L05 可靠性和可维护性 标准查询与下载

KS A IEC 61703:2014 可靠性、有效性、维修性和维修支持术语的数学表示

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

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

IEC 60300-1:2014 可靠性管理. 第1部分: 管理和应用指南

Dependability management - Part 1: Guidance for management and application

BS 5760-24:2014 系统, 设备和部件的可靠性. 复杂系统的检查和测试风险技术的综合指南

This British Standard gives guidance on defining complex system requirements and focuses on the important aspects that are needed to establish an efficient testing regime. It also gives guidance on the inspection and testing of complex systems, including the integration of risk management techniques. This British Standard applies to managers involved in the early development of a complex system, such as project managers, requirement managers, test managers and financial controllers. NOTE This British Standard only makes reference to aspects such as risk management, project management and requirements management where such explanations aid this guide. Full details on these subjects are not the intent of this standard.

Reliability of systems, equipment and components. Guide to the integration of risk techniques in the inspection and testing of complex systems

ASTM E1169-14 耐久性试验的标准实施规程

5.1 A ruggedness test is a special application of a statistically designed experiment. It is generally carried out when it is desirable to examine a large number of possible factors to determine which of these factors might have the greatest effect on the outcome of a test method. Statistical design enables more efficient and cost effective determination of the factor effects than would be achieved if separate experiments were carried out for each factor. The proposed designs are easy to use in developing the information needed for evaluating quantitative test methods. 5.2 In ruggedness testing, the two levels for each factor are chosen to use moderate separations between the high and low settings. In general, the size of effects, and the likelihood of interactions between the factors, will increase with increased separation between the high and low settings of the factors. 5.3 Ruggedness testing is usually done within a single laboratory on uniform material, so the effects of changing only the factors are measured. The results may then be used to assist in determining the degree of control required of factors described in the test method. 5.4 Ruggedness testing is part of the validation phase of developing a standard test method as described in Guide E1488. It is preferred that a ruggedness test precedes an interlaboratory (round robin) study. 1.1 This practice covers conducting ruggedness tests. The purpose of a ruggedness test is to identify those factors that strongly influence the measurements provided by a specific test method and to estimate how closely those factors need to be controlled. 1.2 This practice restricts itself to designs with two levels per factor. The designs require the simultaneous change of the levels of all of the factors, thus permitting the determination of the effects of each of the factors on the measured results. 1.3 The system of units for this practice is not specified. Dimensional quantities in the practice are presented only as illustrations of calculation methods. The examples are not binding on products or test methods treated. 1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Practice for Conducting Ruggedness Tests

DIN EN 62551:2013 可靠性分析技术. Petri网技术(IEC 62551-2012); 德文版本EN 62551-2012

Analysis techniques for dependability - Petri net techniques (IEC 62551:2012); German version EN 62551:2012

DIN EN 62628:2013 可靠性的软件特性导则 (IEC 62628-2012); 德文版本EN 62628-2012

Guidance on software aspects of dependability (IEC 62628:2012); German version EN 62628:2012

SAE TA-HB-0009-2013 可靠性计划手册

This handbook provides ""how to"" guidance to industry and government for the reliability Activities and Methods contained in ANSI/GEIA-STD-0009 for developing reliable products and systems, successfully demonstrating them during test and evaluation, and sustaining them throughout the system/product life cycle.

Reliability Program Handbook

WH/T 56-2013 手机（移动终端）动漫用户服务规范

本标准规定了手机(移动终端)动漫产品经营者为手机(移动终端)用户提供动漫产品服务的用户服务手册、服务方式、服务渠道和用户权益保护。本标准适用于手机(移动终端)动漫产品经营者为手机(移动终端)用户提供动漫产品服务的全过程。

Service specification for smart phone (mobile terminal) animation and cartoon customer

