DEVELOPMENT OF HIGH-DENSITY U/AL DISPERSION PLATES FOR MO-99 PRODUCTION USING ATOMIZED URANIUM POWDER

Phases identified in the interaction zone of U3Si2/Al dispersion fuel plates

Marcela Inés Mirandou (5550548)
Ricardo Martín Sanabria (5550554)
Silvia Noemí Balart (5550572)
Sergio FabiánAricó (5550575)
Jorge Omar Fabro (5550569)

July 2018

ABSTRACT Fuel elements based on U3Si2 particles dispersed in a pure Al matrix (known as di...

Production and Characterization of Atomized U-Mo Powder by the Rotating Electrode Process

Clark, C.R.
Muntifering, B.R.
Jue, J.F.

September 2007

In order to produce feedstock fuel powder for irradiation testing, the Idaho National Laboratory has...

Irradiation tests of {sup 99}Mo isotope production targets employing uranium metal foils

Hofman, G.L.
Wiencek, T.C.
Wood, E.L.
Snelgrove, J.L.
Suripto, , A.
Nasution, H.
Lufti-Amin, D.
Gogo, A.

December 1996

Most of the world`s supply of {sup 99m}Tc for medical purposes is currently produced form the decay ...

DEVELOPMENT OF HIGH-DENSITY U/AL DISPERSION PLATES FOR MO-99 PRODUCTION USING ATOMIZED URANIUM POWDER

RYU, HO JIN
KIM, CHANG KYU
SIM, MOONSOO
PARK, JONG MAN
LEE, JONG HYUN

December 2013

Uranium metal particle dispersion plates have been proposed as targets for Molybdenum-99 (Mo-99) pro...

Design and fabrication of high density uranium dispersion fuels.

Clark, C. R.
McGann, D. J.
Meyer, M. K.
Trybus, C. L.
Wiencek, T. C.

November 1997

Twelve different uranium alloys and compounds with uranium densities greater than 13.8 g/cc were fab...

Design and fabrication of high density uranium dispersion fuels

Trybus, C.L.
Meyer, M.K.
Clark, C.R.
Wlencek, T.C.
McGann, D.J.

November 1997

Twelve different uranium alloys and compounds with uranium densities greater than 13.8 g/cc were fab...

Modification of base-side {sup 99}MO production processes for LEU metal-foil targets.

Vandegrift, G. F.
Leonard, R. A.
Aase, S.
Sedlet, J.
Koma, Y.
Conner, C.
Clark, C. R.
Meyer, M. K.

September 1999

Argonne National Laboratory is cooperating with the National Atomic Energy Commission of the Argenti...

Progress in developing processes for converting {sup 99}Mo production from high- to low-enriched uranium--1998.

Conner, C.

October 1998

During 1998, the emphasis of our activities was focused mainly on target fabrication. Successful con...

Progress in development of low-enriched U-Mo dispersion fuels.

Hofman, G. L.
Snelgrove, J. L.
Hayes, S. L.
Meyer, M. K.

March 2002

Results from postirradiation examinations and analyses of U-Mo/Al dispersion miniplates are presente...

High density dispersion fuel

Hofman, G.L.

September 1996

A fuel development campaign that results in an aluminum plate-type fuel of unlimited LEU burnup capa...

N.: Automatic Generation

Kyler K. Turner
Gary L. Solbrekken
Charlie W. Allen
K Kelvin

January 2008

Technetium-99m is a radiopharmaceutical currently used in 85 % of all diagnostic imaging procedures....

Development and processing of LEU targets for {sup 99}Mo production

Snelgrove, J.L.
Vandegrift, G.F.
Hofman, G.L.

April 1997

Most of the world`s supply of {sup 99m}Tc for medical purposes is currently produced from the decay ...

The use of U/sub 3/Si/sub 2/ dispersed in aluminum in plate-type fuel elements for research and test reactors

Snelgrove, J.L.
Domagala, R.F.
Hofman, G.L.
Wiencek, T.C.
Copeland, G.L.
Hobbs, R.W.
Senn, R.L.

October 1987

A high-density fuel based on U/sub 3/Si/sub 2/ dispersed in aluminum has been developed and tested f...

Continuing investigations for technology assessment of /sup 99/Mo production from LEU (low enriched Uranium) targets

Vandergrift, G. F.
Kwok, J. D.
Marshall, S. L.
Vissers, D. R.
Matos, J. E.

January 1987

Currently much of the world's supply of /sup 99m/Tc for medical purposes is produced from /sup 99/Mo...

Processing of LEU targets for {sup 99}Mo production: Dissolution of U{sub 3}Si{sub 2} targets by alkaline hydrogen peroxide

Buchholz, B.A.
Vandegrift, G.F.

September 1995

Low-enriched uranium silicide targets designed to recover fission product {sup 99}Mo were dissolved ...

Phases identified in the interaction zone of U3Si2/Al dispersion fuel plates

Marcela Inés Mirandou (5550548)
Ricardo Martín Sanabria (5550554)
Silvia Noemí Balart (5550572)
Sergio FabiánAricó (5550575)
Jorge Omar Fabro (5550569)

July 2018

ABSTRACT Fuel elements based on U3Si2 particles dispersed in a pure Al matrix (known as di...

Production and Characterization of Atomized U-Mo Powder by the Rotating Electrode Process

Clark, C.R.
Muntifering, B.R.
Jue, J.F.

September 2007

In order to produce feedstock fuel powder for irradiation testing, the Idaho National Laboratory has...

