loss function. Loss function is defined by the deviation of the value of quality characteristic from its target value, which determines the loss cost. Cost function is comprised of the inspection cost, replacement cost and loss cost. Two cost minimization problems are formulated : 1)determination of an optimal inspection period given the state for the replacement and 2)determination of an optimal state for replacement under fixed inspection period. Simulation analysis is performed to observe the variation of total cost with respect to the variation of the parameters of loss function and inspection cost, respectively As a result, parameters of loss function are seen to be the most sensitive to the total cost. On the contrary, inspection cost is observed to be insensitive. This study can be applied to the replacement policy of a degradation system which has to produce the quality critical product.

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보증분석을 위한 품질보증 기간 중 제품 교체율 추정 사례 연구 (Estimation of a Product Replacement Ratio During the Warranty Period for a Warranty Analysis)

  • 안해일
    • 산업경영시스템학회지
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    • 제35권2호
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    • pp.71-79
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    • 2012
  • In this paper, an evaluation of a product replacement ratio of irreparable items to the normally working ones is performed with a view to a warranty analysis. It is demonstrated that the replacement ratio during the warranty period can be estimated from the field data collected during the period of operation, and one can provide the management with a useful information regarding the appropriateness for the warranty period, which is vital to the product marketing strategy. Although warranty data usually take the form of multiply right censored interval data, the conventional reliability analysis method seems to be good enough as in this case. More sophisticated method such as warranty cost analysis and 2-dimensional warranty analysis is yet desired.

Replacement model under warranty with age-dependent minimal repair

  • Park, Minjae
    • International Journal of Reliability and Applications
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    • 제18권1호
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    • pp.9-20
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    • 2017
  • In this paper, we consider a renewable repair-replacement warranty strategy with age-dependent minimal repair service and propose an optimal maintenance model during post-warranty period. Such model implements the repair time limit under warranty and follows with a certain form of system maintenance strategy when the warranty expires. The expected cost rate is investigated per unit time during the life period of the system as for the standard for optimality. Based on the cost design defined for each failure of the system, the expected cost rate is derived during the life period of the system, considering that a renewable minimal repair-replacement warranty strategy with the repair time limit is provided to the customer under warranty. When the warranty is finished, the maintenance of the system is the customer's responsibility. The life period of the system is defined and the expected cost rate is developed from the viewpoint of the customer's perspective. We obtain the optimal maintenance strategy during the maintenance period by minimizing such a cost rate after a warranty expires. Numerical examples using field data are shown to exemplify the application of the methodologies proposed in this paper.

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