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This document specifies requirements and test methods for pipes and fittings which are part of piping systems for the rehabilitation, by means of renovation and trenchless replacement, of underground non-pressure drains and sewers networks. It is applicable to pipes, fittings and assemblies, made from thermoplastic composite materials, as manufactured and as installed. It is not applicable to the existing pipeline. It is applicable to the following technique families for renovation: and intended to be used at a service temperature not exceeding 45 °C according to material as follows: in both cases with re-rating factors on mechanical characteristics for service temperatures in excess of 35 °C determined by dedicated type testing. In the case of lining with SWO pipes, where the pipes, are formed on site, to a fixed or variable diameter, by spirally winding and jointing a pre-manufactured profiled plastics strip, this document applies to, strips made of unplasticized poly(vinyl chloride) (PVC U), or of polyethylene (PE), with or without steel stiffening elements, and installed with or without integral locking mechanism. In the case of lining with RAPL, where a single rigid annulus of structural cementitious grout is formed behind a plastics inner layer serving as permanent formwork anchored to the grout. This document applies to integrally joined profiled plastics strips of PVC-U or PE or studded sheets of PE, and grout systems with or without steel reinforcement. It does not apply to the structural design of the lining system.

 

ISO 7864:2016 specifies requirements for sterile hypodermic needles for single use of designated metric sizes 0,18 mm to 1,2 mm. It does not apply to those devices that are covered by their own standard such as dental needles and pen needles.

 

 

In order to reduce the impact of predictable natural hazards on railway operation, this document specifies a general concept and basic requirements for the planning of railway operation in the events of predictable natural hazards, focusing on heavy rainfall and strong wind. The given concepts and basic requirements do not apply to regions where the consequences of the addressed predictable hazards for railway operation are low or non-existent. The definition of such regions is out of the scope of this document. This document includes measures directly related to railway operation to reduce the impact in the events of predictable natural hazards. Furthermore, this document does not include specific measures which ensure passenger safety or which provide protection against railway-operational damage caused by the predictable natural hazards. Therefore, residual risk can remain.

 

This document describes a highly specific method for the enumeration of Escherichia coli (E. coli) in water. The method is based on membrane filtration followed by culture at 44 °C on chromogenic agar medium containing an ingredient for the detection of the enzyme ß-glucuronidase, and calculation of the number of target organisms in the sample[5,6,13]. Because of the high specificity of the method, this document is suitable for waters with high levels of background bacteria, such as surface waters including bathing water and wastewater provided that they contain little particulate or colloidal matter relative to the E. coli concentration. The method can be used for fresh water and, with an adaptation, for marine water. E. coli strains which do not grow at 44 °C and those that are ß-glucuronidase negative, such as E. coli O157, will not be detected as E. coli by this method. This method is not applicable to the enumeration and detection of coliform bacteria other than E. coli.

 

This document sets out the fundamental principles of determining the groundwater remediation targets for post in situ leach (also referred as in situ recovery) uranium mining. It also delineates the environmental investigation requirements for groundwater remediation, stakeholder identification and engagement, groundwater remediation technical options and their analysis of effectiveness, and procedure for the determination of groundwater remediation target values. This document is applicable to controlling and mitigating groundwater impact and conducting groundwater remediation for in situ leach uranium mining. It can also serve as a reference for contamination control, mitigation and remediation of groundwater for other in situ leach metal mining projects.

 

This document describes an analytical procedure for the determination of main components in Li composite oxides for Li-ion batteries (LiB). These are in particular the elements: Lithium, cobalt, iron, manganese, nickel, phosphorus, titanium and aluminium, depending on the composite oxide of interest. The determination is applicable to all types of LiBs (table 1). The determination is performed by optical emission spectrometry with inductively coupled plasma (ICP OES) using an internal standard. The method of atomic emission spectrometry with inductively coupled plasma (ICP AES) is interchangeable with ICP OES. This test is recommended as the preferred method for determining the stoichiometric composition of several elements in LiBs. This standard establishes a test procedure for a high precision determination of stoichiometric composition of the elements in LiBs.

 

This document describes an analytical procedure for the determination of trace elements in lithium composite oxides for Li-Ion batteries (LiBs). The particular elements within the scope of this method are: aluminum (Al), barium (Ba), boron (B), calcium (Ca), chromium (Cr), copper (Cu), iron (Fe), lead (Pb), manganese (Mn), magnesium (Mg), molybdenum (Mo), nickel (Ni), phosphorus (P), potassium (K), sodium (Na), strontium (Sr), sulfur (S), tin (Sn), titanium (Ti), vanadium (V), zinc (Zn), zirconium (Zr) may be found in lithium materials.

