Immobolization of radioactive waste in ceramic based hosts : radioactive waste immobolization / Ashish Bohre, Kalpana Awasthi.

By:

Bohre, Ashish [author.]

Contributor(s):

Awasthi, Kalpana [author.]

Material type: Text

text

Media type:

computer

Carrier type:

online resource

ISBN:

9783954896691
3954896699

Subject(s):

Genre/Form:

Additional physical formats: Print version:: Immobolization of radioactive waste in ceramic based hosts : radioactive waste immobolization.DDC classification:

621.4838 23

LOC classification:

TD898 .B64 2014eb

Online resources:

Click here to access online

Contents:

Immobolization of radioactive waste in ceramic based hosts; Table of Contents; Chapter 1: Ceramic Materials and Investigation of Literatures; 1.1 Different Ceramic materials; 1.2 Structures of Ceramic materials; 1.3 Ceramics Properties; 1.4 Conventional ceramics; 1.5 Modern ceramics and their applications; 1.6 Future Scope of the present work; 1.7 Investigation of relevant literature; References; Chapter 2: Crystal Structure Refinement and instrumentation; 2.1. Powder Diffraction method; 2.2. Determination of crystal structure; 2.3. Refinement of crystal structure.

2.4. Application of Different software for solving crystal structure2.5. Scanning electron microscopy; 2.6. Energy Dispersive X-ray microanalysis; 2.7. Impedance Spectroscopy; 2.8. FTIR Spectroscopy; References; Chapter 3: Investigational Procedures; 3.1 Characterization and synthesis of materials; 3.2 Characterization of ceramic materials; 3.3 Electrical properties Study; 3.4 FTIR Spectroscopy; 3.5 Experimental data; Chapter 4: Outcomes of the Research Work; 4.1 Metal Substituted Sodium Zirconium Phosphates (NZP); 4.2 Metal Substituted calcium zirconium phosphates:; 4.3 Perovskites.

Summary: Ceramic materials have found numerous applications in science, technology and industry as mentioned earlier. One of the recent applications of titania and zirconia based ceramic precursors is in immobilization and solidification of radioactive isotopes in waste effluents coming out of nuclear establishments and power plants. Due to long term stability and integrity of the ceramic waste forms of high and intermediate level nuclear waste, several countries have now switched over from 'glass technology' to 'ceramic technology' of radwaste management. These and many more applications make ceramic.

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Includes bibliographical references.

Online resource; title from PDF title page (ebrary, viewed April 19, 2014).

Ceramic materials have found numerous applications in science, technology and industry as mentioned earlier. One of the recent applications of titania and zirconia based ceramic precursors is in immobilization and solidification of radioactive isotopes in waste effluents coming out of nuclear establishments and power plants. Due to long term stability and integrity of the ceramic waste forms of high and intermediate level nuclear waste, several countries have now switched over from 'glass technology' to 'ceramic technology' of radwaste management. These and many more applications make ceramic.

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