New formulations of the containment matrix of Ion Exchange Resin (IER) were studied depending on the physical and chemical state of the inorganic and organic macromolecular binder. The prepared formulations containing a macromolecular organic binder polyepoxide in its powder state (grain size = 0, 40 µm) and the inorganic solid macromolecular binder (zeolite 4A) is characterized by the improvement of the compressive strength as mechanical properties. The obtained improvement is synonymous with the good dispersion of fine particles of both the inorganic and organic macromolecular binder in the IER containment matrix
Among radioactive by-products generated by nuclear technologies, solid organic waste is drawing atte...
The influence of water-to-cement ratio (w/c) on the compressive strength of cement-biochar-spent res...
There is still a safety challenge for the long-term stabilization of nuclear wastes. Thanks to its a...
In the aim to improve the physical properties and the mechanical performance of the confinement matr...
The objective of our study was designed to improve the formulation of the reference matrix by adding...
In this study, we treated the conditioning of radioactive wastes by the method of management [1] usi...
Radioactive waste arising as a result of nuclear activities should be safely managed from its genera...
Copyright © 2014 ISSR Journals. This is an open access article distributed under the Creative Common...
The paper deals a systematic approach of some importance problems, concerning of the conditioning th...
Organic radioactive waste can occur in solid, liquid or rarely gaseous form. In general, organic com...
Granules of high density polyethylene (PEHD) and low density polyethylene (PELD) were used in prepar...
The paper presents data on efficiency of immobilization of low level radioactive wastes of nuclear p...
Selection of wasteform materials for higher activity nuclear waste containment is considered. Utiliz...
To assess the safety for disposal of radioactive mortar-waste composition, the leaching of Cs-137, C...
A combination of gasification of low and intermediate level radioactive waste (LILW) and conditionin...
Among radioactive by-products generated by nuclear technologies, solid organic waste is drawing atte...
The influence of water-to-cement ratio (w/c) on the compressive strength of cement-biochar-spent res...
There is still a safety challenge for the long-term stabilization of nuclear wastes. Thanks to its a...
In the aim to improve the physical properties and the mechanical performance of the confinement matr...
The objective of our study was designed to improve the formulation of the reference matrix by adding...
In this study, we treated the conditioning of radioactive wastes by the method of management [1] usi...
Radioactive waste arising as a result of nuclear activities should be safely managed from its genera...
Copyright © 2014 ISSR Journals. This is an open access article distributed under the Creative Common...
The paper deals a systematic approach of some importance problems, concerning of the conditioning th...
Organic radioactive waste can occur in solid, liquid or rarely gaseous form. In general, organic com...
Granules of high density polyethylene (PEHD) and low density polyethylene (PELD) were used in prepar...
The paper presents data on efficiency of immobilization of low level radioactive wastes of nuclear p...
Selection of wasteform materials for higher activity nuclear waste containment is considered. Utiliz...
To assess the safety for disposal of radioactive mortar-waste composition, the leaching of Cs-137, C...
A combination of gasification of low and intermediate level radioactive waste (LILW) and conditionin...
Among radioactive by-products generated by nuclear technologies, solid organic waste is drawing atte...
The influence of water-to-cement ratio (w/c) on the compressive strength of cement-biochar-spent res...
There is still a safety challenge for the long-term stabilization of nuclear wastes. Thanks to its a...