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Keywords

Differential Scanning Calorimetry Thermal Analysis Differential Thermal Analysis Endothermic Peak Mineralogical Analysis 
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References

  1. Allen JA (1966) Energy Changes in Chemistry., Allyn-Bacon Newton, MAGoogle Scholar
  2. Braudeau E (1987) Mesure automatique de la rétraction d’échantillons de sol non remaniés. Science du Sol, 25, 85-93Google Scholar
  3. Braudeau E (1988) Equation généralisée des courbes de retrait d’échantillons de sols structurés. Comptes rendus acad. Sci. Fr., série 2, 307, 1731-1734Google Scholar
  4. Braudeau E, Costantini JM, Bellier G and Colleuille H (1999) New device and method for soil shrinkage curve measurement and characterization. Soil Sci. Soc. Am. J., 63, 525-535Google Scholar
  5. Braudeau E, Frangi JP and Mothar RH (2004) Characterizing non-rigid dual porosity structured soil medium using its characteristic shrinkage curve. Soil Sci. Soc. Am. J., 68, 359-370CrossRefGoogle Scholar
  6. Duval C (1963) Inorganic Thermogravimetric Analysis., Elsevier. Amsterdam. 2ème éditionGoogle Scholar
  7. Garrels RM and Christ CL (1965) Solutions, Minerals and Equilibra., Harper-Row New YorkGoogle Scholar
  8. Gray AP (1968) Symposium Analytical Chlorimetry, Porter R.S. and Johnson JF ed., Proc. Am. Chem. Soc., Plenum New York, 209Google Scholar
  9. Kotra RK, Gibson EK and Urbancic MA (1982) Icarus., 51, 593CrossRefGoogle Scholar
  10. Mackensie RC (1970) Differential Thermal Analysis. Academic London. Vol. 1.Google Scholar
  11. McNaughton JL and Mortimer CT (1975) La calorimétrie differentielle à balayage. Butterworth, Physical Chemistry., Série 2, 10. 43 pagesGoogle Scholar
  12. Miller B, Giuham JM, Brennan WP, Nentzer C and Whitwell JC (1973) Thermochim. Acta, 5, 257Google Scholar
  13. Pansu M, Gautheyrou J and Loyer JY (2001) - Soil analysis - sampling, Instrumentation and Quality Control, Balkema Amsterdam, Lisse, Abington, Exton, Tokyo, 512 pGoogle Scholar
  14. Rouquerol J (1970) L’analyse thermique de décomposition construite. J. Therm. Anal., 2, 123-140CrossRefGoogle Scholar
  15. Rouquerol J (1989) Reciprocal thermal analysis. The hidden face of the thermal analysis. Thermodyn. ActaGoogle Scholar
  16. Rouquerol F, Rouquerol J, Thevand G and Triaca M. (1985) Desorption of chemisorbed species: its study by controlled rate thermal analysis. Surf. Sci., 239-244Google Scholar
  17. Rouquerol J, Rouquerol F, Grillet Y and Ward RJ (1988) A critical assessment of quasi equilibrium as adsorption techniques in volumetry gravimetry, calorimetry. In Characterization of Porous Solid, Kunger KK ed., Elsevier Amsterdam, 67-75Google Scholar
  18. Watson ES, O’neill MJ, Justin J and Brenner N (1964) DSC. Anal. Chem., 36, 1233CrossRefGoogle Scholar

