Microwave calorimetry using X-rays

Thermochimica Acta

Volumn 526, Issue 1-2, 2011, Pages 137-142

  Nicula, R ^a   Stir, M ^a   Wurm, A ^b   Catala Civera J M ^c   Ishizaki, K ^a   Vaucher, S ^a   Zhuravlev, E ^b   Schick, C ^b  

^a SWISS FEDERAL LABORATORIES FOR MATERIALS SCIENCE AND TECHNOLOGY   (Switzerland)

^b UNIVERSITY OF ROSTOCK   (Germany)

^c UNIVERSITAT POLITÈCNICA DE VALÈNCIA   (Spain)

Author keywords

Heat capacity; Magnetostructural transformations; Microwave interaction with condensed matter; Synchrotron radiation; Thermal expansion; X ray diffraction

Indexed keywords

ALTERNATIVE APPROACH; FACE-CENTERED CUBIC; HEXAGONAL CLOSE-PACKED; IN-SITU; MAGNETIC SPIN; MAGNETOSTRUCTURAL TRANSFORMATION; MICROWAVE CALORIMETRY; MICROWAVE INTERACTION WITH CONDENSED MATTER; POWDER DIFFRACTION; STRUCTURAL PHASE TRANSITION; TEMPERATURE RANGE; TIME-RESOLVED X-RAY DIFFRACTION;

CALORIMETERS; COBALT; DIFFERENTIAL SCANNING CALORIMETRY; DIFFRACTION; MAGNETIC MATERIALS; SPECIFIC HEAT; SYNCHROTRON RADIATION; SYNCHROTRONS; THERMAL EXPANSION; X RAY DIFFRACTION;

MICROWAVES;

EID: 80455122799     PISSN: 00406031     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.tca.2011.09.007     Document Type: Article

References (40)

