Differential thermal analysis

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Differential thermal analysis (or DTA) is a thermoanalytic technique, similar to differential scanning calorimetry. In DTA, the material under study and an inert reference are heated (or cooled) under identical conditions, while recording any temperature difference between sample and reference.[1] This differential temperature is then plotted against time, or against temperature (DTA curve or thermogram). Changes in the sample, either exothermic or endothermic, can be detected relative to the inert reference. Thus, a DTA curve provides data on the transformations that have occurred, such as glass transitions, crystallization, melting and sublimation. The area under a DTA peak can be to the enthalpy change and it is not affected by the heat capacity of the sample.

[edit] Apparatus

A DTA apparatus consist of a sample holder comprising thermocouples, sample containers and a ceramic or metallic block; a furnace; a temperature programmer; and a recording system. The key feature is the existence of two thermocouples connected to a voltmeter. One thermocouple is placed in an inert material such as Al2O3, while the other is placed in a sample of the material under study. As the temperature is increased, there will be a brief deflection of the voltmeter if the sample is undergoing a phase transition. This occurs because the input of heat will raise the temperature of the inert substance, but be incorporated as latent heat in the material changing phase.

[edit] Applications

A DTA curve can be used only as a finger print for identification purposes but usually the applications of this method are the determination of phase diagrams, heat change measurements and decomposition in various atmospheres.

DTA is widely used in the pharmaceutical[2][3] and food industries.[4][5][6][7]

DTA may be used in cement chemistry,[8] mineralogical research[9] and in environmental studies.[10]

DTA curves may also be used to date bone remains[11] or to study archaeological materials.[12][13]

[edit] References

  1. ^ Bhadeshia H.K.D.H. “Thermal analyses techniques. Differential thermal analysis”. University of Cambridge, Material Science and Metallurgy. www.msm.cam.ac.uk/phase-trans/2002/Thermal1.pdf
  2. ^ Ferrer S., Borrás J., Martín Gil J. and Martín Gil F.J. "Thermal studies on sulphonamide derivative complexes”. Thermochim. Acta, 1989, 147, 321 330; 1989, 153, 205 220; 1991, 185, 315 333.
  3. ^ Martín Gil J., Martínez Villa F., Ramos-Sánchez M.C. and Martín-Gil F.J. "Studies on beta lactam antibiotics. differential thermal analysis of cephalosporins". J. Therm. Anal. Cal., 1984, 29, 1351 7.
  4. ^ Berger K.G., Akehurst E.E. “Some applications of differential thermal analysis to oils and fats”. International Journal of Food Science & Technology, 1966, 1, 237–247.
  5. ^ Ramos Sánchez M.C., Rey F.J., Rodríguez M.L., Martín Gil F.J. and Martín Gil J. "DTG and DTA studies on typical sugars". Thermochim. Acta, 1988, 134, 55 60.
  6. ^ F.J. Rey, M.C. Ramos-Sánchez, M.L.Rodríguez, J. Martín-Gil, F.J. Martín-Gil. "DTG and DTA studies on sugar derivatives". Thermochim. Acta, 1988, 134, 67 72.
  7. ^ Rodríguez Méndez M.L., Rey F.J., Martín Gil J. and Martín Gil F.J. "DTG and DTA studies on amino acids". Thermochim. Acta, 1988, 134, 73 78.
  8. ^ Ramachandran V.S. “Applications of differential thermal analysis in cement chemistry”. Chap. V, Chemical Publishing Co., Inc., New York (1969), 92.
  9. ^ Smykatz-Kloss W. “Application of differential thermal analysis in mineralogy”. J. Therm. Anal. Cal., 1982, 23, 15-44.
  10. ^ Smykatz-Kloss W., Heil A, Kaeding L. and Roller E. “Thermal analysis in environmental studies”. In: Thermal analysis in Geosciences. Springer Berlin / Heidelberg, 1991.
  11. ^ Villanueva, PrE, Girela F. y Castellanos M. “The application of differential thermal analysis and thermogravimetric analysis to dating bone remains”. Journal of Forensic Sciences, 1976, 21,
  12. ^ Misiego-Tejeda J.C., Marcos-Contreras G.J., Sarabia Herrero F.J., Martín Gil J. and Martín Gil F.J. "Un horno doméstico de la primera Edad del Hierro de "El Soto de Medinilla" (Valladolid) y su análisis por ATD". BSAA (University of Valladolid) 1993, LIX, 89 111.
  13. ^ Kingery W.D. “A note on the differential thermal analysis of archaeological ceramics”. Archaeometry, 1974, 16, 109–112.
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