03.120.99 – Other standards related to quality – PDF Standards Store ?u= Tue, 05 Nov 2024 19:46:09 +0000 en-US hourly 1 https://wordpress.org/?v=6.7.1 ?u=/wp-content/uploads/2024/11/cropped-icon-150x150.png 03.120.99 – Other standards related to quality – PDF Standards Store ?u= 32 32 IEC 62429:2007 ?u=/product/publishers/iec/iec-624292007/ Tue, 05 Nov 2024 19:46:09 +0000 Reliability growth - Stress testing for early failures in unique complex systems
Published By Publication Date Number of Pages
IEC 2007-11-30 76
]]> This International Standard gives guidance for reliability growth during final testing or acceptance testing of unique complex systems. It gives guidance on accelerated test conditions and criteria for stopping these tests.

]]> IEC 62308:2006 ?u=/product/publishers/iec/iec-623082006/ Tue, 05 Nov 2024 19:43:31 +0000 Fiabilité de l'équipement - Méthodes d'évaluation de la fiabilité
Published By Publication Date Number of Pages
IEC 2006-07-26 122
]]> Fiabilité de l'équipement - Méthodes d'évaluation de la fiabilité
Published By Publication Date Number of Pages
IEC 2006-07-26 122
]]> IEC 61078:2016 ?u=/product/publishers/iec/iec-610782016/ Tue, 05 Nov 2024 19:14:21 +0000 Reliability block diagrams
Published By Publication Date Number of Pages
IEC 2016-08-12 254
]]> IEC 61078:2016 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) and Markov techniques (see IEC 61165). This third edition cancels and replaces the second edition published in 2006. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
– the structure of the document has been entirely reconsidered, the title modified and the content extended and improved to provide more information about availability, reliability and failure frequency calculations;
– Clause 3 has been extended and clauses have been introduced to describe the electrical analogy, the "non-coherent" RBDs and the "dynamic" RBDs;
– Annex B about Boolean algebra methods has been extended;
– Annex C (Calculations of time dependent probabilities), Annex D (Importance factors), Annex E (RBD driven Petri net models) and Annex F (Numerical examples and curves) have been introduced.

]]> IEC 61078:2006 ?u=/product/publishers/iec/iec-610782006/ Tue, 05 Nov 2024 19:14:21 +0000 Techniques d'analyse pour la sûreté de fonctionnement – Bloc-diagramme de fiabilité et méthodes booléennes
Published By Publication Date Number of Pages
IEC 2006-01-19 82
]]> Techniques d'analyse pour la sûreté de fonctionnement – Bloc-diagramme de fiabilité et méthodes booléennes
Published By Publication Date Number of Pages
IEC 2006-01-19 82
]]> IEC 61070:1991 ?u=/product/publishers/iec/iec-610701991/ Tue, 05 Nov 2024 19:13:36 +0000 Procédures d'essai de conformité pour la disponibilité en régime établi
Published By Publication Date Number of Pages
IEC 1991-11-25 56
]]> Procédures d'essai de conformité pour la disponibilité en régime établi
Published By Publication Date Number of Pages
IEC 1991-11-25 56
]]> IEC 61025:2006 ?u=/product/publishers/iec/iec-610252006/ Tue, 05 Nov 2024 19:12:40 +0000 Analyse par arbre de panne (AAP)
Published By Publication Date Number of Pages
IEC 2006-12-13 112
]]> Analyse par arbre de panne (AAP)
Published By Publication Date Number of Pages
IEC 2006-12-13 112
]]> CAN/CSA-Q850-F97 (C2007):2000 Edition ?u=/product/publishers/csa/can-csa-q850-f97-c2007/ Tue, 05 Nov 2024 14:40:36 +0000 Gestion du risque: Lignes directrices à l’intention des décideurs
Published By Publication Date Number of Pages
CSA 2000-01-18 65
]]> Domaine d’application

1.1
Le guide CAN/CSA-Q850 vise à aider les décideurs à gérer efficacement les différents types de risques, notamment les risques de blessure et de danger pour la santé, les biens, l'environnement et toute autre valeur.

1.2
Ce guide explique le processus d'acquisition, d'analyse, d'évaluation et de communication de l'information nécessaire à la prise de décision.

1.3
Ce guide décrit, point par point, les principales composantes du processus décisionnel relatif à la gestion des risques, ainsi que les liens entre ces composantes.

1.4
Sont exclus de cette norme: (a) définition ou prescriptions légales de la gestion des risques; (b) base nécessaire pour l'admissibilité à une assurance, à un prêt ou autres considérations financières; (c) outils techniques précis pour l'analyse, l'évaluation et la réduction des risques. Note. La CSA a produit des guides sur l'analyse des risques (norme CAN/CSA-Q634) et l'évaluation des risques environnementaux (norme CSA Z763).

]]> CAN/CSA-Q850-97 (R2009):1997 Edition ?u=/product/publishers/csa/can-csa-q850-97-r2009/ Tue, 05 Nov 2024 14:40:35 +0000 Risk Management: Guideline for Decision Makers
Published By Publication Date Number of Pages
CSA 1997 62
]]> Scope

1.1
CSA Guideline CAN/CSA-Q850 is intended to assist decision- makers in effectively managing all types of risk issues, i ncluding injury or damage to health, property, the environment, or something else of value.

1.2
This Guideline describes a process for acquiring, analyzi ng, evaluating, and communicating information that is necessary for decision-making.

1.3
This Guideline provides a description of the major components of the risk management decision process, and their relationship to each other, in a step-by-step process.

1.4
This Guideline does not provide (a) a legal definition or specification for risk management; (b) a necessary basis for qualifying for insurance, a monetary loan, or other financial considerations; or (c) specific technical tools for risk analysis, evaluation, and control. Note: CSA has developed guidance documents to address risk analysis (CSA Standard CAN/CSA-Q634) and environmental risk assessment (CSA Standard Z763).

]]> AS IEC 62308:2008 (R2018) ?u=/product/publishers/as/as-iec-623082008-r2018/ Tue, 05 Nov 2024 13:10:00 +0000 Equipment reliability - Reliability assessment methods
Published By Publication Date Number of Pages
AS 2008-07-28 61
]]> Adopts IEC 62308 Ed. 1.0 (2006) to describe methods for early reliability assessment of items based on field data and test data for components and modules and applicable to mission, safety and business critical high integrity and complex items. It includes guidance on related activities, management of the reliability assessment process, and reliability programme planning and monitoring.

]]> AS IEC 61078:2017 ?u=/product/publishers/as/as-iec-610782017/ Tue, 05 Nov 2024 13:09:35 +0000 Reliability block diagrams
Published By Publication Date Number of Pages
AS 2017-05-12 125
]]> Adopts IEC 61078, Ed. 3.0 (2016), which describes the requirements that apply when reliability block diagrams (RBDs) are used in dependability analysis. It also describes the procedures for modelling the dependability of a system with RBDs.

Scope

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]).

]]>