ASTM E 666 : 2014 : REDLINE
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Standard Practice for Calculating Absorbed Dose From Gamma or X Radiation
23-03-2021
English
01-01-2014
Important note : Users cannot be edited or removed once added to your Multi user PDF.CONTAINED IN VOL. 12.02, 2016 Describes a technique for calculating the absorbed dose in a material from knowledge of the radiation field, the composition of the material, and a related measurement.
| Committee |
E 10
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| DocumentType |
Redline
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| Pages |
11
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| PublisherName |
American Society for Testing and Materials
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| Status |
Superseded
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| SupersededBy |
1.1This practice presents a technique for calculating the absorbed dose in a material from knowledge of the radiation field, the composition of the material, (1-5)2,3 and a related measurement. The procedure is applicable for X and gamma radiation provided the energy of the photons fall within the range from 0.01 to 20 MeV.
1.2A method is given for calculating the absorbed dose in a material from the knowledge of the absorbed dose in another material exposed to the same radiation field. The procedure is restricted to homogeneous materials composed of the elements for which absorption coefficients have been tabulated. All 92 natural elements are tabulated in (2). It also requires some knowledge of the energy spectrum of the radiation field produced by the source under consideration. Generally, the accuracy of this method is limited by the accuracy to which the energy spectrum of the radiation field is known.
1.3The results of this practice are only valid if charged particle equilibrium exists in the material and at the depth of interest. Thus, this practice is not applicable for determining absorbed dose in the immediate vicinity of boundaries between materials of widely differing atomic numbers. For more information on this topic, see Practice E1249.
1.4Energy transport computer codes4 exist that are formulated to calculate absorbed dose in materials more precisely than this method. To use these codes, more effort, time, and expense are required. If the situation warrants, such calculations should be used rather than the method described here.
1.5This 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 limitations prior to use.
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| ASTM F 980M : 1996 | Standard Guide for Measurement of Rapid Annealing of Neutron-Induced Displacement Damage in Silicon Semiconductor Devices [Metric] |
| BS ISO 15555:1998 | Practice for use of a ceric-cerous sulfate dosimetry system |
| ASTM E 1540 : 2004 | PRACTICE FOR USE OF A RADIOCHROMIC LIQUID DOSIMETRY SYSTEM |
| 04/30109485 DC : DRAFT AUG 2004 | ISO 51431 - PRACTICE FOR DOSIMETRY IN ELECTRON BEAM AND X-RAY (BREMSSTRAHLUNG) IRRADIATION FACILITIES FOR FOOD PROCESSING |
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| ASTM E 665 : 1994 | Practice for Using Absorbed Dose Versus Depth in Materials to Verify the X-ray Output of Flash X-ray Machines (Withdrawn 2000) |
| ASTM E 1707 : 2015 | Standard Guide for Estimation of Measurement Uncertainty in Dosimetry for Radiation Processing |
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| ASTM F 1467 : 2011-10 | GUIDE FOR USE OF AN X-RAY TESTER ([APPROXIMATE] 10 KEV PHOTONS) IN IONIZING RADIATION EFFECTS TESTING OF SEMICONDUCTOR DEVICES AND MICROCIRCUITS |
| ASTM F 744M : 2016 : REDLINE | Standard Test Method for Measuring Dose Rate Threshold for Upset of Digital Integrated Circuits (Metric) |
| ASTM D 1879 : 2006 | Standard Practice for Exposure of Adhesive Specimens to Ionizing Radiation |
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| ISO 15571:1998 | Practice for dosimetry in a gamma irradiation facility for radiation processing |
| ASTM E 668 : 2013 : REDLINE | Standard Practice for Application of Thermoluminescence-Dosimetry (TLD) Systems for Determining Absorbed Dose in Radiation-Hardness Testing of Electronic Devices |
| MIL-STD-750-1 Revision A:2015 | Environmental Test Methods for Semiconductor Devices Part 1: Test Methods 1000 Through 1999 |
| ISO 15561:1998 | Practice for use of a dichromate dosimetry system |
| ASTM E 1431 : 2005 | PRACTICE FOR DOSIMETRY IN ELECTRON AND BREMSSTRAHLUNG IRRADIATION FACILITIES FOR FOOD PROCESSING |
| BS ISO 15554:1998 | Practice for dosimetry in gamma irradiation facilities for food processing |
| ISO 15565:1998 | Practice for use of a radiochromic liquid dosimetry system |
| ISO 15572:1998 | Guide for estimating uncertainties in dosimetry for radiation processing |
| BS ISO 15572:1998 | Guide for estimating uncertainties in dosimetry for radiation processing |
| ASTM E 2450 : 2016 : REDLINE | Standard Practice for Application of CaF<inf>2</inf>(Mn) Thermoluminescence Dosimeters in Mixed Neutron-Photon Environments |
| BS ISO 15565:1998 | Practice for use of a radiochromic liquid dosimetry system |
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| ASTM F 996 : 2011 : R2018 | Standard Test Method for Separating an Ionizing Radiation-Induced MOSFET Threshold Voltage Shift Into Components Due to Oxide Trapped Holes and Interface States Using the Subthreshold Current–Voltage Characteristics (Withdrawn 2023) |
| ASTM E 1261 : 2013 | GUIDE FOR SELECTION AND CALIBRATION OF DOSIMETRY SYSTEMS FOR RADIATION PROCESSING |
| MIL-HDBK-815 Base Document:1994 | DOSE-RATE HARDNESS ASSURANCE GUIDELINES |
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| ISO/ASTM 51631:2013 | Practice for use of calorimetric dosimetry systems for electron beam dose measurements and dosimetery system calibrations |
| ISO 15555:1998 | Practice for use of a ceric-cerous sulfate dosimetry system |
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| 03/300863 DC : DRAFT JAN 2003 | ISO/ASTM 51631 - USE OF COLORIMETRIC DOSIMETRY SYSTEMS FOR ELECTRON BEAM DOSE MEASUREMENTS AND ROUTINE DOSIMETER CALIBRATION |
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| ISO/ASTM 51956:2013 | Practice for use of a thermoluminescence-dosimetry system (TLD system) for radiation processing |
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