Irradiation tests of {sup 99}Mo isotope production targets employing uranium metal foils

Hofman, G.L.
Wiencek, T.C.
Wood, E.L.
Snelgrove, J.L.
Suripto, , A.
Nasution, H.
Lufti-Amin, D.
Gogo, A.

December 1996

Most of the world`s supply of {sup 99m}Tc for medical purposes is currently produced form the decay ...

DEVELOPMENT OF HIGH-DENSITY U/AL DISPERSION PLATES FOR MO-99 PRODUCTION USING ATOMIZED URANIUM POWDER

RYU, HO JIN
KIM, CHANG KYU
SIM, MOONSOO
PARK, JONG MAN
LEE, JONG HYUN

December 2013

Uranium metal particle dispersion plates have been proposed as targets for Molybdenum-99 (Mo-99) pro...

Design and fabrication of high density uranium dispersion fuels.

Clark, C. R.
McGann, D. J.
Meyer, M. K.
Trybus, C. L.
Wiencek, T. C.

November 1997

Twelve different uranium alloys and compounds with uranium densities greater than 13.8 g/cc were fab...

Design and fabrication of high density uranium dispersion fuels

Trybus, C.L.
Meyer, M.K.
Clark, C.R.
Wlencek, T.C.
McGann, D.J.

November 1997

Twelve different uranium alloys and compounds with uranium densities greater than 13.8 g/cc were fab...

Modification of base-side {sup 99}MO production processes for LEU metal-foil targets.

Vandegrift, G. F.
Leonard, R. A.
Aase, S.
Sedlet, J.
Koma, Y.
Conner, C.
Clark, C. R.
Meyer, M. K.

September 1999

Argonne National Laboratory is cooperating with the National Atomic Energy Commission of the Argenti...

Progress in developing processes for converting {sup 99}Mo production from high- to low-enriched uranium--1998.

Conner, C.

October 1998

During 1998, the emphasis of our activities was focused mainly on target fabrication. Successful con...

Progress in development of low-enriched U-Mo dispersion fuels.

Hofman, G. L.
Snelgrove, J. L.
Hayes, S. L.
Meyer, M. K.

March 2002

Results from postirradiation examinations and analyses of U-Mo/Al dispersion miniplates are presente...

High density dispersion fuel

Hofman, G.L.

September 1996

A fuel development campaign that results in an aluminum plate-type fuel of unlimited LEU burnup capa...

N.: Automatic Generation

Kyler K. Turner
Gary L. Solbrekken
Charlie W. Allen
K Kelvin

January 2008

Technetium-99m is a radiopharmaceutical currently used in 85 % of all diagnostic imaging procedures....

Development and processing of LEU targets for {sup 99}Mo production

Snelgrove, J.L.
Vandegrift, G.F.
Hofman, G.L.

April 1997

Most of the world`s supply of {sup 99m}Tc for medical purposes is currently produced from the decay ...

The use of U/sub 3/Si/sub 2/ dispersed in aluminum in plate-type fuel elements for research and test reactors

Snelgrove, J.L.
Domagala, R.F.
Hofman, G.L.
Wiencek, T.C.
Copeland, G.L.
Hobbs, R.W.
Senn, R.L.

October 1987

A high-density fuel based on U/sub 3/Si/sub 2/ dispersed in aluminum has been developed and tested f...

Continuing investigations for technology assessment of /sup 99/Mo production from LEU (low enriched Uranium) targets

Vandergrift, G. F.
Kwok, J. D.
Marshall, S. L.
Vissers, D. R.
Matos, J. E.

January 1987

Currently much of the world's supply of /sup 99m/Tc for medical purposes is produced from /sup 99/Mo...

Processing of LEU targets for {sup 99}Mo production: Dissolution of U{sub 3}Si{sub 2} targets by alkaline hydrogen peroxide

Buchholz, B.A.
Vandegrift, G.F.

September 1995

Low-enriched uranium silicide targets designed to recover fission product {sup 99}Mo were dissolved ...

Phases identified in the interaction zone of U3Si2/Al dispersion fuel plates

Marcela Inés Mirandou (5550548)
Ricardo Martín Sanabria (5550554)
Silvia Noemí Balart (5550572)
Sergio FabiánAricó (5550575)
Jorge Omar Fabro (5550569)

July 2018

ABSTRACT Fuel elements based on U3Si2 particles dispersed in a pure Al matrix (known as di...

Production and Characterization of Atomized U-Mo Powder by the Rotating Electrode Process

Clark, C.R.
Muntifering, B.R.
Jue, J.F.

September 2007

In order to produce feedstock fuel powder for irradiation testing, the Idaho National Laboratory has...

Irradiation tests of {sup 99}Mo isotope production targets employing uranium metal foils

Hofman, G.L.
Wiencek, T.C.
Wood, E.L.
Snelgrove, J.L.
Suripto, , A.
Nasution, H.
Lufti-Amin, D.
Gogo, A.

December 1996

Most of the world`s supply of {sup 99m}Tc for medical purposes is currently produced form the decay ...

DEVELOPMENT OF HIGH-DENSITY U/AL DISPERSION PLATES FOR MO-99 PRODUCTION USING ATOMIZED URANIUM POWDER

Abstract

Extracted data

DEVELOPMENT OF HIGH-DENSITY U/AL DISPERSION PLATES FOR MO-99 PRODUCTION USING ATOMIZED URANIUM POWDER

Abstract

Extracted data

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