A life extrapolation model using accelerated equivalent luminance and its application

IF 1.3 4区 工程技术 Q4 ENGINEERING, INDUSTRIAL
Jianping Zhang, Yinjie Zhang, Lei Sun, Jian Fu, Qing Zhou, Jun Hu, Cheng Bao, Siyi Chen
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引用次数: 1

Abstract

Abstract Aiming at predicting the life of vacuum fluorescent display (VFD) accurately, four groups of constant-stress accelerated degradation tests (ADTs) were conducted, and the life extrapolation model of accelerated equivalent luminance (LEMAEL) based on each test sample was proposed. In this model, firstly, Weibull function was employed to fit luminance degradation data of each sample at each stress. Secondly, Logistic function was determined by Anderson-Darling test to respectively describe the distributions of shape and scale parameters, and the degradation formula of accelerated equivalent luminance was obtained to estimate accelerated life. Finally, Power function was selected by comparing determination coefficients to fit the data points formed by accelerated life and stress, and thereby VFD life was extrapolated. The results indicate that the collected test data of each sample objectively reflect VFD luminance characteristics; the degradation formula intuitively exhibits the luminance variation law at each accelerated stress, and Power function accurately reveals the relationship between life and stress; LEMAEL is characterized by high precision and large amount of data information, which not only actualizes the accurate life estimation for light-emitting devices without conventional life tests, but also provides entirely new modeling ideas and thoughts for reliability evaluation and life prediction of products.
加速等效亮度寿命外推模型及其应用
摘要为了准确预测真空荧光显示器(VFD)的寿命,进行了四组恒应力加速退化试验,并基于每个试样提出了加速等效亮度(LEMAEL)的寿命外推模型。在该模型中,首先采用威布尔函数拟合每个样本在每个应力下的亮度退化数据。其次,通过Anderson-DDarling检验确定了Logistic函数,分别描述了形状和尺度参数的分布,得到了加速等效亮度的退化公式,用于估计加速寿命。最后,通过比较确定系数来选择功率函数,以拟合加速寿命和应力形成的数据点,从而推断VFD寿命。结果表明,采集到的每个样品的测试数据客观地反映了VFD的亮度特性;退化公式直观地展示了每个加速应力下的亮度变化规律,幂函数准确地揭示了寿命与应力的关系;LEMAEL具有精度高、数据信息量大的特点,不仅在不进行常规寿命测试的情况下实现了对发光器件的精确寿命估计,而且为产品的可靠性评估和寿命预测提供了全新的建模思路和思路。
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来源期刊
Quality Engineering
Quality Engineering ENGINEERING, INDUSTRIAL-STATISTICS & PROBABILITY
CiteScore
3.90
自引率
10.00%
发文量
52
审稿时长
>12 weeks
期刊介绍: Quality Engineering aims to promote a rich exchange among the quality engineering community by publishing papers that describe new engineering methods ready for immediate industrial application or examples of techniques uniquely employed. You are invited to submit manuscripts and application experiences that explore: Experimental engineering design and analysis Measurement system analysis in engineering Engineering process modelling Product and process optimization in engineering Quality control and process monitoring in engineering Engineering regression Reliability in engineering Response surface methodology in engineering Robust engineering parameter design Six Sigma method enhancement in engineering Statistical engineering Engineering test and evaluation techniques.
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