Rechercher

ISO 10815:2016 establishes the basic principles for measuring, processing and evaluating vibration generated internally in railway tunnels by the passage of trains. By establishing a standard procedure, comparative data may be obtained on response of the tunnel elements from time to time, provided that the excitation source is the same. Data obtained in different tunnels may also be compared. The…

ISO/IEC 19086-1:2016 seeks to establish a set of common cloud SLA building blocks (concepts, terms, definitions, contexts) that can be used to create cloud Service Level Agreements (SLAs). This document specifies a) an overview of cloud SLAs, b) identification of the relationship between the cloud service agreement and the cloud SLA, c) concepts that can be used to build cloud SLAs, and…

ISO/IEC 19086-1:2016 seeks to establish a set of common cloud SLA building blocks (concepts, terms, definitions, contexts) that can be used to create cloud Service Level Agreements (SLAs). This document specifies a) an overview of cloud SLAs, b) identification of the relationship between the cloud service agreement and the cloud SLA, c) concepts that can be used to build cloud SLAs, and…

ISO/IEC TR 30132-1:2016 establishes guidelines for improving the energy effectiveness for computing models. Specifically, this document provides - a reference computing model for evaluating end-to-end energy effectiveness, - a holistic framework for evaluating the applicability of energy effectiveness improving technologies, and - guidelines for evaluating energy effectiveness.

ISO 21028-1:2016 spécifie les exigences de ténacité des matériaux métalliques utilisables à une température inférieure à −80 °C, pour assurer leur aptitude à l'emploi pour les récipients cryogéniques. ISO 21028-1:2016 ne s'applique pas aux aciers non alliés ni aux matériaux moulés.

ISO 21028-1:2016 specifies the toughness requirements of metallic materials for use at a temperature below -80 °C to ensure their suitability for cryogenic vessels. ISO 21028-1:2016 is not applicable to unalloyed steels and cast materials.

L'ISO 16645:2016 s'applique aux accélérateurs linéaires d'électrons médicaux, c'est-à-dire aux accélérateurs linéaires avec des énergies nominales de faisceau dans la gamme de 4 MV à 30 MV, y compris les installations particulières telles que le bras robotisé, les appareils de radiothérapie hélicoïdale avec modulation d'intensité et les appareils dédiés à la radiothérapie…

In fracture assessments of steel structures containing cracks, it has generally been assumed that the fracture resistance of fracture toughness specimens is equal to the fracture resistance of structural components. However, such an assumption often leads to excessively conservative fracture assessments. This is due to a loss of plastic constraint in structural components, which are subjected…

ISO 18610:2016 specifies an ultrasonic method to determine the components of the elasticity tensor of ceramic matrix composite materials at room temperature. Young's moduli shear moduli and Poisson coefficients, can be determined from the components of the elasticity tensor. It applies to ceramic matrix composites with a continuous fibre reinforcement: unidirectional (1D), bidirectional (2D…

L'ISO 18610:2016 spécifie une méthode ultrasonore pour déterminer les composantes du tenseur d'élasticité des composites à matrice céramique à température ambiante. Les modules de Young, les modules de cisaillement et les coefficients de Poisson peuvent être déterminés à partir des composantes du tenseur d'élasticité. L'ISO 18610:2016 s'applique aux composites à matrice…