ISO 11119-2:2020 ガスボンベ — 詰め替え可能な複合ガスボンベおよびチューブの設計、構築、およびテスト — Part 2: 負荷分散金属ライナーを備えた最大450lの完全に包まれた繊維強化複合ガスボンベおよびチューブ | ページ 6

For the purposes of this document, the terms and definitions in ISO 10286 and the following apply.

ISO and IEC maintain terminological databases for use in standardization at the following addresses:

continuous filaments of aramid laid up in tow form

pressure application procedure which strains the metal liner past its yield point sufficient to cause permanent plastic deformation, and results in the liner having compressive stresses and the fibres having tensile stresses when at zero internal gauge pressure

set of homogeneous items or material

Note 1 to entry: The number of items in a batch can vary according to the context in which the term is used.

batch of liners

production quantity of up to 200 finished liners successively produced (plus units required for destructive testing) of the same nominal diameter, length, thickness and design, from the same material cast and heat treated to the same conditions of temperature and time

batch of finished cylinders

production quantity of up to 200 finished cylinders successively produced by the same manufacturing process plus finished cylinders required for destructive testing, of the same nominal diameter, length, thickness and design

highest pressure reached in a cylinder during a burst test

continuous filaments of carbon laid up in tow form

combination of fibres and matrix

dedicated gas service

service in which a cylinder is to be used only with a specified gas or gases

fibre from the same material family and similar properties to a fibre used in a previously prototype tested cylinder

liner of the same alloy family, and that has certified properties and performance so as to be a directly comparable to a liner used in an already approved cylinder

resin matrix from the same chemical family and similar properties to the resin matrix used in a previously prototype tested cylinder

continuous filaments of glass laid up in tow form

inner portion of the composite cylinder, comprising a metallic vessel, whose purpose is both to contain the gas and transmit the gas pressure to the fibres

material used to bind and hold the fibres in place

liner which has a burst pressure greater than or equal to 5 % of the nominal burst pressure of the finished composite cylinder

plastics capable of being repeatedly softened by increase of temperature and hardened by decrease of temperature

plastics that, when cured by the application of heat or chemical means, harden permanently into a substantially infusible and insoluble product

settled pressure, in bar, of a compressed gas at a reference temperature of 15 °C in a full gas cylinder

nominal outside diameter

diameter of the cylinder specified by the manufacturer for the type approval including tolerances (e.g. ±1 %)

glass transition temperature

the temperature where a polymer substrate changes from a rigid glassy material to a soft (not melted) material, and is usually measured in terms of the stiffness, or modulus.

Bibliography [1]ISO 6892-1, Metallic materials — Tensile testing — Part 1: Method of test at room temperature [2]ISO 7438, Metallic materials — Bend test [3]ISO 10156, Gas cylinders — Gases and gas mixtures — Determination of fire potential and oxidizing ability for the selection of cylinder valve outlets [4]ISO 11114-2, Gas cylinders — Compatibility of cylinder and valve materials with gas contents — Part 2: Non-metallic materials [5]ISO 11117, Gas cylinders — Valve protection caps and guards — Design, construction and tests [6]ISO 11439, Gas cylinders — High pressure cylinders for the on-board storage of natural gas as a fuel for automotive vehicles [7]ISO 11623, Gas cylinders — Composite construction — Periodic inspection and testing [8]EN 3-7, Portable fire extinguishers — Part 7: Characteristics, performance requirements and test methods [9]EN 144-1, Respiratory protective devices — Gas cylinder valves — Part 1: Thread connections for insert connector [10]ASTM D2290, Standard test method for apparent hoop tensile strength of plastic or reinforced plastic pipe by split disk method [11]ASTM D 2291, Standard practice for fabrication of ring test specimens for glass–resin composites [12]ASTM D2344, Standard test method for short-beam strength of polymer matrix composite materials and their laminates [13]Pamphlet CGA, C-6.2: Guidelines for visual inspection and re-type approval of fibre reinforced high pressure cylinders.[14]CGA C14:1992, Procedures for testing of DOT cylinder pressure relief device systems. Arlington, VA: Compressed Gas Association [15]United Nations. Recommendations on the transport of dangerous goods: Model regulations, 17th edition, 2 vols. New York, NY: United Nations, 2011. (ST/SG/AC.10/1/Rev.17). Available (viewed 2012-04-25) from: http://www.unece.org/trans/danger/publi/unrec/rev17/17files_e.html

ISO PDF プレビュー

ISO 新規・更新｜規格

ISO/TS 9002:2016 品質マネジメントシステム— ISO 9001：2015の適用に関するガイドライン
ISO/TS 8000-82:2022 データ品質 — Part 82: データ品質評価:データルールの作成
ISO/TS 6733:2006 ミルクおよび乳製品—鉛含有量の測定—グラファイト炉原子吸光分析法
ISO/TS 6336-21:2022 平歯車とはすば歯車の負荷容量の計算— Part 21: スカッフィング負荷容量の計算—積分温度法
ISO/TS 6336-20:2022 平歯車とはすば歯車の負荷容量の計算— Part 20: スカッフィング負荷容量の計算—引火点法
ISO/TS 6304:2022 伝統的な漢方薬—障害のカテゴリー構造
ISO/TS 6084:2022 鉄鋼および鉄鋼製品—化学分析に関連する用語、語彙
ISO/TS 5798:2022 インビトロ診断テストシステム—核酸増幅法による重症急性呼吸器症候群コロナウイルス2（SARS-CoV-2）の検出のための要件と推奨事項
ISO/TS 5385:2022 道路車両—外部照明装置の防曇コーティング—仕様
ISO/TS 5346:2022 健康情報学—伝統的な漢方薬の臨床意思決定支援システムを表現するためのカテゴリー構造
ISO/TS 4988:2022 ナノテクノロジー—単細胞生物Tetrahymenasp。を使用した懸濁液中の製造されたナノオブジェクトの毒性評価と生物同化。
ISO/TS 4807:2022 粒子サイズ測定の参考資料—要件の仕様
ISO/TS 4699:2022 ハードコール - プラストメトリーインデックスの決定 - 手動方法
ISO/TS 4667:2022 石炭 - 熱安定性と熱フラグメンテーションの決定
ISO/TS 35105:2018 石油および天然ガス産業 — 北極圏の作戦 — 北極圏での運用に必要な資材
ISO/TS 2963:2006 チーズおよびプロセスチーズ製品—クエン酸含有量の測定—酵素法
ISO/TS 28660:2022 プラスチック— JR曲線の決定—破壊靭性
ISO/TS 27527:2010 健康情報学—プロバイダーの識別
ISO/TS 27106:2009 チーズ—LC-MSおよびLC-MS-MSによるナイシンA含有量の測定
ISO/TS 2597-4:2019 鉄鉱石—総鉄含有量の測定—パート4：電位差滴定法
ISO/TS 24522:2019 イベント検出プロセス：上下水道ユーティリティのガイドライン
ISO/TS 24520:2017 飲料水供給システムと廃水システムに関連するサービス活動—危機管理—技術的側面のグッドプラクティス
ISO/TS 24159:2022 ごみ収集車—手動および後部に積み込まれたごみ収集車の安全性
ISO/TS 23885:2022 紙、板紙、グラフィック技術—内側の折り目のコーティング強度の決定
ISO/TS 23860:2022 船舶と海洋技術—自律型船舶システムに関連する用語、語彙

ISO/IEC規格 TC/SC JIS対応国際規格
用語集
SDGs 持続可能な開発目標

📎📎📎📎📎📎📎📎📎📎