1. C. Leonelli, and T.J. Mason Microwave and ultrasonic processing: now a realistic option for industry Chem. Eng. Process. 49 2010 885 900
2. S.C. Kashyap Microwave processing - a new dimension in synthesis of materials IEEE Proc. Applied Electromagn. Conf. AEMC 2009 Kolkata, December 14-16 2009
3. C.R. Strauss, and D.W. Rooney Accounting for clean, fast and high-yielding reactions under microwave conditions Green Chem. 12 2010 1340 1344
4. D.E. Clark, and W.H. Sutton Microwave processing of materials Annu. Rev. Mater. Res. 26 1996 299 331 (Pubitemid 126638468)
5. E. Karmazsin Use of low- and high-power microwave energy for thermal analysis Thermochim. Acta 110 1987 289 295
6. E. Karmazsin, R. Barhoumi, P. Satre, and F. Gaillard Use of microwaves in thermal analysis J. Therm. Anal. 30 1985 43 47
7. E. Karmazsin, and S. Bechu Temperature regulation for thermal analysis under microwave radiation J. Therm. Anal. 41 1994 1639 1649
8. G.M.B. Parkes, P.A. Barnes, E.L. Charsley, and G. Bond Microwave differential thermal analysis in the investigation of thermal transitions in materials Anal. Chem. 71 1999 5026 5032 (Pubitemid 29532145)
9. G.M.B. Parkes, G. Bond, P.A. Barnes, and E.L. Charsley Development of a new instrument for performing microwave thermal analysis Rev. Sci. Instrum. 71 2000 168 175
10. G.M.B. Parkes, P.A. Barnes, G. Bond, and E.L. Charsley Qualitative and quantitative aspects of microwave thermal analysis Thermochim. Acta 356 2000 85 96
11. G.M.B. Parkes, and H.M. Williams Development of a microwave thermogravimetric analyser based on a multimode oven Rev. Sci. Instrum. 76 2005 065108
12. A. Nesbitt, P. Navabpour, B. Degamber, C. Nightingale, T. Mann, G. Fernando, and R.J. Day Development of a microwave calorimeter for simultaneous thermal analysis, infrared spectroscopy and dielectric measurements Meas. Sci. Technol. 15 2004 2313 2324 (Pubitemid 39500811)
13. J.G.P. Binner, D.M. Price, M. Reading, and B. Vaidhyanathan Hybrid microwave/conventionally heated calorimeter Rev. Sci. Instrum. 76 2005 064902
14. J.G.P. Binner, D.M. Price, M. Reading, and B. Vaidhyanathan Modulated temperature calorimetry of silver iodide in the presence of microwave radiation Thermochim. Acta 446 2006 156 160
15. A. Bergamaschi, A. Cervellino, R. Dinapoli, F. Gozzo, B. Henrich, L. Johnson, P. Kraft, A. Mozzanica, B. Schmitt, and X. Shi The MYTHEN detector for X-ray powder diffraction experiments at the Swiss Light Source J. Synchrotron Radiat. 17 2010 653 668
16. R. Nicula, M. Stir, K. Ishizaki, J.-M. Catal-Civera, and S. Vaucher Rapid nanocrystallization of soft-magnetic amorphous alloys using microwave induction heating Scripta Mater. 60 2009 120 123
17. R. Nicula, K. Ishizaki, M. Stir, J.-M. Catal-Civera, and S. Vaucher Microwave energy absorption driven by dynamic structural and magnetization states in Fe85B15 metallic glass ribbons Appl. Phys. Lett. 95 2009 174104
18. R. Nicula, M. Stir, K. Ishizaki, J.-M. Catala-Civera, and S. Vaucher Nanocrystallization of amorphous alloys using microwaves: in situ time-resolved synchrotron radiation studies J. Phys. Conf. Ser. 144 2009 012109
19. M. Stir, K. Ishizaki, S. Vaucher, and R. Nicula Mechanism and kinetics of the reduction of magnetite to iron during heating in a microwave E-field maximum J. Appl. Phys. 12 2009 124901
20. S. Vaucher, M. Stir, K. Ishizaki, J.M. Catala-Civera, and R. Nicula Reactive synthesis of TiAl intermetallics during microwave heating in an E-field maximum Thermochim. Acta 522 2011 151 154
21. S.M. Sarge, W. Hemminger, E. Gmelin, G.W.H. Hohne, H.K. Cammenga, and W.J. Eysel J. Therm. Anal. 49 1997 1125 1134
22. J. Cheng, R. Roy, and D. Agrawal Experimental proof of major role of magnetic field losses in microwave heating of metal and metallic composites J. Mater. Sci. Lett. 20 2001 1561 1563 (Pubitemid 33025435)
23. A.F. Guillermet Critical evaluation of the thermodynamic properties of cobalt Int. J. Thermophys. 8 1987 481 510 (Pubitemid 17621623)
24. E. Grüneisen Theorie des festen Zustandes einatomiger Elemente Ann. Phys. 39 1912 257 306
25. G. Grimvall Thermophysical Properties of Materials 1986 North-Holland Amsterdam
26. K. Wang, and R.R. Reeber The role of defects on the thermophysical properties: thermal expansion of V, Nb, Ta, Mo and W Mater. Sci. Eng. R: Rep. R23 1998 101 137 (Pubitemid 128402349)
27. S. Raju, K. Sivasubramanian, and E. Mohandas On the thermodynamic interrelationship between enthalpy, volume thermal expansion and bulk modulus Scripta Mater. 44 2001 269 274 (Pubitemid 32195722)
28. S. Raju, K. Sivasubramanian, and E. Mohandas On the isobaric volume dependence on the ratio between volume thermal expansivity and specific heat (αV/Cp) Mater. Lett. 57 2003 3793 3801
29. J. Kouam, and P. Rochegude On the prediction of thermal expansion of metals J. Mater. Sci. Lett. 15 1996 600 602 (Pubitemid 126740378)
30. J.B. Wachtman, T.G. Scuderi, and G.W. Cleek Linear thermal expansion of aluminium oxide and thorium oxide from 100 °C to 1100 °C J. Am. Ceram. Soc. 45/7 1962 319 323
31. I. Suzuki, S. Okajima, and K. Seya Thermal expansion of single-crystal manganosite J. Phys. Earth 27 1979 63 69
32. J. Shanker, S.S. Kushwah, and P. Kumar Theory of thermal expansivity and bulk modulus for MgO and other minerals at high temperatures Physica B 233 1997 78 83
33. O. Kubaschewski, C.B. Alcock, and P.J. Spencer Materials Thermochemistry sixth ed. 1993 Pergamon Press
34. W. Betteridge The properties of metallic cobalt Prog. Mater. Sci. 24 1979 51 142
35. P. Toledano, G. Krexner, M. Prem, H.-P. Weber, and V.P. Dimitriev Theory of the martensitic transformation in cobalt Phys. Rev. B 64 2001 144104
36. W. Bendick, and W. Pepperhof Thermally excited states in cobalt and cobalt alloys J. Phys. F: Met. Phys. 9 1979 2185 2194
37. Yu.M. Mishin, and I.M. Razumovskii A theory of heterophase fluctuations and application to the FCC-HCP transformation in cobalt Acta Metall. Mater. 40 1992 2707 2716 (Pubitemid 23567877)
38. E. Klugmann, H.J. Blythe, and F. Walz Investigation of thermomagnetic effects in monocrystalline cobalt near the martensitic phase transition Phys. Status Solidi A 146 1994 803 813
39. J. Castro, and H.J. Blythe An analysis of the high-temperature initial susceptibility of single-crystal cobalt J. Phys. Condens. Matter 8 1996 851 863 (Pubitemid 126593512)
40. J.E. Bidaux, and B. Cao Elastic behaviour of pure cobalt near the spin-reorientation phase transition J. Phys. Condens. Matter 3 1991 2263 2272