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Uued standardid


EVS-EN ISO 17637:2016
Hind 8,72 EUR
Identne ISO 17637:2016; EN ISO 17637:2016
Keevisõmbluste mittepurustav kontroll. Sulakeevitusliidete visuaalne kontroll
See standard käsitleb metalsete materjalide sulakeevisõmbluste visuaalset kontrolli. Seda võib rakendada ka liitekohtade visuaalseks kontrolliks enne keevitamist.
This document specifies the visual testing of fusion welds in metallic materials. It may also be applied to visual testing of the joint prior to welding.


EVS-EN ISO 17635:2016
Hind 10,19 EUR
Identne ISO 17635:2016; EN ISO 17635:2016
Non-destructive testing of welds - General rules for metallic materials (ISO 17635:2016)
ISO 17635:2016 gives guidelines for the choice of non-destructive testing (NDT) methods for welds and evaluation of the results for quality control purposes, based on quality requirements, material, weld thickness, welding process and extent of testing. ISO 17635:2016 also specifies general rules and standards to be applied to the different types of testing, for either the methodology or the acceptance levels for metallic materials. Acceptance levels cannot be a direct interpretation of the quality levels defined in ISO 5817 or ISO 10042. They are linked to the overall quality of the produced batch of welds. Requirements for acceptance levels for NDT comply with quality levels stated in ISO 5817 or ISO 10042 (moderate, intermediate, stringent) only on a general basis and not in detail for each indication. Annex A gives correlations between quality, NDT and acceptance level standards. Annex B gives an overview of the standards linked to quality levels, acceptance levels and NDT methods.

EVS-EN ISO 19598:2016
Hind 9,49 EUR
Identne ISO 19598:2016; EN ISO 19598:2016
Metallic coatings - Electroplated coatings of zinc and zinc alloys on iron or steel with supplementary Cr(VI)-free treatment (ISO 19598:2016)
ISO 19598:2016 applies to electrodeposited zinc and zinc-alloy coatings on iron and steel with Cr(VI)-free passivation. The zinc-alloy coatings contain nickel or iron as alloying elements (referred to as zinc/nickel and zinc/iron coatings, respectively). The main purpose of the coatings or coating systems is protecting iron and steel components against corrosion. ISO 19598:2016 specifies - the designations to be used for the above coating systems, - the minimum corrosion resistance to be achieved in specified test procedures, and - the minimum coating thicknesses required.

EVS-EN ISO 10675-1:2016
Hind 8,72 EUR
Identne ISO 10675-1:2016; EN ISO 10675-1:2016
Non-destructive testing of welds - Acceptance levels for radiographic testing - Part 1: Steel, nickel, titanium and their alloys (ISO 10675-1:2016)
ISO 10675-1:2016 specifies acceptance levels for indications from imperfections in butt welds of steel, nickel, titanium and their alloys detected by radiographic testing. If agreed, the acceptance levels can be applied to other types of welds or materials. The acceptance levels can be related to welding standards, application standards, specifications or codes. This document assumes that the radiographic testing has been carried out in accordance with ISO 17636‑1 and ISO 17636‑2. When assessing whether a weld meets the requirements specified for a weld quality level, the sizes of imperfections permitted by standards are compared with the dimensions of indications revealed by a radiograph made of the weld.

EVS-EN ISO 4231:2016
Hind 6,47 EUR
Identne EN ISO 4231:2016; ISO 4231:2016
Hand- and machine-operated circular screwing dies for parallel pipe threads - G series (ISO 4231:2016)
This International Standard is a supplement to ISO 2568 and ISO 4230 and specifies the dimensions of hand- and machine-operated circular screwing dies intended for production of parallel pipe threads, G series, in accordance with ISO 228-1. The general dimensions of these dies (diameter, thickness and fixing dimensions) are in accordance with ISO 2568 so as to permit the driving of hand-operated dies with the aid of the die stocks defined in that document.

