ASTM-E2303 › Standard Guide for Absorbed-Dose Mapping in Radiation Processing Facilities
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Scope
1.1 This document provides guidance in determining absorbed-dose distributions (mapping) in products, materials or substances irradiated in gamma, X-ray (bremsstrahlung) and electron beam facilities.
1.2 This guide is one of a set of standards that provides recommendations for properly implementing dosimetry in radiation processing. it is intended to be read in conjunction with ASTM Practice E2628.
1.3 Methods of analyzing the dose map data are described. Examples are provided of statistical methods that may be used to analyze dose map data.
1.4 Dose mapping for bulk flow processing and fluid streams is not discussed.
1.5 Dosimetry is an element of a total quality management system for an irradiation facility. Other controls besides dosimetry may be required for specific applications such as medical device sterilization and food preservation.
1.6 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 and health practices and determine the applicability of regulatory requirements prior to use.
Significance and Use
4.1 This guide is one of a set of guides and practices that provide recommendations for properly implementing dosimetry in radiation processing. In order to understand and effectively use this and other dosimetry standards, consider first “Practice for Dosimetry in Radiation Processing,” ASTM Practice E2628, which describes the basic requirements that apply when making absorbed dose measurements in accordance with the ASTM E10.01 series of dosimetry standards. In addition, ASTM Practice E2628 provides guidance on the selection of dosimetry systems and directs the user to other standards that provide information on individual dosimetry systems, calibration methods, uncertainty estimation and radiation processing applications.
4.2 Radiation processing is carried out under fixed path conditions where (a) a process load is automatically moved through the radiation field by mechanical means or (b) a process load is irradiated statically by manually placing product at predetermined positions before the process is started. In both cases the process is controlled in such a manner that the process load position(s) and orientation(s) are reproducible within specified limits.
4.3 Some radiation processing facilities that utilize a fixed conveyor path for routine processing may also characterize a region within the radiation field for static radiation processing, sometimes referred to as “Off Carrier” processing.
4.4 Many radiation processing applications require a minimum absorbed dose (to achieve a desired effect or to fulfill a legal requirement), and a maximum absorbed dose (to ensure that the product, material or substance still meets functional specifications or to fulfill a legal requirement).
4.5 Information from the dose mapping is used to:
4.5.1 Characterize the radiation process and assess the reproducibility of absorbed-dose values, which may be used as part of operational qualification and performance qualification.
4.5.2 Determine the spatial distribution of absorbed doses and the zone(s) of maximum and minimum absorbed doses throughout a process load, which may consist of an actual or simulated product.
4.5.3 Establish the relationship between the dose at a routine monitoring position and the dose within the minimum and maximum dose zones established for a process load.
4.5.4 Verify mathematical dose calculation methods. See ASTM Guide E2232.
Keywords
absorbed dose; bremsstrahlung; dose distribution; dose mapping; dose zone; dosimetry; electron beam; gamma rays; irradiator characterization; maximum dose; minimum dose; operational qualification; performance qualification; radiation processing; routine process monitoring; sterilization; uncertainty; X-rays; ICS Number Code 13.280 (Radiation protection)
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Document Number
ASTM-E2303-11e1
Revision Level
2011(E1) EDITION
Status
Current
Modification Type
Editorially changed
Publication Date
Dec. 1, 2012
Document Type
Guide
Page Count
11 pages
Committee Number
E61.03