Bibliography

  1. Bang DV and Atanasov I (1984) Thermal characteristics of the clay fraction of soils overlying zeolites. Pochvoznanie i Agrokhimiya, 19, 58-65Google Scholar
  2. Barshad I (1965) Thermal analysis techniques for mineral identification and mineralogical composition. In Methods of Soil Analysis, Part 1., Black C.A. ed., A.S.A., S.S.S.A., 9, 699-742Google Scholar
  3. Bishop JL, Banin A, Mancinelli R and Klovstad MR (2002) Detection of soluble and fixed NH4+ in clay minerals by DTA and IR reflectance spectroscopy: a potential tool for planetary surface exploration. Planetary Space Sci., 50, 11-19CrossRefGoogle Scholar
  4. Brennan WP (1974) Application of differential scanning calorimetry for the study of phase transitions. In Analytical Calorimetry, Porter RS and Johnson JF ed., Plenum New YorkGoogle Scholar
  5. Caillere S and Henin S (1963) Mineralogie des argiles., Masson ParisGoogle Scholar
  6. Daniels T (1973) Thermal Analysis., Kogan PageGoogle Scholar
  7. Dunn JG (1980) L’analyse thermique, une technique de centrale de qualité dans les industries de l’argile, des céramiques et des verres. Silicates Industriels, 10, 203Google Scholar
  8. Duval C (1953) Inorganic Thermogravimetric Analysis., Elsevier Amsterdam. 1st editionGoogle Scholar
  9. Earnest CM (1983) Thermal analysis of Hectorite. Part II. Differential thermal analysis. Thermochim. Acta., 63, 291-306CrossRefGoogle Scholar
  10. Emmerich WD and Kaisers Berger E (1979) Simultaneous TG-DTA mass-spectrometry to 1550°C. J. Therm. Anal., 17, 197-212CrossRefGoogle Scholar
  11. Ferenc Paulik (1995) Special Trends in Thermal Analysis., Wiley New York, 478 pGoogle Scholar
  12. Fordham CJ and Smalley IJ (1983) High resolution derivative thermogravimetry of sensitive clays. Clay Sci., 6, 73-79Google Scholar
  13. Gallagher PK (Ed.) (1998) Handbook of Thermal Analysis and Calorimetry., ElsevierGoogle Scholar
  14. Garn PD (1965) Thermo Analytical Methods of Investigation., Academic LondonGoogle Scholar
  15. Giovannini G and Lucchesi S (1984) Differential thermal analysis and infra-red investigations on soil hydrophobic substances. Soil Sci., 137, 457-463CrossRefGoogle Scholar
  16. Hatakeyama T and Zhenhai Lui (Ed.), (1998) Handbook of Thermal Analysis., Wiley New YorkGoogle Scholar
  17. Keyser de WL (1953) Differential thermobalance: a new research tool. Nature, 172, 364CrossRefGoogle Scholar
  18. Khanafer K and Vafai K (2002) Thermal analysis of buried land mines over a diurnal cycle. IEEE Trans. Geosci. Remote Sensing, 40, 461-473CrossRefGoogle Scholar
  19. Lombardi G (1984) Thermal analysis in the investigation of zeolitized and alterad volcanics of Latium, Italy. Clay Miner., 19, 789-801CrossRefGoogle Scholar
  20. Mackenzie RC (1963) SCIFAX, Differential Thermal Analysis Data Index., Cleaver-Hume PressGoogle Scholar
  21. Mackenzie RC, Keattoh CJ, Dollimore D, Forester JA, Hodgson AA and Redfern JP (1972) Nomenclature in thermal analysis II. Talanta, 19, 1079-1081CrossRefGoogle Scholar
  22. Mackenzie RC and Caillere S (1975) The thermal characteristics of soil minerals and the use of these characteristics in the qualitative and quantitative determination of clay minerals in soils. In Inorganic componants, Gieseking E. ed. vol. 2, Springer Berlin 529-571Google Scholar
  23. Madkensie RC and Robertson HS (1961) The quantitative determination of halloysite, goethite and gibbsite. Acta Univ. Caral. Geol. Suppl., 1, 139Google Scholar
  24. Maizenberg MC, Karpachevski LO, Markovich MN and Kurakof VN (1991) The use of differential scanning calorimetry in soil studies. Moscow Univ. Soil Sci. Bull., 46, 31-34Google Scholar
  25. Muller F, Drits V, Plancon A and Robert JLL (2000) Structural transformation of 2:1 dioctahedral layer silicates during dehydroxylation-rehydroxylation reactions. Clays Clay Miner., 48, 572-585CrossRefGoogle Scholar
  26. Murphy CB (1962) Differential thermal analysis. A review of fundamental developments in analysis. Anal. Chem., 298-301Google Scholar
  27. Paulik F, Paulik J and Arnold M (1984) Simultaneous TG, DTG, DTA and EGA technique for the determination of carbonate, sulphate, pyrite and organic materials in minerals, soils and rocks. II - Operation of the thermo-gaz-titrimetric device(TGT) and examination procedure. J.Therm. Anal., 29, 333-344CrossRefGoogle Scholar
  28. Poerschmann J, Görecki T and Parsi Z (2005) Analytical non-discriminating pyrolysis in soil analysis. LabPlus Int., 19, 8-14Google Scholar
  29. Sarikaya Y, Onal M, Baran B and Alemdaroglu T (2000) The effect of thermal treatment on some of the physicochemical properties of a bentonite. Clays Clay Miner., 48, 557-562CrossRefGoogle Scholar
  30. Schnitzer M and Kodama H (1972) Differential thermal analysis of metal-fulvic acid salts and complexes. Geoderma, 7, 93-103CrossRefGoogle Scholar
  31. Schomburg J (1991) Thermal reactions of clay minerals: their significance as “erchaeological thermometers” in ancient potteries. Appl. Clay Sci., 6, 215-220CrossRefGoogle Scholar
  32. Schultze D (1969) Differential Thermo-Analysis., VerlagGoogle Scholar
  33. Smothers WJ and Chiang YZO (1966) Handbook of Differential Thermal Analysis., Chem. Publ. Co.Google Scholar
  34. Smykatz-Kloss W and Heide K (1988) Progress of thermal analysis in earth Sciences. J. Therm. Anal., (GBR) 33, 1253-1257CrossRefGoogle Scholar
  35. Taichev T, Konishev P and Donov D (1984) Application of thermal analysis in studies on the structural evolution of humic substances. Pochvoznanie i Agrokhimiya, 19, 82-87Google Scholar
  36. Tan KH and Clark FE (1969) Polysaccharide constituents in fulvic and humic acids extracted from soil. Geoderma, 2, 245-255CrossRefGoogle Scholar
  37. Tan KH, Hajek BF and Barshad I (1986) Thermal analysis techniques. In Methods of soil analysis, Klute A. ed., A. S..A., S.S.S.A., 9, 151-183Google Scholar
  38. Trofimov SA, Tolpeshta II, Sokolova TA (1999) A study of plant material and organic soil horizons using thermal analysis techniques. Pochvovedenie, 54, 3-9Google Scholar
  39. Van Olphen H and Fripiat JJ (1979) Data Handbook for Clay Minerals and Other Non-Metallic Minerals., Pergamon New York, 350 pagesGoogle Scholar
  40. Wendlandt WW (1974) Thermal Methods of Analysis, Part 1. Wiley New YorkGoogle Scholar

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