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200 10$aCharacterization of remote-handled transuranic waste for the Waste Isolation Pilot Plant $einterim report /$fNational Research Council
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210  4$dİ2001
215   $a1 online resource (62 p.)
300   $aDescription based upon print version of record.
311   $a0-309-58452-3 
320   $aIncludes bibliographical references.
327   $aCHARACTERIZATION OF REMOTE-HANDLED TRANSURANIC WASTE FOR THE WASTE ISOLATION PILOT PLANT; Copyright; LIST OF REPORT REVIEWERS; Contents; Executive Summary; 1 Introduction; COMMITTEE'S TASK; 2 Remote-Handled Transuranic Waste; RH-TRU WASTE INVENTORY; ISSUES RELATED TO THE HANDLING OF RH-TRU WASTE; 3 Regulatory Context for the Disposal of RH-TRU Waste; LAND WITHDRAWAL ACT REQUIREMENTS FOR TRANSURANIC WASTE IN WIPP; WIPP'S CERTIFICATION REQUIREMENTS FOR THE CHARACTERIZATION OF TRANSURANIC WASTE; RCRA PERMIT REQUIREMENTS FOR THE CHARACTERIZATION OF TRANSURANIC WASTE
327   $aFINDINGS OF THE PREVIOUS NATIONAL RESEARCH COUNCIL'S COMMITTEE6 ON WIPP4 Description of DOE's Characterization Plan for RH-TRU Waste; DOE'S PLAN TO ADDRESS EPA'S CERTIFICATION REQUIREMENTS FOR RH-TRU WASTE; DOE'S PLAN TO ADDRESS THE RCRA PERMIT REQUIREMENTS FOR RH-TRU WASTE; COMPARISON OF THE RH-TRU AND CH-TRU CHARACTERIZATION PLANS; EFFECTIVENESS OF AK; 5 Committee's Preliminary Findings and Recommendations; OBSERVATIONS AND ISSUES FOR FURTHER CLARIFICATION; CLOSING REMARKS; References; Appendix A CH-TRU Waste Characterization Plan; Appendix B Information Gathered to Date
327   $aAppendix C Biographical Sketches of Committee MembersAppendix D Glossary
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200 10$aSynthesis, properties, and mineralogy of important inorganic materials /$fTerence E. Warner
205   $a1st ed.
210   $aChichester, West Sussex $cWiley$d2011
215   $a1 online resource (289 p.)
300   $aDescription based upon print version of record.
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320   $aIncludes bibliographical references and index.
327   $gMachine generated contents note:$g1.$tIntroduction --$g2.$tPractical Equipment --$g2.1.$tContainers --$g2.2.$tMilling --$g2.3.$tFabrication of Ceramic Monoliths --$g2.4.$tFurnaces --$g2.5.$tPowder X-ray Diffractometry --$g3.$tArtificial Cuprorivaite CaCuSi4O10 (Egyptian Blue) by a Salt-Flux Method --$g4.$tArtificial Covellite CuS by a Solid-Vapour Reaction --$g5.$tTurbostratic Boron Nitride t-BN by a Solid-Gas Reaction Using Ammonia as the Nitriding Reagent --$g6.$tRubidium Copper Iodide Chloride Rb4Cu16I7Cl13 by a Solid-State Reaction --$g7.$tCopper Titanium Zirconium Phosphate CuTiZr(PO4)3 by a Solid-State Reaction Using Ammonium Dihydrogenphosphate as the Phosphating Reagent --$g8.$tCobalt Ferrite CoFe2O4 by a Coprecipitation Method --$g9.$tLead Zirconate Titanate PbZr0.52Ti0.48O3 by a Coprecipitation Method Followed by Calcination.
327   $g10.$tYttrium Barium Cuprate YBa2Cu3O7-δ(δ ~ 0) by a Solid-State Reaction Followed by Oxygen Intercalation --$g11.$tSingle Crystals of Ordered Zinc-Tin Phosphide ZnSnP2 by a Solution-Growth Technique Using Molten Tin as the Solvent --$g12.$tArtificial Kieftite CoSb3 by an Antimony Self-Flux Method --$g13.$tArtificial Violarite FeNi2S4 by a Hydrothermal Method Using DL-Penicillamine as the Sulfiding Reagent --$g14.$tArtificial Willemite Zn1.96Mn0.04SiO4 by a Hybrid Coprecipitation and Sol-Gel Method --$g15.$tArtificial Scheelite CaWO4 by a Microwave-Assisted Solid-State Metathetic Reaction --$g16.$tArtificial Hackmanite Na8[Al6Si6O24]Cl1.8S0.1 by a Structure-Conversion Method with Annealing Under a Reducing Atmosphere --$g17.$tGold-Ruby Glass from a Potassium-Antimony-Borosilicate Melt with a Controlled Annealing.
330   $aIntended as a textbook for courses involving preparative solid-state chemistry, this book offers clear and detailed descriptions on how to prepare a selection of inorganic materials that exhibit important optical, magnetic and electrical properties, on a laboratory scale. The text covers a wide range of preparative methods and can be read as separate, independent chapters or as a unified coherent body of work. Discussions of various chemical systems reveal how the properties of a material can often be influenced by modifications to the preparative procedure, and vice versa. References to miner
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