TY - GEN
T1 - Chemical durability and characterization of low-intermediate level simulated nuclear waste glasses
T2 - REWAS'04 - Global Symposium on Recycling, Waste Treatment and Clean Technology
AU - Múgica, Juan C.
AU - Aguirre, Patricio
AU - De La Higuera, Julia López
AU - García, Enrique
AU - Zuloaga, Pablo
AU - Ordóñez, Manuel
AU - Alvarez-Mir, Fernando
AU - Gómez, José J.
AU - Rubio, Juan
AU - Oteo, José L.
PY - 2005
Y1 - 2005
N2 - The thermal treatment of low and intermediate level nuclear waste allows the destruction of organic compounds by pyrolisis and the immobilization of the inorganic material in a glassy matrix. As a result, the vitrification processes are an alternative to reduce the volume of waste to be disposed, improving the quality of the final waste. Several simulated glasses were synthesized using borosilicate and alumino-silicate matrix and increasing amounts of different elements (Cs, Co...),. The glasses were characterized for: Structural configuration SEM/TEM, X-ray Diffraction, IR Spectroscopy, density, viscosity... Mechanical properties: elastic modulus (Young's M.), tensile and compression tests. Glass durability using different procedures: ASTM C-1285-97 (crushed glass), ASTM C-1220-98 (monolithic glass) and ISO 6961-1982. The results confirm that mechanical and durability-leaching properties are significantly better in vitrified waste than in cemented samples, and that the addition of oxides to the glass matrix does not affect negatively in the range 0-35 %. Best adapted tests to characterized the glass samples were also identified.
AB - The thermal treatment of low and intermediate level nuclear waste allows the destruction of organic compounds by pyrolisis and the immobilization of the inorganic material in a glassy matrix. As a result, the vitrification processes are an alternative to reduce the volume of waste to be disposed, improving the quality of the final waste. Several simulated glasses were synthesized using borosilicate and alumino-silicate matrix and increasing amounts of different elements (Cs, Co...),. The glasses were characterized for: Structural configuration SEM/TEM, X-ray Diffraction, IR Spectroscopy, density, viscosity... Mechanical properties: elastic modulus (Young's M.), tensile and compression tests. Glass durability using different procedures: ASTM C-1285-97 (crushed glass), ASTM C-1220-98 (monolithic glass) and ISO 6961-1982. The results confirm that mechanical and durability-leaching properties are significantly better in vitrified waste than in cemented samples, and that the addition of oxides to the glass matrix does not affect negatively in the range 0-35 %. Best adapted tests to characterized the glass samples were also identified.
UR - http://www.scopus.com/inward/record.url?scp=32044466488&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:32044466488
SN - 8495520060
T3 - REWAS'04 - Global Symposium on Recycling, Waste Treatment and Clean Technology
SP - 2673
EP - 2681
BT - REWAS'04 - Global Symposium on Recycling, Waste Treatment and Clean Technology - Proceedings
A2 - Gaballah, I.
A2 - Mishra, B.
A2 - Solozabal, R.
A2 - Tanaka, M.
Y2 - 26 September 2004 through 29 September 2004
ER -