ISO 19487:2016
Hind 54,15 EUR
Metallic and other inorganic coatings -- Electrodeposited nickel-ceramics composite coatings
ISO 19487:2016 specifies the requirements for electrodeposited nickel-ceramics composite coatings applied to ferrous and non-ferrous basis metals for engineering purposes. In addition, it enables both providers and users to offer a consistent methodology to fabricate electrodeposited nickel-ceramics composite system. Nickel alloys or composites in which nickel content is less than 40 vol.% are outside the scope of this document. The designation provides a means of specifying the type of nickel composite coatings appropriate for engineering applications.

ISO 10675-1:2016
Hind 54,15 EUR
Non-destructive testing of welds -- Acceptance levels for radiographic testing -- Part 1: Steel, nickel, titanium and their alloys
ISO 10675-1:2016 specifies acceptance levels for indications from imperfections in butt welds of steel, nickel, titanium and their alloys detected by radiographic testing. If agreed, the acceptance levels can be applied to other types of welds or materials. The acceptance levels can be related to welding standards, application standards, specifications or codes. This document assumes that the radiographic testing has been carried out in accordance with ISO 17636‑1 and ISO 17636‑2. When assessing whether a weld meets the requirements specified for a weld quality level, the sizes of imperfections permitted by standards are compared with the dimensions of indications revealed by a radiograph made of the weld.
Asendab ISO 10675-1:2008

ISO 3318:2016
Hind 35,48 EUR
Assembly tools for screws and nuts -- Open-ended wrenches, box wrenches and combination wrenches -- Maximum widths of heads
ISO 3318:2016 specifies the maximum outside head dimensions for open-ended wrenches, box wrenches and combination wrenches. NOTE 1 The wrenches covered by this document are the ones identified in ISO 1703:2005 under reference nos. 1 1 01 02 0, 1 1 01 05 0, 1 1 01 06 0, 1 1 02 03 0, 1 1 02 04 0, 1 1 02 05 0, 1 1 02 06 0, 1 1 02 01 0, 1 1 02 02 0 and 1 1 02 08 0. NOTE 2 Box wrenches can also be designated as ring wrenches. ISO 3318:2016 does not cover technical specifications for these products. Technical specifications are given in ISO 1711‑1.
Asendab ISO 3318:2009

ISO 1085:2016
Hind 35,48 EUR
Assembly tools for screws and nuts -- Double-ended wrenches -- Size pairing
ISO 1085:2016 specifies the size pairing of double-ended wrenches with unequal nominal widths across flats. NOTE The wrenches covered by this document are those identified in ISO 1703:2005 under reference nos. 1 1 01 02 0, 1 1 02 03 0, 1 1 02 04 0, 1 1 02 05 0, 1 1 02 06 0, 1 1 02 08 0.
Asendab ISO 1085:1999

IEC 62453-2:2016
Hind 326,77 EUR
Field device tool (FDT) interface specification - Part 2: Concepts and detailed description
IEC 62453-2:2016 explains the common principles of the field device tool concept. These principles can be used in various industrial applications such as engineering systems, configuration programs and monitoring and diagnostic applications. This standard specifies the general objects, general object behavior and general object interactions that provide the base of FDT. This second edition cancels and replaces the first edition published in 2009. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: - Clarification for categories of DTMs (e.g. new category "Composite Device DTM") - Clarification: Command functions - New concept: Static function - Clarification for Communication Channel and communication - Clarifications for identification - Clarifications for scanning and DTM assignment - New concept: PLC tool support
Asendab IEC 62453-2:2009

