Strona 1 z 2
6. Literatura
1. F. Kaczmarek, Wstęp do fizyki laserów, PWN, Warszawa, 1986.
2. R. JóĽwicki, Optyka laserów, WNT, Warszawa, 1981.
3. M. Pluta, Advanced Light Microscopy, vol. 2, Specialized Methods, PWN - Elsevier,
Warszawa - Amsterdam, 1989.
4. W.J. Parker, R.J. Jenkins, C.P. Butler, G.L. Abbott, Flash Method of Determining
Thermal Diffusivity, Heat Capacity and Thermal Conductivity, J. Appl. Phys., vol. 32
(1961) p. 1679.
5. W.J. Parker, R.J. Jenkins, Thermal Conductivity Measurements of Bismuth Telluride
in the Presence of a 2 MeV Electron Beam, Adv. Energy Conversion, vol. 2 (1962) p.
872.
6. S. Nasu, S. Fukushima, T. Ohmichi, T. Kikuchi, Thermal Diffusivity of Uranium by
Laser Pulse Method from 20 to 650 ° C, Jap. J. Appl. Phys., vol. 7 (1968) p. 662.
7. F. Righini, A. Cezairliyan, Pulse Method of Thermal Diffusivity Measurements (A
Review), High Temp. - High Press., vol. 5 (1973) p. 481.
8. D.L. Balageas, Techniques de l’Ingenieur, vol. 10 (1986) R 2 p. 955.
9. D.A. Watt, Theory of Thermal Diffusivity by Pulse Technique, Brit. J. Appl. Phys.,
vol. 17 (1986) p. 231.
10. R.E. Taylor, Critical Evaluation of Flash Method for Measuring Thermal
Conductivity, Rev. Int. Htes Temp. et Refract, vol. 12 (1975) p. 141.
11. R.D. Cowan, Pulse Method of Measuring Thermal Diffusivity at High Temperatures,
J. Appl. Phys. vol. 14 (1963) p. 926.
12. R.C. Heckman, Finite Pulse-Time and Heat-Loss Effects in Pulse Thermal
Diffusivity Measurements, J. Appl. Phys., vol 44 (1973) p. 1455.
13. J.C. Clark, R.E. Taylor, Radiation Loss in the Flash Method for Thermal Diffusivity,
J. Appl. Phys., vol. 46 (1975) p. 714
14. J.A. Cape, G.W. Lehman, T emperature and Finite-Time Efects in the Flash Method
for Measuring Thermal Diffusivity, J. Appl. Phys. vol. 34 (1963) p. 1909.
15. H.M. James, Some extensions of the Flash Method for Measuring Thermal
Diffusivity, J. Appl. Phys., vol. 51 (1980) p. 4666.
16. N.S. Srivasan, X.G. Xiao, S. Seetharaman, Radiation Effects in High-Temperature
Thermal Diffusion Measurements using the Laser Flash Method, J. Appl. Phys., vol 75
(1994) p. 2325.
http://lodd.p.lodz.pl/ekon/lfm4.htm
2008-10-09
Strona 2 z 2
17. R.E. Taylor, L.M. Clark III, High Temp. - High Press. vol. 6 (1974) p. 62.
18. K. Beedham, I.P. Dalrymple, The measurement of thermal diffusivity by the flash
method. An Investigation into Errors Arising from the Boundary Conditions, Rev. Htes
Temp. et Refract., vol. 7 (1970) p. 278.
19. J.A. MacKay, J.T. Schriempf, Corrections for nonuniform surface-heating errors in
flash-method thermal-diffusivity measurements, J. Appl. Phys., vol. 47 (1976) p. 1668.
20. R.E. Taylor, Critical Evaluation of Flash Method for Measuring Thermal
Diffusivity, Rev. Htes Temp. et Refract., vol. 12 (1975) p. 141.
21. J.F. Kerrisk, Thermal Diffusivity of Heterogenous Materials, J. Appl. Phys., vol. 42
(1971) p. 267.
22. J.F. Kerrisk, Thermal Diffusivity of Heterogenous Materials. II. Limits of the Steady-
State Approximation, J. Appl. Phys., vol. 43 (1972) p. 112.
23. K. RoŜniakowski, T.W. Wojtatowicz, On the application of a Laser Flash Method
for building materials, J. Mat. Sci. Lett., vol. 9 (1986) p. 995.
24. P. Klemm, K. RoŜniakowski, T.W. Wojtatowicz, Eksperymentalne badanie
materiałów fazowozmiennych przy pomocy LFM, Mat. 6 Konferencji Naukowo-
Technicznej "Fizyka Budowli w Teorii i Praktyce", Łódź, czerwiec 1997, str. 216.
25. T.W. Wojtatowicz, K. RoŜniakowski, L. Wojtczak, The influence of a phase change
on the thermal history of a sample undergoing laser irradiation, J. Mat. Sci., vol. 32
(1997) p. 2671.
26. T.W. Wojtatowicz, Badania właściwości fizycznych ciał porowatych przy pomocy
promieniowania laserowego, Praca doktorska, Uniwersytet Łódzki, Łódź, 1996.
Poprzednia strona
http://lodd.p.lodz.pl/ekon/lfm4.htm
2008-10-09