冷加工奥氏体不锈钢焊接管和无缝管检测

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GB/T 150.2-2011压力容器 第2部分：材料

GB 150的本部分规定了压力容器受压元件用钢材允许使用的钢号及其标准,钢材的附加技术要求,钢材的使用范围(温度和压力)和许用应力。 本部分适用于设计温度-253℃～800℃、设计压力不大于35MPa的压力容器。 本部分不适用的范围为:GB 150.1规定的不适用范围；制冷、造纸行业的容器,搪玻璃容器和简单压力容器;TSG R0004中1.4条所规定的范围。

GB/T 12224-2015钢制阀门 一般要求

本标准规定了钢制阀门的压力-温度额度值、材料、设计要求、检验与试验、标志和对特殊压力级阀门及限定压力级阀门的要求等内容。本标准适用于承压件采用表1A和表1B给出的材料；阀体采用铸造、锻造滚压、轧制和组焊加工；法兰、螺纹和焊连接，以及对夹式和用于单法兰安装的阀门。本标准包括公称压力为Class系列和PN系列的阀门。本标准适用的钢制阀门参数范围为：a)　Class系列阀门的压力等级为Class150~Class4500，其中Class4500仅适用于焊连接阀门；PN系列阀门的压力等级为PN2.5~PN400；b)　法兰连接阀门的公称尺寸不大于DN1250；c)　承插焊接阀门和螺纹连接阀门的公称尺寸不大于DN65；d)　螺纹连接阀门的额定温度不大于538 ℃，压力等级不大于Class2500；e)　法兰连接阀门仅适用于标准压力级，不适用于特殊压力级和限定压力级阀门；f)　法兰连接阀门没有中间压力等级。

GB/T 13401-2017钢制对焊管件 技术规范

本标准规定了钢制对焊管件(以下简称管件)的订货内容、材料、制造、热处理、检验与试验、焊接修补、表面防护与包装和产品质量合格证明书等技术要求。本标准适用于GB/T 12459中规定的管件。其他管件亦可参照使用。

GB/T 21412.5-2017石油天然气工业 水下生产系统的设计和操作 第5部分:水下脐带缆

GB/T 21412的本部分规定了脐带缆及相关附属设备的设计、材料选择、制造、设计验证、试验、安装和操作要求，并给出了推荐作法，用于石油天然气工业。附属设备不包括上部组块硬件装置，这些硬件是指那些在上部组块悬挂终端之上，不与脐带缆永久连接的设备。本部分适用于单独的部件，如电缆、光纤、热塑性软管或金属管构成的脐带缆，或它们组合成的脐带缆。本部分适用于静态或动态运行的脐带缆，其路径可为水上-水上，水上-水下和水下-水下。本部分不适用于相关部件接头，除非这些接头影响到脐带缆或其附属设备的性能。本部分仅适用于以下尺寸的金属管：壁厚t＜6 mm，内径ID＜50.8 mm(2 in)。大于这些尺寸的产品应视为管/管道并且按照公认的管线/管道标准进行设计和制造。本部分不适用于额定压力小于7 MPa(1 015 psi)的金属管或软管。本部分不适用于额定电压高于标准额定电压U<下标0>/U(U<下标m>)＝3.6/6(7.2)kV rms的电缆，其中U<下标0>、U与U<下标m>由IEC 60502-1与IEC 60502-2定义。

GB/T 34275-2017压力管道规范 长输管道

本标准规定了长输(油气)商品介质管道(GA类)建设、投产，在役管道的运行、维修及检验等技术要求。本标准适用于长输管道建设的设计、材料、安装、无损检测、投产和在役管道的运行、维修及检验。本长输管道系指产地、储存库、用户间的用于输送(油气)商品介质的管道。本标准适用的管道系统范围见图1所示。油气田集输管道符合本标准的相关条件的可执行本标准。本标准不适用于公用管道(GB类)、工业管道(GC类)、动力管面(GD类)；也不适用于其他类型的管道，如电气(电讯)专用的管道、军事装备和核设施的管道、海上设施和矿井的管道、移动设备上的管道、石油、天然气、地热等勘探和采掘装置的管道、城镇的门站后所属的燃气管网。

GB/T 35072-2018石油天然气工业用耐腐蚀合金复合管件

本标准规定了石油天然气工业管道输送系统用公称直径DN 50~DN 800以耐腐蚀合金作为内覆层的冶金复合管件的设计、几何尺寸、材料、制造工艺、技术要求和检验方法、NDT、表面质量与缺陷处理、标志、运输和防护等基本要求。本标准适用于石油天然气工业领域输送管道以及工艺管道输送含有腐蚀性介质的石油、天然气和水等单相或多相流体用耐腐蚀合金复合管件，其他领域也可参照使用。本标准复合管件包括弯头、三通、异径接头和管帽。

GB/T 37701-2019石油天然气工业用内覆或衬里耐腐蚀合金复合钢管

本标准规定了石油天然气工业管道输送系统用内覆或衬里耐腐蚀合金复合钢管的购方须知、制造、理化性能、试验方法、检验规则、标志、包装、储存和防护及文件要求。本标准适用于石油天然气工业领域输送含有腐蚀性介质的石油、天然气和水等流体用耐腐蚀合金复合钢管。

NB/T 47014-2011承压设备焊接工艺评定

本标准规定了承压设备(锅炉、压力容器、压力管道)的对接焊缝和角焊缝焊接工艺评定、耐蚀堆焊工艺评定、复合金属材料焊接工艺评定、换热管与管板焊接工艺评定和焊接工艺附加评定以及螺柱电弧焊工艺评定的规则、试验方法和合格指标。本标准适用于气焊、焊条电弧焊、埋弧焊、钨极气体保护焊、熔化极气体保护焊、电渣焊、等离子弧焊、摩擦焊、气电立焊和螺柱电弧焊等焊接方法。