IEC 60519-12:2016
Hind 186,72 EUR
Safety in installations for electroheating and electromagnetic processing - Part 12: Particular requirements for infrared electroheating
IEC 60519-12:2016 specifies safety requirements for industrial electroheating equipment and installations in which infrared radiation; usually generated by infrared emitters; is significantly dominating over heat convection or heat conduction as means of energy transfer to the workload. A further limitation of the scope is that the infrared emitters have a maximum spectral emission at longer wavelengths than 780 nm in air or vacuum, and are emitting wideband continuous spectra such as by thermal radiation or high pressure arcs. This second edition cancels and replaces the first edition published in 2013. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) the structure has been redrafted according to IEC 60519-1:2015; b) terms/definitions, normative references and bibliography have been updated and completed; c) all requirements and content from IEC 60519-12:2013 that have been included in IEC 60519-1:2015 have been removed to avoid any duplication.
Asendab IEC 60519-12:2013

IEC 62453-1:2016
Hind 224,07 EUR
Field device tool (FDT) interface specification - Part 1: Overview and guidance
IEC 62453-1:2016 presents an overview and guidance for the IEC 62453 series. - explains the structure and content of the IEC 62453 series (see Clause 5); - provides explanations of some aspects of the IEC 62453 series that are common to many of the parts of the series; - describes the relationship to some other standards. This second edition cancels and replaces the first edition published in 2009. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: introduction of a new implementation technology (defined in IEC 62453-42).
Asendab IEC 62453-1:2009

IEC TS 62832-1:2016
Hind 224,07 EUR
Industrial-process measurement, control and automation - Digital factory framework - Part 1: General principles
IEC 62832-1:2016(E) which is a Technical Specification, defines the general principles of the Digital Factory framework (DF framework), which is a set of model elements (DF reference model) and rules for modelling production systems.
Asendab IEC/TR 62794:2012

IEC 61987-11:2016
Hind 280,09 EUR
Industrial-process measurement and control - Data structures and elements in process equipment catalogues - Part 11: List of properties (LOPs) of measuring equipment for electronic data exchange - Generic structures
IEC 61987-11:2016 provides: - a characterisation of industrial process measuring equipment (device type dictionary) for integration in the Common Data Dictionary (CDD), and - generic structures for operating lists of properties (OLOP) and device lists of properties (DLOP) of measuring equipment in conformance with IEC 61987-10. This second edition cancels and replaces the first edition published in 2012. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) The classification in Table A.1 has been amended to reflect the changes in the classification scheme of process measuring equipment in the CDD due to the development of IEC 61987-14, IEC 61987-15 and IEC 61987-16. b) Annex A has become informative.
Asendab IEC 61987-11:2012

IEC 62264-3:2016
Hind 280,09 EUR
Enterprise-control system integration - Part 3: Activity models of manufacturing operations management
IEC 62264-3:2016 defines activity models of manufacturing operations management that enable enterprise system to control system integration. The activities defined in this document are consistent with the object models definitions given in IEC 62264-1. The modelled activities operate between business planning and logistics functions, defined as the Level 4 functions and the process control functions, defined as the Level 2 functions of IEC 62264-1. IEC 62264-3:2016 defines activity models of manufacturing operations management that enable enterprise system to control system integration. The activities defined in this document are consistent with the object models definitions given in IEC 62264-1. The modelled activities operate between business planning and logistics functions, defined as the Level 4 functions and the process control functions, defined as the Level 2 functions of IEC 62264-1. This second edition cancels and replaces the first edition published in 2007. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) 4.1 Manufacturing Operations Management was moved to Part 1 and therefore was removed from Part 3; b) 4.2 Functional hierarchy was moved to Part 1 and therefore was removed from Part 3; c) 4.4 Criterion for defining activities below Level 4 was moved to Part 1 and therefore was removed from Part 3; d) 4.5 Categories of production information was moved to Part 1 and therefore was removed from Part 3; e) 4.6 Manufacturing operations information was moved to Part 1 and therefore was removed from Part 3; f) 5.3 Expanded equipment hierarchy model was moved to Part 1 and therefore was removed from Part 3; g) 5.4 Expanded decision hierarchy model was removed from Part 3. The corresponding section was removed from Part 1 and replaced with a reference to ISO 15704; h) Annex A (informative) Other enterprise activities affecting manufacturing operations was moved to Part 1 and therefore was removed from Part 3; i) Annex D (informative) Associated standards was moved to Part 1 and therefore was removed from Part 3; j) Annex F (informative) Applying the decision hierarchy model to manufacturing operations management was removed from Part 3. The corresponding section was removed from Part 1 and replaced with a reference to ISO 15704; k) Annex G (informative) Mapping PSLX ontology to manufacturing operations management was removed from Part 3. The committee felt that this section is more appropriate as a PSLX white paper or TR. The names for data were changed to match the Part 4 standard names. These name changes were made in all figures and in the text.
Asendab IEC 62264-3:2007

