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ASTM E 1165 : 2012 : R2017

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

View Superseded by

Standard Test Method for Measurement of Focal Spots of Industrial X-Ray Tubes by Pinhole Imaging

Available format(s)

Hardcopy , PDF

Superseded date

28-01-2021

Superseded by

ASTM E 1165 : 2020

Language(s)

English

Published date

05-12-2017

€74.48
Excluding VAT

CONTAINED IN VOL. 03.03, 2017 Gives instructions for determining the effective size (dimensions) of standard and mini focal spots of industrial x-ray tubes.

Committee
E 07
DocumentType
Test Method
Pages
13
ProductNote
Reconfirmed 2017
PublisherName
American Society for Testing and Materials
Status
Superseded
SupersededBy
Supersedes

1.1The image quality and the resolution of X-ray images highly depend on the characteristics of the focal spot. The imaging qualities of the focal spot are based on its two dimensional intensity distribution as seen from the detector plane.

1.2This test method provides instructions for determining the effective size (dimensions) of standard and mini focal spots of industrial x-ray tubes. This determination is based on the measurement of an image of a focal spot that has been radiographically recorded with a “pinhole” technique.

1.3This standard specifies a method for the measurement of focal spot dimensions from 50 μm up to several mm of X-ray sources up to 1000 kV tube voltage. Smaller focal spots should be measured using EN 12543-5 using the projection of an edge.

1.4This test method may also be used to determine the presence or extent of focal spot damage or deterioration that may have occurred due to tube age, tube overloading, and the like. This would entail the production of a focal spot radiograph (with the pinhole method) and an evaluation of the resultant image for pitting, cracking, and the like.

1.5Values stated in SI units are to be regarded as the standard.

1.6This 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 limitations prior to use.

1.7This 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.

ASTM E 1734 : 2016 : REV A Standard Practice for Radioscopic Examination of Castings
ASTM E 2698 : 2018 : EDT 1 Standard Practice for Radiographic Examination Using Digital Detector Arrays
ASTM E 2903 : 2018 Standard Test Method for Measurement of the Effective Focal Spot Size of Mini and Micro Focus X-ray Tubes
ASTM E 2104 : 2015 Standard Practice for Radiographic Examination of Advanced Aero and Turbine Materials and Components
ASTM E 2662 : 2015 Standard Practice for Radiographic Examination of Flat Panel Composites and Sandwich Core Materials Used in Aerospace Applications
ASTM E 1411 : 2016 Standard Practice for Qualification of Radioscopic Systems
ASTM E 2446 : 2016 Standard Practice for Manufacturing Characterization of Computed Radiography Systems
ASTM E 1742/E1742M : 2018 Standard Practice for Radiographic Examination
ASTM E 1255 : 2016 Standard Practice for Radioscopy
ASTM E 2033 : 2017 Standard Practice for Radiographic Examination Using Computed Radiography (Photostimulable Luminescence Method)

ASTM E 2033 : 2017 Standard Practice for Radiographic Examination Using Computed Radiography (Photostimulable Luminescence Method)
ASTM E 1255 : 2009 Standard Practice for Radioscopy
EN 12543-5:1999 Non-destructive testing - Characteristics of focal spots in industrial X-ray systems for use in non-destructive testing - Part 5: Measurement of the effective focal spot size of mini and micro focus X-ray tubes
ASTM E 1000 : 2016 : REDLINE Standard Guide for Radioscopy
EN 12543-2:2008 Non-destructive testing - Characteristics of focal spots in industrial X-ray systems for use in non-destructive testing - Part 2: Pinhole camera radiographic method
ASTM E 2033 : 1999 : R2013 Standard Practice for Computed Radiology (Photostimulable Luminescence Method)
ASTM E 2698 : 2018 : EDT 1 Standard Practice for Radiographic Examination Using Digital Detector Arrays
ASTM E 2698 : 2010 Standard Practice for Radiological Examination Using Digital Detector Arrays
ASTM E 1255 : 1996 Standard Practice for Radioscopy
ASTM E 1000 : 1998 Standard Guide for Radioscopy
ASTM E 2698 : 2018 Standard Practice for Radiographic Examination Using Digital Detector Arrays
ASTM E 1000 : 2016 Standard Guide for Radioscopy
ASTM E 2002 : 1998 Standard Practice for Determining Total Image Unsharpness in Radiology
ASTM E 2033 : 1999 Standard Practice for Computed Radiology (Photostimulable Luminescence Method)
ASTM E 1000 : 1998 : R2003 Standard Guide for Radioscopy
ASTM E 2002 : 1998 : R2003 : EDT 1 Standard Practice for Determining Total Image Unsharpness in Radiology
ASTM E 2002 : 1998 : R2009 Standard Practice for Determining Total Image Unsharpness in Radiology
ASTM E 1255 : 2016 : REDLINE Standard Practice for Radioscopy
ASTM E 2002 : 2015 : REDLINE Standard Practice for Determining Total Image Unsharpness and Basic Spatial Resolution in Radiography and Radioscopy
ASTM E 2002 : 2015 Standard Practice for Determining Total Image Unsharpness and Basic Spatial Resolution in Radiography and Radioscopy
ASTM E 1000 : 1998 : R2009 Standard Guide for Radioscopy
ASTM E 2033 : 1999 : R2006 Standard Practice for Computed Radiology (Photostimulable Luminescence Method)
ASTM E 1255 : 2016 Standard Practice for Radioscopy

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