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SSPC QS 1 - STANDARD PROCEDURE FOR EVALUATING A COATING CONTRACTOR’S ADVANCED QUALITY MANAGEMENT SYSTEM Organization: SSPC
Date: 2015-03-02
Description: SSPC-QS 1 requires a coating contractor to implement and document advanced quality control and recordkeeping procedures.
NACE RP0602 - FIELD-APPLIED COAL TAR ENAMEL PIPE COATING SYSTEMS: APPLICATION, PERFORMANCE, AND QUALITY CONTROL - ITEM NO:21098 Organization: NACE
Date: 2002-11-10
Description: This standard is applicable to CTE coating systems used to prevent corrosion in conjunction with cathodic protection.
NACE RP0399 - PLANT APPLIED, EXTERNAL COAL TAR ENAMEL PIPE COATING SYSTEMS: APPLICATION, PERFORMANCE, AND QUALITY CONTROL - ITEM NO:21089 Organization: NACE
Date: 1999-04-24
Description: Included are methods for qualifying and controlling the quality of a coal tar enamel (CTE) system, guidelines for its proper application, and inspection and repair techniques to ensure its long-term petformance. This standard is applicable to coating systems used to prevent corrosion in conjunction with cathodic protection.
NPFC - MIL-DTL-53072 - CHEMICAL AGENT RESISTANT COATING (CARC) SYSTEM APPLICATION PROCEDURES AND QUALITY CONTROL INSPECTION Organization: NPFC
Date: 2013-05-09
Description: It is required for use in the selection process of the appropriate materials and procedures for the surfaces to be painted, and provides additional application, inspection, and quality control information for the below referenced cleaning, pretreating, and coating specifications.
NACE RP0402 - FIELD-APPLIED FUSION-BONDED EPOXY (FBE) PIPE COATING SYSTEMS FOR GIRTH WELD JOINTS: APPLICATION, PERFORMANCE, AND QUALITY CONTROL - ITEM NO:21096 Organization: NACE
Date: 2002-02-17
Description: This standard presents guidelines for establishing minimum requirements to ensure proper application and performance of a field-applied fusion-bonded epoxy (FBE) coating system to the external surfaces of pipe at girth weld joints.
NPFC - MIL-C-53072 - CHEMICAL AGENT RESISTANT COATING (CARC) SYSTEM APPLICATION PROCEDURES AND QUALITY CONTROL INSPECTION Organization: NPFC
Date: 1992-09-02
Description: This document covers the general requirements for application and inspection of the chemical agent resistant coating (CARC) system used on tactical military equipment. It is intended for use as a guide in selection of the appropriate materials and procedures, and as a supplement to information available in the below referenced cleaning, pretreating, and coating specifications.
NACE RP0375 - FIELD-APPLIED UNDERGROUND WAX COATING SYSTEMS FOR UNDERGROUND PIPELINES: APPLICATION, PERFORMANCE, AND QUALITY CONTROL - ITEM NO. 21013 Organization: NACE
Date: 2006-03-11
Description: GeneralThis standard covers hot- and cold-applied wax and component wrappers and wax-tape coating systems for the protection of underground metallic pipe, fittings, and valves.
GOST 4.54 - "QUALITY RATING SYSTEM. ASSIMULATING, DECONTAMINATING LOCALIZING AND INSULATING PROTECTIVE POLYMERIC COATINGS. NOMENCLATURE OF INDICES" Organization: GOST
Date: 1979-01-01
GOST - 4.54 - PRODUCT-QUALITY INDEX SYSTEM. ACCUMULATING, DECONTAMINATING, LOCALIZING AND INSULATING PROTECTIVE POLYMERIC COATINGS. NOMENCLATURE OF INDICES - INCORPORATING AMENDMENT 1:08/84, AMENDMENT 2: 06/89 Organization: GOST
Date: 1979-01-01
GOST 4.457 - "PRODUCT-QUALITY INDEX SYSTEM. LINES FOR CHEMICAL, ELECTROCHEMICAL TREATMENT OF SURFACE AND PRODUCING COATINGS. INDEX NOMENCLATURE" Organization: GOST
Date: 1986-11-03
ASTM PS95 - STANDARD PROVISIONAL PRACTICE FOR QUALITY SYSTEMS FOR CONDUCTING IN SITU MEASUREMENTS OF LEAD CONTENT IN PAINT OR OTHER COATINGS USING FIELD-PORTABLE X-RAY FLUORESCENCE (XRF) DEVICES Organization: ASTM
Date: 1998-08-04
Description: Scope 1.1 This provisional practice covers the collection and documentation of quality control (QC) measurements for determining acceptable levels of instrumental performance when using field-portable energy-dispersive X-ray fluorescence spectrometry devices (XRFs) for the purposes of generating lead classification results from measurements on paint and other coating films within buildings and related structures. 1.2 QC procedures covered in this provisional practice include the performance of calibration checks, substrate bias checks, and specific instructions for documenting the collected data for later use in reporting the results.