IEC 60050-845:1987/AMD1:2016
Hind 9,34 EUR
Amendment 1 - International electrotechnical vocabulary - Part 845: Lighting
 

IEC 61987-16:2016
Hind 130,71 EUR
Industrial-process measurement and control - Data structures and elements in process equipment catalogues - Part 16: List of properties (LOPs) for density measuring equipment for electronic data exchange
IEC 61987-16:2016 provides an - operating list of properties (OLOP) for the description of the operating parameters and the collection of requirements for a density measuring equipment, and - device lists of properties (DLOP) for a range of density measuring equipment types describing them. The structures of the OLOP and the DLOP correspond with the general structures defined in IEC 61987-11 and agree with the fundamentals for the construction of LOPs defined in IEC 61987-10.

CEN/TS 16980-1:2016
Hind 12,51 EUR
Photocatalysis - Continuous flow test methods - Part 1: Determination of the degradation of nitric oxide (NO) in the air by photocatalytic materials
This standard describes a method for assessing the performance of photocatalytic inorganic materials contained in cement mortars and/or limes or ceramic-based matrices, paints or materials deposited as thin films or coatings on a variety of substrates for the photocatalytic abatement of nitric oxide in the gas phase. This method is not suitable for the assessment of samples to be applied with flow perpendicular to the surface or flow permeating the surface itself as polymeric and paper filters, honeycomb structures and suchlike. The performance for the photocatalytic sample under test is evaluated by measuring the degradation rate of nitric oxide (NO) using the method described herein. The photocatalytic abatement rate is calculated from the observed rate by eliminating the effects of mass transfer. The intrinsic photocatalytic abatement rate is an intrinsic property of the material tested and makes it possible to distinguish the photocatalytic activities of various products with an absolute scale defined with physical and engineering meaning. For the measurements and calculations described in this standard the concentration of nitrogen oxides (NOx) is defined as the stoichiometric sum of nitric oxide (NO) and nitrogen dioxide (NO2). Safety statement Persons using this document should be familiar with the normal laboratory practice, if applicable. This document cannot address all of the safety problems, if any, associated with its use. It is the responsibility of the user to establish appropriate safety and health practices and to ensure compliance with any regulatory conditions. Environmental statement It is understood that some of the material permitted in this standard may have negative environmental impact. As technological advantages lead to better alternatives for these materials, they will be eliminated from this standard to the extent possible. At the end of the test, the user of the standard will take care to carry out an appropriate disposal of the wastes, according to local regulation.

IEC 62841-3-4:2016/COR1:2016
Hind 0,00 EUR
Corrigendum 1 - Electric motor-operated hand-held tools, transportable tools and lawn and garden machinery - Safety - Part 3-4: Particular requirements for transportable bench grinders
Standardi IEC 62841-3-4:2016 parandus
Corrigendum for IEC 62841-3-4:2016


Asendatud või tühistatud standardid


EVS-EN 24231:1999
Identne ISO 4231:1987; EN 24231:1989+AC:1989
Käsitsi ja mootoriga käitatavad ümar-keermelõikurid silindriliste torukeermete lõikamiseks. G-seeria
See standard täiendab standardeid ISO 2568 ja ISO 4230 ning määrab kindlaks G-seeria silindriliste torukeermete tootmiseks ettenähtud käsitsi ja mootoriga käitatavate ümar-keermelõikurite mõõtmed.
This secind edition cancels and replaces the first edition (ISO 4231:1977). Is a supplement to ISO 2568 and ISO 4230 and lys down the diemensions of these screwing dies intended for production of parallel pipe threads in accordance with ISO 228-1. Diameter, thickness and fixing dimensions are accordance with ISO 2568 so as to permit the driving of and-oprated dies with the aid of the die stocks defined in that document.

