L05 可靠性和可维护性 标准查询与下载

GB/T 2689.3-1981 寿命试验和加速寿命试验的简单线性无偏估计法(用于威布尔分布)

本标准规定了用于恒定应力寿命试验和加速寿命试验的简单线性无偏估计法的程序和方法。它适用于电子元器件产品（以下简称产品）的寿命服从威布尔分布，其形状参数m>0，特征寿命η>0，位置参数γ＝0，各组投试样品数为n>25的定数截尾的寿命试验和加速寿命试验的数据处理。

Life test and acceleration life test--Simple linear deflection-free evaluation of Weibull distributions

GB/T 2689.1-1981 恒定应力寿命试验和加速寿命试验方法总则

本标准适用于电子元器件产品（以下简称产品）的恒定应力寿命试验和加速寿命试验。用来定量地分析产品的可靠性。在制订有可靠性指标要求的产品技术标准时，为鉴定产品的失效率等级、寿命特征、产品失效分布、加速方程和加速系数等提供统一的方法。

Constant stress life tests and acceleration life tests--General rules

GB/T 2689.2-1981 寿命试验和加速寿命试验的图估计法(用于威布尔分布)

本标准规定了用于恒定应力寿命试验和加速寿命试验的图估计法的程序。它适用于电子元器件产品（以下简称产品）的寿命服从威布尔分布，其形状参数m>0，特征寿命η>0，位置参数γ＝0的情况。可以用来估计产品寿命特征；判断整个试验数据是否有异常情况或判断试验结果是否符合数值分析法的试验假设。

Life test and acceleration life test charts-Evaluation of their Weibull distributions

ASTM B909-21 非应力消除铝制品平面应力断裂强度试验的标准指南

1.1?This guide covers supplementary guidelines for plane-strain fracture toughness testing of aluminum products for which complete stress relief is not practicable. Guidelines for recognizing when residual stresses may be significantly biasing test results are presented, as well

Standard Guide for Plane Strain Fracture Toughness Testing of Non-Stress Relieved Aluminum Products

JIS Z 8115:2019 可靠性术语汇编

Glossary of terms used in dependability

IEC 60812:2018 失效模式和效应分析(FMEA和FMECA)

This document explains how failure modes and effects analysis (FMEA), including the failure modes, effects and criticality analysis (FMECA) variant, is planned, performed, documented and maintained. The purpose of failure modes and effects analysis (FMEA) is to establish how items or processes might fail to perform their function so that any required treatments could be identified. An FMEA provides a systematic method for identifying modes of failure together with their effects on the item or process, both locally and globally. It may also include identifying the causes of failure modes. Failure modes can be prioritized to support decisions about treatment. Where the ranking of criticality involves at least the severity of consequences, and often other measures of importance, the analysis is known as failure modes, effects and criticality analysis (FMECA). This document is applicable to hardware, software, processes including human action, and their interfaces, in any combination. An FMEA can be used in a safety analysis, for regulatory and other purposes, but this being a generic standard, does not give specific guidance for safety applications.

Failure modes and effects analysis (FMEA and FMECA)

DIN EN 61078:2018 可靠性方框图(IEC 61078-2016);德文版本EN 61078-2016

This International Standard aims to describe the requirements to apply when reliability block diagrams (RBD) are used, to describe the procedures for modelling the dependability of a system with reliability block diagrams and to describe the procedures for using the model in order to calculate availability, failure frequency and reliability measures.

