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Aluminum is one of the most versatile materials available today that can meet the demanding requirements of tomorrow's products. Its light weight, high strength, and corrosion resistance make it ideal for applications in automobiles and trucks, rail, aerospace, containers,...
A bulk inert gas supply system is one that contains greater than 20 000 scf (566 m3) of inert gas. Requirements of this standard are limited to systems operating up to 15 000 psi (103.4 MPa). Two types of bulk inert gas supply systems are covered in this...
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This standard contains the minimum requirements for the design, installation, acceptance, inspection, testing, and maintenance of hybrid fire-extinguishing systems that use a combination of atomized water and inert gas to extinguish fire. The scope of this standard does...
This focus book is intended to introduce the Flux Bounded Tungsten Inert Gas Welding (FBTIG) process, which is a variant of Activated Tungsten inert gas welding process. The benefits of activating flux in the weld pool in enhancing the depth of penetration and...
This standard provides guidelines for safely entering and working in and near confined spaces that have inert atmospheres. API 2217A applies to confined spaces that have been intentionally purged with an inert gas until: - the oxygen level in the vapor space is...
This Standard specifies the recommended practice for inert gas shielded arc welding of aluminium materials and the comprehensive quality requirements related to the quality requirements for fusion welding of metallic materials specified in JIS Z 3400.
This Standard specifies the austenitic stainless steel rods and solid wires (hereafter referred to as "filler metals") of tungsten inert gas arc welding (TIG welding) having low-temperature toughness at -196° C.
1 Scope This publication provides guidelines for safely entering and working in and near confined spaces that have inert atmospheres. This publication applies to confined spaces that have been intentionally purged with an inert gas until the vapor space and...
This specification defines the requirements for joining metals and alloys using the gas-tungsten-arc welding (GTAW) methods.
This Recommended Practice provides guidance for safely entering and working within and near confined spaces that have inert atmospheres. API 2217A applies to confined spaces that have been intentionally purged with an inert gas until: - the oxygen level in the...
This specification defines the requirements for joining metals and alloys using the gas-tungsten-arc welding (GTAW) methods.
This Standard specifies an infrared absorption method after fusion under inert gas for the determination of oxygen in iron and steel. This method is applicable to mass fraction of oxygen 0.0005 % or over up to and including 0.05 %. NOTE 1 Since the determination method...
ISO 9692-3:2016 specifies recommended types of joint preparation for metal inert gas welding, MIG (131), and tungsten inert gas welding, TIG (141), and autogenous TIG welding (142) on aluminium and its alloys. It applies to fully penetrated welds.
This specification defines the requirements for joining metals and alloys using the gas-tungsten-arc welding (GTAW) methods.
This specification defines the requirements for joining metals and alloys using the gas-tungsten-arc welding (GTAW) methods.
Requirements for the design, inspection, testing and flow certification of safety valves for air receivers and compressed air or inert gases.
1.1 This guide covers information for using Combustion, Inert Gas Fusion and Hot Extraction instruments to determine the mass fraction of the non-metallic elements Carbon, Sulfur, Nitrogen, Oxygen and Hydrogen in metals, ores and related materials. 1.2 This guide...
This part of ISO 9692 specifies recommended types of joint preparation for metal inert gas welding, MIG (131), and tungsten inert gas welding, TIG (141), and autogenous TIG welding (142) on aluminium and its alloys. It applies to fully penetrated...