Keel: Inglise

EVS-EN ISO 17635:2010
Identne ISO 17635:2010; EN ISO 17635:2010
Keevisõmbluste mittepurustav katsetamine. Üldjuhised metalsete materjalide kohta
See rahvusvaheline standard annab juhised keevisõmbluste mittupurustava kontrolli (NDT) meetodite valikuks ja tulemuste hindamiseks kvaliteedi kontrolli eesmärgil sõltuvalt kvaliteedi nõuetest, materjalist, keevise paksusest, keevitusprotsessist ja katsetamise ulatusest. Lisaks määratleb antud rahvusvaheline standard, sõltuvalt katsemetoodikast või metalliliste materjalide aktsepteerimise tasemest, reeglid ja standardid, mis kohalduvad eri tüüpi katsetustel. Aktsepteerimise tasemed ei ole otseselt samad standardis ISO 5817 või ISO 10042 kirjeldatud kvaliteeditasemetele. Tasemed on seotud üldise valmistatud keevisõmbluste partii kvaliteediga. NDT kontrolli aktsepteerimise tasemete nõuded indikatsioonide korral vastavad üksnes üldiselt ning mitte üksikasjalikult standardis ISO 5817 või ISO 10042 kirjeldatud kvaliteeditasemetega (mõõdukas, keskmine, range). Lisa A kirjeldab kvaliteeditaseme standardite, NDT standardite js aktsepteerimise tasemete standardite omavahelisi seoseid. Lisas B antakse ülevaade standarditest, mis on seotud kvaliteeditasemete, aktsepteerimise tasemete ja NDT meetoditega.
This International Standard gives guidelines for the choice of non-destructive testing (NDT) methods for welds and evaluation of the results for quality control purposes, based on quality requirements, material, weld thickness, welding process, and extent of testing. This International Standard also specifies general rules and standards to be applied to the different types of testing, for either the methodology or the acceptance level for metallic materials. Acceptance levels cannot be a direct interpretation of the quality levels defined in ISO 5817 or ISO 10042. They are linked to the overall quality of the produced batch of welds. Requirements for acceptance levels for NDT comply with quality levels stated in ISO 5817 or ISO 10042 (moderate, intermediate, stringent) only on a general basis and not in detail for each indication. Annex A gives correlations between quality, NDT and acceptance level standards. Annex B gives an overview of the standards linked to quality levels, acceptance levels, and NDT methods.

Keel: Eesti, Inglise

EVS-EN ISO 17637:2011
Identne ISO 17637:2003; EN ISO 17637:2011
Keevisõmbluste mittepurustav kontroll. Sulakeevitusliidete visuaalne kontroll
See rahvusvaheline standard käsitleb metalsete materjalide sulakeevisõmbluste visuaalset kontrolli. Seda võib rakendada ka liitekohtade visuaalseks kontrolliks enne keevitamist.
This International Standard covers the visual testing of fusion welds in metallic materials. It may also be applied to visual testing of the joint prior to welding.

