ISO 11120 Gas cylinders - Refillable seamless steel tubes of water capacity between 150 l and 3000 l - Design, construction and testing - Second Edition
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- CEN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification
- 23
- CEN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification
- 23.020
- CEN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification
- 23.020.30
- CEN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification
- DIN EN ISO 7866 Gas cylinders - Refillable seamless aluminium alloy gas cylinders - Design, construction and testing (ISO 7866:2012); German version EN ISO 7866:2012
- DIN EN ISO 11117 Berichtigung 1 Gas cylinders - Valve protection caps and valve guards - Design, construction and tests (ISO 11117:2008); Corrigendum 1 to English translation of DIN EN ISO 11117:2009-01
- DIN EN ISO 3807 Gas cylinders - Acetylene cylinders - Basic requirements and type testing (ISO 3807:2013, Corrected version 2014-11-01)
- DIN EN ISO 13769 Gas cylinders - Stamp marking (ISO 13769:2007); German version EN ISO 13769:2009
- DIN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification (ISO 21007-2:2013)
- DIN EN ISO 13769 Gas cylinders - Stamp marking (ISO 13769:2007); German version EN ISO 13769:2009
- DIN EN ISO 3807 Gas cylinders - Acetylene cylinders - Basic requirements and type testing (ISO 3807:2013, Corrected version 2014-11-01)
- DIN EN ISO 11117 Berichtigung 1 Gas cylinders - Valve protection caps and valve guards - Design, construction and tests (ISO 11117:2008); Corrigendum 1 to English translation of DIN EN ISO 11117:2009-01
- DIN EN ISO 11117 Berichtigung 1 Gas cylinders - Valve protection caps and valve guards - Design, construction and tests (ISO 11117:2008); Corrigendum 1 to English translation of DIN EN ISO 11117:2009-01
- DIN EN ISO 3807 Gas cylinders - Acetylene cylinders - Basic requirements and type testing (ISO 3807:2013, Corrected version 2014-11-01)
- DIN EN ISO 13769 Gas cylinders - Stamp marking (ISO 13769:2007); German version EN ISO 13769:2009
- DIN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification (ISO 21007-2:2013)
- DIN EN ISO 13769 Gas cylinders - Stamp marking (ISO 13769:2007); German version EN ISO 13769:2009
- DIN EN ISO 3807 Gas cylinders - Acetylene cylinders - Basic requirements and type testing (ISO 3807:2013, Corrected version 2014-11-01)
- DIN EN ISO 3807 Gas cylinders - Acetylene cylinders - Basic requirements and type testing (ISO 3807:2013, Corrected version 2014-11-01)
- DIN EN ISO 13769 Gas cylinders - Stamp marking (ISO 13769:2007); German version EN ISO 13769:2009
- DIN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification (ISO 21007-2:2013)
- DIN EN ISO 13769 Gas cylinders - Stamp marking (ISO 13769:2007); German version EN ISO 13769:2009
- DIN EN ISO 13769 Gas cylinders - Stamp marking (ISO 13769:2007); German version EN ISO 13769:2009
- DIN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification (ISO 21007-2:2013)
- DIN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification (ISO 21007-2:2013)
- ISO 21007-1 Gas cylinders Identification and marking using radio frequency identification technology Part 1: Reference architecture and terminology - First Edition
- SNV SN EN ISO 21007-2 Gas cylinders - Identification and marking using radio frequency identification technology - Part 2: Numbering schemes for radio frequency identification
- ISO 13769 Gas cylinders — Stamp marking - Second Edition
- Картотека зарубежных и международных стандартов
International Organization for Standardization
Gas cylinders - Refillable seamless steel tubes of water capacity between 150 l and 3000 l - Design, construction and testing - Second Edition
N 11120
Annotation
This International Standard specifies minimum requirements for the material, design, construction and workmanship, manufacturing processes, examinations and tests at manufacture of refillable quenched and tempered seamless steel tubes of water capacities exceeding 150 l up to and including 3 000 l for compressed and liquefied gases exposed to extreme world-wide ambient temperatures, normally between –50 °C and +65 °C.
This International Standard is applicable to tubes with a maximum tensile strength, Rma, of less than 1 100 MPa. These tubes can be used alone or in batteries to equip trailers or multiple element gas containers (ISO modules or skids) for the transportation and distribution of compressed gases.
This International Standard is applicable to tubes having an opening at each end.
Автоматический перевод:
Газовые баллоны - Пополняемые бесшовные стальные трубы влагоемкости между 150 л и 3 000 л - Дизайном, строительством и проверяющий - Второй Выпуск
Этот Международный стандарт определяет минимальные требования для материала, дизайна, строительства и мастерства, производственных процессов, экспертиз и тестов при изготовлении подавленных пополняемых и умерил бесшовные стальные трубы влагоемкостей чрезмерные 150 л до и включая 3 000 л для сжатых и сжиженных газов, выставленных экстремальным глобальным температурам окружающей среды, обычно между –50 °C и +65 °C.
