Add to ORKGThe atomic structure of iron phosphate glasses containing uranium has been studied by complementary neutron and x-ray scattering techniques. by combining x-ray and neutron structure factors, detailed information about different pair interactions has been obtained. Most of the basic structural features such as coordination numbers and O-O and P-O distances in uranium containing glasses are the same as those in the base glass of batch composition 40Fe2O3-60P2O5 (mol %). However, the Fe-O distances change slightly with the addition of uranium. The observed structural parameters support a structural model in which the waste elements occupy voids in the Fe-O-P network, hence, not altering the basic structure of the parent iron phosphate glass
'Objectives of this project are to: (1) investigate the glass composition and processing conditions ...
© 2017 The Authors Bulk properties such as glass transition temperature, density and thermal expansi...
Iron phosphate glass (IPG) has gained recent interest for use in encapsulating radioactive waste for...
Because of their high chemical durability and waste loading capacity, iron phosphate glasses are a n...
Because of their unusually good chemical durability, iron phosphate glasses are a natural candidate ...
The local structure of iron and uranium ions in a series of iron phosphate glasses with the general ...
The atomic structure of iron phosphate glasses and those containing common high level nuclear waste ...
The atomic structure, glass forming and crystallization characteristics, and the chemical durability...
Iron phosphate glasses with melting temperatures of similar to 1300 degrees C were developed to immo...
An analysis of the X-ray absorption near edge structure (XANES) and the extended X-ray absorption fi...
Fe K-edge x-ray absorption fine-structure (XAFS) measurements were performed on glass samples of (Fe...
Iron phosphate glass is a versatile matrix for the immobilisation of various radioactive elements fo...
'Certain high level wastes (HLW) in the US contain components such as phosphates, heavy metals, and ...
AbstractIron phosphate glass is a versatile matrix for the immobilisation of various radioactive ele...
AbstractIron phosphate has been proposed as a candidate material for the encapsulation of nuclear wa...
'Objectives of this project are to: (1) investigate the glass composition and processing conditions ...
© 2017 The Authors Bulk properties such as glass transition temperature, density and thermal expansi...
Iron phosphate glass (IPG) has gained recent interest for use in encapsulating radioactive waste for...
Because of their high chemical durability and waste loading capacity, iron phosphate glasses are a n...
Because of their unusually good chemical durability, iron phosphate glasses are a natural candidate ...
The local structure of iron and uranium ions in a series of iron phosphate glasses with the general ...
The atomic structure of iron phosphate glasses and those containing common high level nuclear waste ...
The atomic structure, glass forming and crystallization characteristics, and the chemical durability...
Iron phosphate glasses with melting temperatures of similar to 1300 degrees C were developed to immo...
An analysis of the X-ray absorption near edge structure (XANES) and the extended X-ray absorption fi...
Fe K-edge x-ray absorption fine-structure (XAFS) measurements were performed on glass samples of (Fe...
Iron phosphate glass is a versatile matrix for the immobilisation of various radioactive elements fo...
'Certain high level wastes (HLW) in the US contain components such as phosphates, heavy metals, and ...
AbstractIron phosphate glass is a versatile matrix for the immobilisation of various radioactive ele...
AbstractIron phosphate has been proposed as a candidate material for the encapsulation of nuclear wa...
'Objectives of this project are to: (1) investigate the glass composition and processing conditions ...
© 2017 The Authors Bulk properties such as glass transition temperature, density and thermal expansi...
Iron phosphate glass (IPG) has gained recent interest for use in encapsulating radioactive waste for...