Keel: Eesti, Inglise

EVS-EN ISO 10675-1:2013
Identne ISO 10675-1:2008; EN ISO 10675-1:2013
Non-destructive testing of welds - Acceptance levels for radiographic testing - Part 1: Steel, nickel, titanium and their alloys (ISO 10675-1:2008)
This part of ISO 10675 specifies acceptance levels for indications from imperfections in butt welds of steel, nickel, titanium and their alloys detected by radiographic testing. If agreed, the acceptance levels may be applied to other types of welds or materials. The acceptance levels may be related to welding standards, application standards, specifications or codes. This part of ISO 10675 assumes that the radiographic testing has been carried out in accordance with ISO 17636. When assessing whether a weld meets the requirements specified for a weld quality level, the sizes of imperfections permitted by standards are compared with the dimensions of indications revealed by a radiograph made of the weld.
Keel: Inglise

Kavandite arvamusküsitlus


FprEN ISO 636
Identne ISO/FDIS 636; FprEN ISO 636
Tähtaeg 3.03.2017
Welding consumables - Rods, wires and deposits for tungsten inert gas welding of non-alloy and fine-grain steels - Classification (ISO/FDIS 636:2016)
This document specifies requirements for classification of rods and wires in the as-welded condition and in the post-weld heat-treated condition for tungsten inert gas welding of non-alloy and fine-grain steels with a minimum yield strength of up to 500 MPa or a minimum tensile strength of up to 570 MPa. This document is a combined specification providing classification utilizing a system based upon the yield strength and the average impact energy of 47 J of all-weld metal or utilizing a system based upon the tensile strength and the average impact energy of 27 J of all-weld metal. a) Paragraphs and tables which carry the suffix letter “A” are applicable only to rods and wires classified to the system based upon the yield strength and the average impact energy of 47 J of all-weld metal in accordance with this document. b) Paragraphs and tables which carry the suffix letter “B” are applicable only to rods and wires classified to the system based upon the tensile strength and the average impact energy of 27 J of all-weld metal in accordance with this document. c) Paragraphs and tables which have neither the suffix letter “A” nor the suffix letter “B” are applicable to all rods and wires classified in accordance with this document.
Keel: Inglise

prEN ISO 17633
Identne ISO/DIS 17633:2016; prEN ISO 17633
Tähtaeg 3.03.2017
Welding consumables - Tubular cored electrodes and rods for gas shielded and non-gas shielded metal arc welding of stainless and heat-resisting steels - Classification (ISO/DIS 17633:2016)
This International Standard specifies requirements for classification of tubular flux and metal cored electrodes and rods, based on the all-weld metal chemical composition, the type of core, shielding gas, welding position and the all-weld metal mechanical properties, in the as-welded or heat-treated conditions, for gas shielded and non-gas shielded metal arc welding of stainless and heat-resisting steels. This International Standard is a combined standard providing for classification utilizing a system based upon nominal composition or utilizing a system based upon alloy type. a) Clauses, subclauses, and tables which carry the suffix letter “A” are applicable only to products classified using the system based upon nominal composition. b) Clauses, subclauses, and tables which carry the suffix letter “B” are applicable only to products classified using the system based upon alloy type. c) Clauses, subclauses, and tables which do not have either the suffix letter “A” or the suffix letter “B” are applicable to all products classified in accordance with this International Standard. This International Standard does not use pulsed current for determining the product classification.
Keel: Inglise

EN ISO 28927-2:2009/prA1
Identne ISO 28927-2:2009/DAmd 1; EN ISO 28927-2:2009/prA1
Tähtaeg 3.03.2017
Hand-held portable power tools - Test methods for evaluation of vibration emission - Part 2: Wrenches, nutrunners and screwdrivers - Amendment 1: Changes in annex C - Brake device (ISO 28927-2:2009/DAmd 1:2016)
Amendment for EN ISO 28927-2:2009
Keel: Inglise

