Claims
- 1. A calculator for solving gamma radiography variables comprising:
- a base for displaying a time scale;
- a first disk rotatably coupled to said base for displaying a radiation source strength scale opposed to said time scale and for displaying a source-to-film distance scale;
- a second disk rotatably coupled to said base and said first disk for displaying a thickness scale opposed to said source-to-film distance scale and for displaying a radial F mark; and
- a third disk rotatably coupled to said base, said first disk and said second disk for displaying a film type scale opposed to said radial F mark and for displaying a radial baseline mark.
- 2. The calculator for solving gamma radiography variables of claim 1, wherein said second disk is dimensioned for a radiation source selected from the group comprising Ir.sup.192 and Co.sup.60.
- 3. A circular calculator for solving gamma radiography variables comprising:
- a base for displaying a logarithmic time scale outside a circle of radius R.sub.1, wherein said logarithmic time scale begins at a zero reference point;
- a first disk of radius R.sub.1 adjacent to, and rotatably coupled to, said base and concentric with said circular logarithmic time scale for displaying a circular logarithmic radiation source strength scale and for displaying a circular logarithmic source-to-film distance scale;
- a second disk of radius R.sub.2 adjacent and concentric to said first disk and rotatably coupled to both said first disk and said base for displaying a circular thickness scale and for displaying a radial tick mark F, wherein R.sub.2 <R.sub.1 ; and
- a third disk of radius R.sub.3 adjacent and concentric to said second disk and rotatably coupled to said base, said second disk and said first disk for displaying a radial baseline mark and for displaying a plurality of film type marks, wherein R.sub.3 <R.sub.2.
- 4. The circular calculator of claim 3, wherein said circular logarithmic time scale includes a plurality of radial tick marks emanating outward from a circle of radius R.sub.1, wherein some of said plurality of radial tick marks are labeled beginning with "1" at a zero reference point and increasing clockwise ending with "60".
- 5. The circular calculator of claim 3, wherein said circular logarithmic radiation source strength scale includes a plurality of radial tick marks emanating inward from a circle of radius R.sub.1, wherein some of said plurality of radial tick marks are labeled beginning with "5" and increasing counterclockwise ending with "100".
- 6. The circular calculator of claim 3, wherein said circular logarithmic source-to-film distance scale includes a plurality of radial tick marks emanating outward from a circle of radius R.sub.2, wherein some of said plurality of radial tick marks are labeled beginning with "3" and increasing counterclockwise ending with "100".
- 7. The circular calculator of claim 6, wherein said circular logarithmic source-to-film distance scale displayed on said first disk is dimensioned in inches.
- 8. The circular calculator of claim 3, wherein said circular thickness scale includes a nearly linearly spaced radial tick marks emanating inward from a circumference of said second disk of radius R.sub.2 beginning with 0 inches and increasing clockwise to 4 inches along said circumference for use with Ir.sup.192 radiation sources.
- 9. The circular calculator of claim 8, wherein said radial tick mark F emanates from a circle of radius R.sub.3, and wherein said radial tick mark F is positioned radially between 1 inches and 1.25 inches as displayed on said circular thickness scale.
- 10. The circular calculator of claim 3, wherein said circular thickness scale includes linearly spaced radial tick marks emanating inward from a circumference of said second disk of radius R.sub.2 beginning with 0 inches and increasing clockwise to 8 inches along said circumference for use with Co.sup.60 radiation sources.
- 11. The circular calculator of claim 3, wherein said radial baseline mark is rotationally adjustable from about -15.degree. to about +45.degree. relative to said zero reference point.
- 12. The circular calculator of claim 11, wherein said radial baseline mark is fixed in alignment with said zero reference point.
- 13. The circular calculator of claim 3, wherein said plurality of film type marks displayed on said third disk range from approximately 5:30 o'clock to approximately 9:30 o'clock when said radial baseline mark is in a 12 o'clock relative position.
- 14. A coplanar circular calculator for solving gamma radiography variables comprising:
- a base for displaying a logarithmic time scale outside a circle of radius R.sub.1, wherein said logarithmic time scale begins at a zero reference point;
- a first annular ring of outer radius R.sub.1, and inner radius R.sub.2, coplanar with, and rotatably coupled to, said base and concentric with said logarithmic time scale for displaying a circular logarithmic radiation source strength scale and for displaying a circular logarithmic source-to-film distance scale;
- a second annular ring of outside radius R.sub.2, and inside radius R.sub.3, coplanar with, concentric to, and rotatably coupled to, said first disk for displaying a circular thickness scale and for displaying a radial tick mark F; and
- a third disk of radius R.sub.3, coplanar with, concentric to, and rotatably coupled to said second disk for displaying a radial baseline mark and for displaying a plurality of film type marks.
- 15. A method of calculating exposure time for gamma radiography using an apparatus for calculating gamma radiography variables given film type, source-to-film distance, object thickness, and radiation source strength comprising:
- providing an apparatus for calculating gamma radiography variables including a base, a first disk, a second disk and a third disk;
- selecting a film type corresponding to film being used from a plurality of film types radially marked along a circumference of said third disk on said apparatus;
- rotating said second disk until a radial tick mark F on said second disk lines up with said selected film type mark;
- rotating said first disk until a source-to-film distance marked on said first disk corresponding to distance between a radiation source and film for said radiograph lines up with object thickness of subject radiograph as marked on said second disk; and
- reading exposure time displayed on base of said apparatus corresponding to radiation source strength of said radiation source as displayed on said first disk.
- 16. A method of adjusting calculation of exposure time for gamma radiography using an apparatus for calculating gamma radiography variables to obtain density between 2.75 and 3.0 comprising:
- providing an apparatus for calculating gamma radiography variables including a base, a first disk, a second disk, a third disk and radiographic film placed for exposure;
- setting a radial baseline mark on said third disk to a zero reference point;
- selecting a film type corresponding to said radiographic film from a plurality of film types radially marked along a circumference of said third disk of said apparatus;
- rotating said second disk until a radial tick mark F lines up with said selected film type mark;
- rotating said first disk until a source-to-film distance corresponding to distance between a radiation source and said radiographic film marked on said first disk lines up with object thickness of subject radiograph;
- selecting calculated exposure time displayed on base of said apparatus corresponding to radiation source strength of said radiation source as displayed on said first disk;
- exposing said radiographic film based on calculated exposure time;
- developing a radiograph;
- determining density of said developed radiograph;
- adjusting said radial baseline mark clockwise up to 45.degree. relative to said zero reference point to increase density if determined density is below a range of 2.75 to 3.0;
- adjusting said radial baseline mark counterclockwise up to -15.degree. relative to said zero reference point to decrease radiograph density if determined density is above said range of 2.75 to 3.0; and
- repeating above steps as necessary to obtain a radiograph of density 2.75 to 3.0.
CROSS-REFERENCE TO RELATED APPLICATION
This application claims the benefit of U.S. provisional application Ser. No. 60/066,651, filed Nov. 24, 1997.
US Referenced Citations (6)