ASTM E2119 - STANDARD PRACTICE FOR QUALITY SYSTEMS FOR CONDUCTING IN SITU MEASUREMENTS OF LEAD CONTENT IN PAINT OR OTHER COATINGS USING FIELD-PORTABLE X-RAY FLUORESCENCE (XRF) DEVICES Organization: ASTM
Date: 2016-03-01
Description: This practice covers the collection and documentation of quality control (QC) measurements for determining acceptable levels of instrumental performance when using field-portable energy-dispersive x-ray fluorescence spectrometry devices (XRFs) for the purposes of generating lead classification results from measurements on paint and other coating films within buildings and related structures. QC procedures covered in this provisional practice include the performance of calibration checks, substrate bias checks, and specific instructions for documenting the collected data for later use in reporting the results.
ISO DIS 2063-1 - THERMAL SPRAYING - METALLIC AND OTHER INORGANIC COATINGS - ZINC, ALUMINIUM AND THEIR ALLOYS - PART 1: PLANNING OF THE CORROSION PROTECTION SYSTEM - COMPONENT DESIGN CONSIDERATIONS AND QUALITY REQUIREMENTS Organization: ISO
Date: 2014-05-01
Description: Characteristic properties of the coating, like coating thickness, minimum adhesive strength and surface appearance are specified and test procedures for thermal sprayed corrosion protection coatings of zinc, aluminium or their alloys are determined.
ISO FDIS 2063-1 - THERMAL SPRAYING - METALLIC AND OTHER INORGANIC COATINGS - ZINC, ALUMINIUM AND THEIR ALLOYS - PART 1: PLANNING OF THE CORROSION PROTECTION SYSTEM - COMPONENT DESIGN CONSIDERATIONS AND QUALITY REQUIREMENTS Organization: ISO
ISO 2063-1 - THERMAL SPRAYING - METALLIC AND OTHER INORGANIC COATINGS - ZINC, ALUMINIUM AND THEIR ALLOYS - PART 1: PLANNING OF THE CORROSION PROTECTION SYSTEM - COMPONENT DESIGN CONSIDERATIONS AND QUALITY REQUIREMENTS Organization: ISO
DSF/PREN ISO 2063-1 - THERMAL SPRAYING - METALLIC AND OTHER INORGANIC COATINGS - ZINC, ALUMINIUM AND THEIR ALLOYS - PART 1: PLANNING OF THE CORROSION PROTECTION SYSTEM - COMPONENT DESIGN CONSIDERATIONS AND QUALITY REQUIREMENTS (ISO/DIS 2063-1:2014) Organization: DS
Description: This standard specifies requirements to the protection of iron and steel surfaces against corrosion by applying thermal sprayed metallic coatings of zinc, aluminium or their alloys. In this standard requirements for the planning of the corrosion protection system and for the constructive design of the component to be protected are specified, where thermal spraying is intended to be the process for the deposition of the metallic corrosion protection.
DIN EN ISO 2063-1 - THERMAL SPRAYING - METALLIC AND OTHER INORGANIC COATINGS - ZINC, ALUMINIUM AND THEIR ALLOYS - PART 1: PLANNING OF THE CORROSION PROTECTION SYSTEM - COMPONENT DESIGN CONSIDERATIONS AND QUALITY REQUIREMENTS (ISO/DIS 2063-1:2014); GERMAN VERSION PREN ISO 2063-1:2014 Organization: DIN
Date: 2014-06-01
BSI - 14/30273517 DC - DRAFT BS EN ISO 2063-1 THERMAL SPRAYING - METALLIC AND OTHER INORGANIC COATINGS - ZINC, ALUMINIUM AND THEIR ALLOYS PART 1: PLANNING OF THE CORROSION PROTECTION SYSTEM AND COMPONENT DESIGN CONSIDERATIONS AND QUALITY REQUIREMENTS Organization: BSI
Date: 2014-05-01
ASTM A385/A385M - STANDARD PRACTICE FOR PROVIDING HIGH-QUALITY ZINC COATINGS (HOT-DIP) Organization: ASTM
Date: 2015-10-01
Description: This practice covers the precautions that should be taken to obtain high-quality hot-dip galvanized coatings. Where experience on a specific product indicates a relaxing of any provision, the mutually acceptable change shall be a matter for agreement between the manufacturer and purchaser.
GMW17431 - WATER QUALITY - ISSUE 1; ENGLISH Organization: GMW
Date: 2015-10-01
Description: The water must be removed from the surface without leaving any foreign matter and shall not adversely affect paint adhesion to the subsequent coatings. The water must not etch the coated surface and must minimize water spotting of a cleaned surface.

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