ASTM C1572/C1572M-23
远程操作设施用干铅玻璃和充油铅玻璃辐射屏蔽窗组件的标准指南
Standard Guide for Dry Lead Glass and Oil-Filled Lead Glass Radiation Shielding Window Components for Remotely Operated Facilities
ASTM C1572/C1572M-23 发布历史
ASTM C1572/C1572M-23由美国材料与试验协会 US-ASTM 发布于 2023-05-15。
ASTM C1572/C1572M-23在国际标准分类中归属于: 13.280 辐射防护。
ASTM C1572/C1572M-23 发布之时,引用了标准
- ANSI/ASME NQA-1 核设施应用的质量保证要求
- ANSI/AWS A2.4 焊接 钎焊 和无损检测的标准符号(第 7 版)
- ANSI/AWS B2.1 标准焊接程序规范(WPS).主要用于管道的,在IN3XX,ER3XX和E3XX-XX焊接条件下、1/8到1-1/2英寸厚的奥氏体不锈钢(M-8/P-8/S-8,组1)的钨电极惰性气体保护焊
- ANSI/ISO/ASQ 9001 质量管理体系.要求
- ASTM A240/A240M 用于压力容器的铬和铬镍不锈钢板 板和带的标准规范和一般应用
- ASTM A27/A27M 钢铸件 碳素的一般应用标准规范
- ASTM A36/A36M 碳素结构钢标准规范
- ASTM A48/A48M 灰铸铁件标准规范
- ASTM A747/A747M 析出硬化不锈钢铸件标准规范
- ASTM C1533 热电池设备一般设计考虑的标准指南
- ASTM C1661 远程操作设备的观察系统的标准指南
- ASTM C859 核材料用术语
- ASTM D1533 通过库仑卡尔费休滴定测定绝缘液体中的水的标准试验方法*, 2023-08-27 更新
- ASTM D3703 测定航空燃气涡轮发动机用燃料过氧化值的试验方法
- ASTM D6304 通过库仑卡尔费休滴定测定石油产品 润滑油和添加剂中的水的标准测试方法
- ASTM E165/E165M
- ASTM E170 有关辐射测量和剂量测定的标准术语
- ASTM E2024 用导热泄漏探测器测定大气泄漏的标准试验方法
- ASTM E299 有机溶剂中过氧化物痕量的试验方法
* 在 ASTM C1572/C1572M-23 发布之后有更新,请注意新发布标准的变化。
ASTM C1572/C1572M-23的历代版本如下:
- 2023年 ASTM C1572/C1572M-23 远程操作设施用干铅玻璃和充油铅玻璃辐射屏蔽窗组件的标准指南
- 2018年 ASTM C1572/C1572M-18 遥控设施用干铅玻璃和充油铅玻璃辐射屏蔽窗组件的标准指南
- 2017年 ASTM C1572/C1572M-17 遥控设备无水铅玻璃和充油铅玻璃辐射屏蔽窗部件的标准指南
- 2010年 ASTM C1572-10 远程操作设备的干铅玻璃和充油铅玻璃辐射屏蔽窗设备标准指南
- 2004年 ASTM C1572-04 远程操作设备用干铅玻璃和注油铅玻璃辐射屏蔽窗组件的标准指南
1.1 Intent: 1.1.1 The intent of this standard is to provide guidance for the design, fabrication, quality assurance, inspection, testing, packaging, shipping, installation, and maintenance of radiation shielding window components. These window components include wall liner embedments, dry lead glass radiation shielding window assemblies, oil-filled lead glass radiation shielding window assemblies, shielding wall plugs, barrier shields, view ports, and the installation/extraction table/device required for the installation and removal of the window components. 1.2 Applicability: 1.2.1 This standard is intended for those persons who are tasked with the planning, design, procurement, fabrication, installation, and operation of the radiation shielding window components that may be used in the operation of hot cells, high level caves, mini-cells, canyon facilities, and very high level radiation areas. 1.2.2 This standard applies to radiation shielding window assemblies used in normal concrete walls, high-density concrete walls, steel walls and lead walls. 1.2.3 The values stated in SI units or inch-pound units are to be regarded separately as standard. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in nonconformance with the standard. Common nomenclature for specifying some terms; specifically shielding, uses a combination of metric units and inch-pound units. 1.2.4 This standard identifies the special information required by the Manufacturer for the design of window components. Table A1.1 shows a sample list of the radiation source spectra and geometry information, typically required for shielding analysis. Table A2.1 shows a detailed sample list of specific data typically required to determine the physical size, glass types, and viewing characteristics of the shielding window, or view port. Annex A3 shows general window configuration sketches. Blank copies of Table A1.2 and Table A2.1 are found in the respective Annexes for the Owner–Operator’s use. 1.2.5 This standard is intended to be generic and to apply to a wide range of configurations and types of lead glass radiation shielding window components used in hot cells. It does not address glovebox, water, X-ray glass, or zinc bromide windows. 1.2.6 Supplementary information on viewing systems in hot cells may be found in Guides C1533 and C1661. 1.3 Caveats: 1.3.1 Consideration shall be given when preparing the shielding window designs for the safety related issues discussed in the Hazard Sources and Failure Modes, Section 11; such as dielectric discharge, over-pressurization, radiation exposure, contamination, and overturning of the installation/ extraction table/device. 1.3.2 In many cases, the use of the word “shall” has been purposely used in lieu of “should” to stress the importance of the statements that have been made in this standard. 1.3.3 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 establish appropriate safety, health, and environmental practices and determine the applicability of regulatory requirements prior to use. 1.4 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.
- 标准号
- ASTM C1572/C1572M-23
- 发布
- 2023年
- 发布单位
- 美国材料与试验协会
- 当前最新
- ASTM C1572/C1572M-23
- 引用标准
- ANSI Y14 ANSI/ASME NQA-1 ANSI/AWS A2.4 ANSI/AWS B2.1 ANSI/ISO/ASQ 9001 ASTM A240/A240M ASTM A27/A27M ASTM A36/A36M ASTM A48/A48M ASTM A747/A747M ASTM C1533 ASTM C1661 ASTM C859 ASTM D1533 ASTM D3703 ASTM D6304 ASTM E165/E165M ASTM E170 ASTM E2024 ASTM E299