Reliability block diagrams (IEC 61078:2016); German version EN 61078:2016

BS EN 61709:2017 电气部件.可靠性.故障率和应力模型转换的参考条件

Electric components. Reliability. Reference conditions for failure rates and stress models for conversion

BS EN 60300-3-3:2017 可靠性管理 应用指南 生命周期成本核算

Dependability management. Application guide. Life cycle costing

NF C20-343*NF EN 61709:2017 电子元件.可靠性.换算用失效率和应力模型的基准条件

Electric components - Reliability - Reference conditions for failure rates and stress models for conversion

IEC 61709:2017 电子元器件.可靠性.转换用故障率和应力模型的基准条件

This document gives guidance on the use of failure rate data for reliability prediction of electric components used in equipment. The method presented in this document uses the concept of reference conditions which are the typical values of stresses that are observed by components in the majority of applications. Reference conditions are useful since they provide a known standard basis from which failure rates can be modified to account for differences in environment from the environments taken as reference conditions. Each user can use the reference conditions defined in this document or use their own. When failure rates stated at reference conditions are used it allows realistic reliability predictions to be made in the early design phase. The stress models described herein are generic and can be used as a basis for conversion of failure rate data given at these reference conditions to actual operating conditions when needed and this simplifies the prediction approach. Conversion of failure rate data is only possible within the specified functional limits of the components. This document also gives guidance on how a database of component failure data can be constructed to provide failure rates that can be used with the included stress models. Reference conditions for failure rate data are specified, so that data from different sources can be compared on a uniform basis. If failure rate data are given in accordance with this document then additional information on the specified conditions can be dispensed with. This document does not provide base failure rates for components - rather it provides models that allow failure rates obtained by other means to be converted from one operating condition to another operating condition. The prediction methodology described in this document assumes that the parts are being used within its useful life. The methods in this document have a general application but are specifically applied to a selection of component types as defined in Clauses 6 to 20 and I.2.

Electric components - Reliability - Reference conditions for failure rates and stress models for conversion

IEC 60300-3-3:2017 可信性管理.第3-3部分:应用指南.生命周期成本分析

This part of IEC 60300 establishes a general introduction to the concept of life cycle costing and covers all applications. Although costs incurred over the life cycle consist of many contributing elements, this document particularly highlights the costs associated with the dependability of an item. This forms part of an overall dependability management programme as described in IEC 60300-1 [1]1. Guidance is provided on life cycle costing for use by managers, engineers, finance staff, and contractors; it is also intended to assist those who may be required to specify and commission such activities when undertaken by others.

Dependability management - Part 3-3: Application guide - Life cycle costing

BS EN 61703:2016 可靠性、可用性、可维护性和维护支持术语的数学表达式

Mathematical expressions for reliability, availability, maintainability and maintenance support terms

IEC 61078:2016 可靠性方框图

This International Standard describes: the requirements to apply when reliability block diagrams (RBDs) are used in dependability analysis; the procedures for modelling the dependability of a system with reliability block diagrams; how to use RBDs for qualitative and quantitative analysis; the procedures for using the RBD model to calculate availability, failure frequency and reliability measures for different types of systems with constant (or time dependent) probabilities of blocks success/failure, and for non-repaired blocks or repaired blocks; some theoretical aspects and limitations in performing calculations for availability, failure frequency and reliability measures; the relationships with fault tree analysis (see IEC 61025 [1]) and Markov techniques (see IEC 61165 [2]).

Reliability block diagrams

IEC 61703:2016 可靠性、可用性、维护性和维护支持术语的数学表示式

Mathematical expressions for reliability, availability, maintainability and maintenance support terms

BS EN 62741:2015 可靠性要求的论证. 可靠情形

Demonstration of dependability requirements. The dependability case

DB37/T 2656-2015 物联网感知层安全要求

IoT Awareness Layer Security Requirements

DIN EN 60300-1:2015 可靠性管理. 第1部分: 管理和应用指南 (IEC 60300-1-2014); 德文版本EN 60300-1-2014

Dependability management - Part 1: Guidance for management and application (IEC 60300-1:2014); German version EN 60300-1:2014

KS A IEC 62429:2014 可靠性成长.独特复合系统的早期故障压力测试

Reliability growth — Stress testing for early failures in unique complex systems

KS A IEC 61163-1:2014 可靠性压力筛选.第1部分:批量生产可修复配件

Reliability stress screening — Part 1: Repairable assemblies manufactured in lots