prEN 12814-4
Identne prEN 12814-4
Tähtaeg 3.03.2017
Testing of welded joints of thermoplastics semi-finished products - Part 4: Peel test
This draft European Standard specifies the dimensions, the method of sampling and the preparation of the test specimens, and also the conditions for performing the peel test perpendicular to the weld in order to determine the peel resistance and the failure behaviour. A peel test may be used in conjunction with other tests (e.g. tensile creep, macroscopic examination...) to assess the performance of welded assemblies, made from thermoplastics materials. Peel tests are applicable to overlap welded assemblies made from thermoplastics materials. The T-peel test as defined in Clause 5 will be used only for assessing welded sheet assemblies. This test is not applicable to welded test pieces containing sheets of different nominal thickness. The decohesion test as defined in Clause 6 will be used only for assessing electrofusion joints with nominal thickness of pipe/fitting greater than 10 mm. For socket fusion and for electrofusion socket joints with nominal outside diameter less than or equal to 90 mm, a crush test will be used, as defined in Clause 7. The crush test can also be used for electrofusion joints with outside diameters greater than 90 mm. The crush test for electrofusion saddle joints will be performed in accordance with ISO 13955 [6]. NOTE A decohesion test is also defined in ISO 13954 [5]. The tests defined in this standard should not be used for assessment and/or qualification of thermoplastics fittings, e.g. polyethylene fittings according to EN 1555-3 [1] and EN 12201-3 [2], because they already have their own requirements.
Keel: Inglise

prEN ISO 2931
Identne ISO/DIS 2931; prEN ISO 2931
Tähtaeg 3.03.2017
Anodizing of aluminium and its alloys - Assessment of quality of sealed anodic oxidation coatings by measurement of admittance (ISO/DIS 2931:2016)
No scope available
Keel: Inglise

prEN ISO 14555
Identne ISO/FDIS 14555; prEN ISO 14555
Tähtaeg 3.03.2017
Welding - Arc stud welding of metallic materials (ISO/FDIS 14555:2016)
No scope available
Keel: Inglise

prEN ISO 14713-1
Identne ISO/FDIS 14713-1; prEN ISO 14713-1
Tähtaeg 3.03.2017
Zinc coatings - Guidelines and recommendations for the protection against corrosion of iron and steel in structures - Part 1: General principles of design and corrosion resistance (ISO/FDIS 14713-1:2016)
No scope available
Keel: Inglise

prEN ISO 14713-3
Identne ISO/FDIS 14713-3; prEN ISO 14713-3
Tähtaeg 3.03.2017
Zinc coatings - Guidelines and recommendations for the protection against corrosion of iron and steel in structures - Part 3: Sherardizing (ISO/FDIS 14713-3:2016)
No scope available
Keel: Inglise

prEN ISO 544
Identne ISO/DIS 544; prEN ISO 544
Tähtaeg 3.03.2017
Welding consumables - Technical delivery conditions for filler materials and fluxes - Type of product, dimensions, tolerances and markings (ISO/DIS 544:2016)
No scope available
Keel: Inglise

prEN ISO 18275
Identne ISO/DIS 18275; prEN ISO 18275
Tähtaeg 3.03.2017
Welding consumables - Covered electrodes for manual metal arc welding of high-strength steels - Classification (ISO/DIS 18275:2016)
No scope available
Keel: Inglise

prEN 61987-92:2016
Identne IEC 61987-92:201X; prEN 61987-92:2016
Tähtaeg 3.03.2017
Industrial-Process Measurement and Control - Data Structures and Elements in Process Equipment Catalogues - Part 92: Lists of properties (LOP) of measuring equipment for electronic data exchange - Aspect LOPs
This part of IEC 61987 provides LOPs describing aspects of equipment for industrial-process automation. The structures of the aspect LOPs correspond to the general structures defined in IEC 61987-11 and agree with the fundamentals for the construction of LOPs defined in IEC 61987-10. Libraries of properties and of blocks used in the aspect LOPs are listed in Annex B and Annex C.
Keel: Inglise

FprEN 62841-3-13:2016/FprAA:2016
Tähtaeg 3.03.2017
Käeshoitavad elektrimootoriga tööriistad, transporditavad tööriistad ja muru- ning aiatöömasinad. Ohutus. Osa 3-13: Erinõuded teisaldatavatele sammaspuurpinkidele
Common amendment for FprEN 62841-3-13:2016
Keel: Inglise