Location

La Jolla, CA

Start Date

1980 12:00 AM

Description

While tomographic methods of reconstructing three~dimensional x-ray images are becoming more common in the medical field, their application to industrial problems has only started. Some of the features that differentiate industrial tomography from medical tomography are

  1. x-ray energies may vary from< 10 keV to> 22 MeV
  2. radiation dose to the object is not a constraint
  3. inspection times (within economic constraints) are not as important
  4. the anomalies to be detected offer sharp, high contrast boundaries to the inspection system
  5. high spatial resolution rather than high contrast sensitivity is the primary design goal, and
  6. the number of views may be limited by other (mechanical) constraints.

This paper will describe the effort the Los Alamos Scientific Laboratory (LASL) is making to define the design parameters that affect the constraints listed above. A tomographic test bed in which various design features may be evaluated will be described. The computational facilities at LASL, which include a versatile modeling code that can simulate tomographic systems with various types of radiation, geometries, and detector types, will also be discussed.

Book Title

Proceedings of the ARPA/AFML Review of Progress in Quantitative NDE

Chapter

8. Visualization Procedures

Section

295-297

Language

en

File Format

application/pdf

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Jan 1st, 12:00 AM

Application of Tomography to the Nuclear Industry

La Jolla, CA

While tomographic methods of reconstructing three~dimensional x-ray images are becoming more common in the medical field, their application to industrial problems has only started. Some of the features that differentiate industrial tomography from medical tomography are

  1. x-ray energies may vary from< 10 keV to> 22 MeV
  2. radiation dose to the object is not a constraint
  3. inspection times (within economic constraints) are not as important
  4. the anomalies to be detected offer sharp, high contrast boundaries to the inspection system
  5. high spatial resolution rather than high contrast sensitivity is the primary design goal, and
  6. the number of views may be limited by other (mechanical) constraints.

This paper will describe the effort the Los Alamos Scientific Laboratory (LASL) is making to define the design parameters that affect the constraints listed above. A tomographic test bed in which various design features may be evaluated will be described. The computational facilities at LASL, which include a versatile modeling code that can simulate tomographic systems with various types of radiation, geometries, and detector types, will also be discussed.