 

This document specifies basic control strategies, minimum functional requirements, basic driver interface elements, and test procedures for verifying the system requirements for collision evasive lateral manoeuvre systems (CELM). A CELM is a safety system aimed at supporting the driver’s vehicle operation by avoiding collisions with objects in the forward path of the vehicle. When a collision is predicted, the CELM controls lateral movement of the vehicle by generating yaw moment. The lateral control manoeuvres can be performed automatically by CELM or can be initiated by the driver and supported by CELM. Specific methods for object detection and other environmental perception technologies are not described in this document. This document applies to light vehicles[1] and heavy trucks[1]. Vehicles equipped with trailers are not within the scope of this document.

 

 

This document supports interchangeability of digital signatures and the prevention of incorrect or illegal digital signatures by providing minimum requirements and formats for generating and verifying digital signatures and related certificates. This document describes the common technical, operational, and policy requirements to enable digital certificates to be used in protecting the exchange of healthcare information within a single domain, between domains, and across jurisdictional boundaries. The purpose of this document is to create a platform for global interoperability. It specifically supports digital certificate enabled communication across borders but can also provide guidance for the national or regional deployment of digital certificates in healthcare. This document defines the provable compliance with a public key infrastructure (PKI) policy necessary in the domain of healthcare. It specifies a method of adopting long-term signature formats to ensure integrity and non-repudiation in long-term electronic preservation of healthcare information. This document provides healthcare-specific PKI (HPKI) profiles of digital signature based on the ISO/ETSI standard profiles specified in CAdES (CMS Advanced Electronic Signature)[1], XAdES (XML Advanced Electronic Signature), PAdES (PDF Advanced Electronic Signature)[2] and the ETSI standard specified in JAdES (JSON Advanced Electronic Signature)[13].

 

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This document provides guidance on how to navigate the threats that can arise during the big data life cycle from the various big data characteristics that are unique to big data: volume, velocity, variety, variability, volatility, veracity and value, including when using big data for the design and implementation of AI systems. This document can help organizations build or enhance their big data security and privacy capabilities, including when using big data in the development and use of AI systems. This document is applicable to all organizations that develop or use big data systems, regardless of their type, size or purpose.

 

This document specifies requirements for lighters to ensure a reasonable degree of safety for normal use or reasonably foreseeable misuse of such lighters by users. This document applies to all flame-producing products commonly known as cigarette lighters, cigar lighters and pipe lighters. It does not apply to matches and flame-producing products intended solely for igniting materials other than cigarettes, cigars, and pipes.

 

 

 

The requirements in this document govern the application of a set of explicit algebraic formulae for the calculation of specific characteristics of radiation heat flux from an open pool fire. This document is an implementation of the general requirements provided in ISO 16730-1 for the case of fire dynamics calculations involving a set of explicit algebraic formulae. This document is arranged in the form of a template, where specific information relevant to the algebraic formulae is provided to satisfy the following types of general requirements: Examples of sets of algebraic formulae meeting the requirements of this document are provided in Annexes A and B. Annex A contains a set of algebraic formulae for radiation heat fluxes from a circular or near-circular open pool fire. Annex B contains formulae for configuration factors of a flame to a target.

 

This document specifies principles, requirements, recommendations and other provisions for preparing and presenting instructions for the assembly of self-assembly products intended for a non-skilled target audience assembling a product without help from a trainer or supervisor. This document is applicable to instructions for: This document does not apply to: This document is applicable to all parties involved in the preparation of instructions for self-assembly, including: This document is supplementary to IEC/IEEE 82079-1, which specifies provisions applicable to the preparation of all information for use of products – including self-assembly and all other phases (such as operation, maintenance and disposal).

 

This document provides guidance for organizations to address privacy risks in artificial intelligence (AI) systems, including machine learning (ML) models. This document helps organizations identify privacy risks throughout the AI system lifecycle, and establishes mechanisms to evaluate the consequences and treatment of such risks. This document is applicable to all types and sizes of organizations that develop or use Ai system, including public and private companies, government entities, and not-for-profit organizations.

 

This document provides guidance and recommendations for assurance of a selected claim about the system-of-interest by achieving the claim and showing the achievement. The guidance and recommendations are given in a system assurance process view on top of ISO/IEC/IEEE 15288 and a software assurance process view on top of ISO/IEC/IEEE 12207.