ANSI/VITA 51.1-2013 可靠度预测MIL-HDBK 217辅助规范

Reliability Prediction MIL-HDBK-217 Subsidiary Specification

ASTM E1169-13 耐久性试验的标准实施规程

5.1 A ruggedness test is a special application of a statistically designed experiment. It is generally carried out when it is desirable to examine a large number of possible factors to determine which of these factors might have the greatest effect on the outcome of a test method. Statistical design enables more efficient and cost effective determination of the factor effects than would be achieved if separate experiments were carried out for each factor. The proposed designs are easy to use in developing the information needed for evaluating quantitative test methods. 5.2 In ruggedness testing, the two levels for each factor are chosen to use moderate separations between the high and low settings. In general, the size of effects, and the likelihood of interactions between the factors, will increase with increased separation between the high and low settings of the factors. 5.3 Ruggedness testing is usually done within a single laboratory on uniform material, so the effects of changing only the factors are measured. The results may then be used to assist in determining the degree of control required of factors described in the test method. 5.4 Ruggedness testing is part of the validation phase of developing a standard test method as described in Guide E1488. It is preferred that a ruggedness test precedes an interlaboratory (round robin) study. 1.1 This practice covers conducting ruggedness tests. The purpose of a ruggedness test is to identify those factors that strongly influence the measurements provided by a specific test method and to estimate how closely those factors need to be controlled. 1.2 This practice restricts itself to designs with two levels per factor. The designs require the simultaneous change of the levels of all of the factors, thus permitting the determination of the effects of each of the factors on the measured results. 1.3 The system of units for this practice is not specified. Dimensional quantities in the practice are presented only as illustrations of calculation methods. The examples are not binding on products or test methods treated. 1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Practice for Conducting Ruggedness Tests

BS EN 62551:2012 可靠性分析技术. Petri网技术

Analysis techniques for dependability. Petri net techniques

DIN EN 61709 Berichtigung 1:2012 电子元件. 可靠性. 转换故障率和应力模型参考条件 (IEC 61709-2011); 德文版本EN 61709-2011, DIN EN 61709-2012-01的勘误表

Electric components - Reliability - Reference conditions for failure rates and stress models for conversion (IEC 61709:2011); German version EN 61709:2011, Corrigendum to DIN EN 61709:2012-01

SAE JA1000/1-2012 可靠性计划标准实施指南

The importance of reliability in design engineering has significantly grown since the early 1960' s. Competition has been a primary driver in this growth. The three realities of competition today are: world class quality and reliability, cost- effectiveness, and fast time-to-market. Formerly, companies could effectively compete if they could achieve at least two of these features in their products and product development processes, often at the expense of the third. However, customers today, whether military, aerospace, or commercial, have been sensitized to a higher level of expectation and demand products that are highly reliable, yet affordable.

Reliability Program Standard Implementation Guide

IEC 61124:2012 可靠性试验.恒定失效率和恒定失效强度的符合性试验

Reliability testing - Compliance tests for constant failure rate and constant failure intensity

ANSI/VITA 51.0-2008(R2012) 可靠性预测

This document provides a framework for electronics equipment reliability standards, and establishes a reliability Community of Practice. It addresses the limitations of existing prediction practices with a series of subsidiary specifications that contain the 'best practices' within industry for performing electronics reliability analysis. The development of VITA 51.0 and the subsidiary specifications is an effort to give harmony, consistency and repeatability to reliability practices.

Reliability Prediction

DIN EN 61709:2012 电器元件.可靠性.转换故障率和应力模型参考条件(IEC 61709-2011).德文版 EN 61709-2011

Electric components - Reliability - Reference conditions for failure rates and stress models for conversion (IEC 61709:2011); German version EN 61709:2011

ASTM E1169-12 耐久性试验的标准实施规程

1.1 This practice covers conducting ruggedness tests. The purpose of a ruggedness test is to identify those factors that strongly influence the measurements provided by a specific test method and to estimate how closely those factors need to be controlled. 1.2 This practice restricts itself to designs with two levels per factor. The designs require the simultaneous change of the levels of all of the factors, thus permitting the determination of the effects of each of the factors on the measured results. 1.3 The system of units for this practice is not specified. Dimensional quantities in the practice are presented only as illustrations of calculation methods. The examples are not binding on products or test methods treated. 1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Practice for Conducting Ruggedness Tests

ASTM E1169-12a 耐久性试验的标准实施规程

1.1 This practice covers conducting ruggedness tests. The purpose of a ruggedness test is to identify those factors that strongly influence the measurements provided by a specific test method and to estimate how closely those factors need to be controlled. 1.2 This practice restricts itself to designs with two levels per factor. The designs require the simultaneous change of the levels of all of the factors, thus permitting the determination of the effects of each of the factors on the measured results. 1.3 The system of units for this practice is not specified. Dimensional quantities in the practice are presented only as illustrations of calculation methods. The examples are not binding on products or test methods treated. 1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Practice for Conducting Ruggedness Tests

DIN EN 55022:2011 信息技术设备.无线电干扰特性.范围及测量方法(CISPR 22-2008,修订版).德文版 EN 55022-2010

Information technology equipment - Radio disturbance characteristics - Limits and methods of measurement (CISPR 22:2008, modified); German version EN 55022:2010