GSO ISO/TR 4673:2024

ISO/TR 4673:2022
Gulf Standard   Current Edition · Approved on 25 April 2024

Gas cylinders — Service life performance of composite cylinders and tubes

GSO ISO/TR 4673:2024 Files

English 9 Pages
Current Edition Reference Language
71.03 USD

GSO ISO/TR 4673:2024 Scope

This document collects history and experience of composite cylinders and tubes to be used under the International Regulations for the Transport of Dangerous Goods:

—    with a water capacity up to 3 000 l;

—    with a design life greater than 15 years.

In particular the document reviews the topic of the service life performance of existing composite cylinders and tubes and provides information and data for the following items:

—    history of cylinder design;

—    current testing regimes;

—    significance of the tests on their performance;

—    service performance including pre-fill and periodic inspection and tests.

NOTE      In this document, for “cylinder/tube”, only the term “cylinder” is used.

Best Sellers From Mechanical Sector

GSO 42:2015
 
Gulf Technical Regulation
MOTOR VEHICLES - GENERAL REQUIREMENTS
GSO 159:1993
 
Gulf Technical Regulation
MOTOR VEHICLES – DIMENSIONS AND WEIGHTS
GSO 98:1988
 
Gulf Technical Regulation
MOTOR VEHICLES- FLAMMABILITY OF INTERIOR MATERIALS AND THEIR TESTING METHODS
GSO 1780:2010
 
Gulf Technical Regulation
Motor vehicle-vehicle identification number (vin) - requirements

Recently Published from Mechanical Sector

GSO ISO 10468:2024
ISO 10468:2023 
Gulf Standard
Glass-reinforced thermosetting plastics (GRP) pipes — Determination of the ring creep properties under wet or dry conditions
GSO ISO 10300-1:2024
ISO 10300-1:2023 
Gulf Standard
Calculation of load capacity of bevel gears — Part 1: Introduction and general influence factors
GSO ISO 11114-5:2024
ISO 11114-5:2022 
Gulf Standard
Gas cylinders — Compatibility of cylinder and valve materials with gas contents — Part 5: Test methods for evaluating plastic liners
GSO ISO 4211-5:2024
ISO 4211-5:2021 
Gulf Standard
Furniture — Tests for surface finishes — Part 5: Assessment of resistance to abrasion