ASTM B759-2000(2006)镍铬钼钨合金管标准规范

1.1 This specification cover nickel-chromium-molybdenum-tungsten alloys (UNS N06110)3 in the form of cold-worked seamless pipe and tube in the conditions shown in Table 1. 1.2 Hot-worked material is available. Properties and permissible tolerances are to be agreed upon between the manufacturer and purchaser.1.3 The values stated in inch-pound units are to be regarded as the standard. The SI units in parentheses are provided for information only. The following precautionary caveat pertains only to the test method portion, Section 8, of this specification: This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to become familiar with all hazards including those identified in the appropriate Material Safety Data Sheet (MSDS) for this product/material as provide by the manufacturer, to establish appropriate safety and health practices, and determine the applicability of regulatory limitations prior to use.

EN ISO 13628-5-2009石油和天然气工业.水下采油系统的设计和操作.第5部分:海底缆线

This International Standard specifies the general, and some of the special, requirements on materials used for the construction of equipment used in gas welding, cutting and allied processes.

DIN EN 13322-2-2006可运输的气瓶.可再充气的焊接钢气瓶.设计和制造.第2部分:不锈钢

This European Standard specifies minimum requirements concerning material, design, construction and workmanship, manufacturing processes and testing of refillable transportable welded stainless steel gas cylinders of water capacities from 0,51 up to and including 1501 for compressed, liquefied and dissolved gases. This standard is only applicable to cylinders manufactured from stainless steels having a maximum tensile strength of less than 1 100 MPa.For acetylene service, additional requirements for the cylinder and the basic requirements for the porous mass are given in EN 1800.This standard is primarily for industrial gases other than LPG but may also be applied for LPG.

DIN EN ISO 13628-5-2010石油和天然气工业.水下采油系统的设计和操作.第5部分:海底缆线

This part of ISO 13628 specifies requirements and gives recommendations for the design, material selection, manufacture, design verification, testing, installation and operation of umbilicals and associated ancillary equipment for the petroleum and natural gas industries. Ancillary equipment does not include topside hardware. Topside hardware refers to any hardware that is not permanently attached to the umbilical, above the topside hang-off termination.This part of ISO 13628 applies to umbilicals containing components, such as electrical cables, optical fibres, thermoplastic hoses and metallic tubes, either alone or in combination.This part of ISO 13628 applies to umbilicals for static or dynamic service, with surface-surface, surface-subsea and subsea-subsea routings.This part of ISO 13628 does not apply to the associated component connectors, unless they affect the performance of the umbilical or that of its ancillary equipment.This part of ISO 13628 applies only to tubes with the following dimensions: wall thickness, t < 6 mm, internal diameter, ID < 50,8 mm (2 in). Tubular products greater than these dimensions can be regarded as pipe/linepipe and it is expected that they be designed and manufactured according to a recognised pipeline/linepipe standard.

BS 7993-2011316不锈钢系统用双套管连接器和组合管道.规范和试验方法

This British Standard specifies the characteristics of, and performancerequirements for, the tube connector (compression) end(s) of twin ferruleconnectors made of 316 stainless steel. It also specifies requirementsfor 316 stainless steel tubes.The twin ferrule connectors in this standard are suitable for use with annealedstainless steel tubes with outside diameters from 2 mm to 38 mm and1/16 in to 2 in.This British Standard is applicable to twin ferrule connectors that are intendedfor the connection of plain end tubes to other tubes and to ports in accordancewith BS EN ISO 6149-1, BS EN ISO 1179 and BS EN ISO 9974-1, and other portsagreed between the purchaser and manufacturer. It provides external envelope,tube-end-to-tube-end and tube-end-to-port dimensions that facilitate designingsystems that use twin ferrule connectors.NOTE These twin ferrule connectors can also be used with other austenitic stainlesssteel tubes, typically 304, 316L, 321, etc.

BS EN ISO 13628-5-2009石油和天然气工业.水下采油系统设计和操作.水下脐带管

This part of ISO 13628 specifies requirements and gives recommendations for the design, material selection, manufacture, design verification, testing, installation and operation of umbilicals and associated ancillary equipment for the petroleum and natural gas industries. Ancillary equipment does not include topside hardware. Topside hardware refers to any hardware that is not permanently attached to the umbilical, above the topside hang-off termination.This part of ISO 13628 applies to umbilicals containing components, such as electrical cables, optical fibres, thermoplastic hoses and metallic tubes, either alone or in combination.This part of ISO 13628 applies to umbilicals for static or dynamic service, with surface-surface, surfacesubsea and subsea-subsea routings.This part of ISO 13628 does not apply to the associated component connectors, unless they affect the performance of the umbilical or that of its ancillary equipment.This part of ISO 13628 applies only to tubes with the following dimensions: wall thickness, t < 6 mm, internal diameter, ID < 50,8 mm (2 in). Tubular products greater than these dimensions can be regarded as pipe/linepipe and it is expected that they be designed and manufactured according to a recognised pipeline/linepipe standard.This part of ISO 13628 does not apply to a tube or hose rated lower than 7 MPa (1 015 psi).This part of ISO 13628 does not apply to electric cable voltage ratings above standard rated voltagesU0/U(Um) = 3,6/6(7,2) kV rms, where U0, U and Um are as defined in IEC 60502-1 and IEC 60502-2.