kw.\*:("Photopyroelectric technique")
Results 1 to 6 of 6
Selection :
Thermal characterization during dehydration of nitrifying and denitrifying microbiological mud encapsulated in silica gelAGUIRRE, G; ARRIOLA, G; GOMEZ-HERNANDEZ, J et al.Thermochimica acta. 2004, Vol 421, Num 1-2, pp 211-215, issn 0040-6031, 5 p.Article
Thermal Effusivity of the Pb0.ssLn0.08Ti0.98Mn0.02O3 (Ln=La, Eu) Ferroelectric Ceramic System by Inverse Photopyroelectric TechniqueFLORES-CUAUTLE, J. J. A; CRUZ-OREA, A; SUASTE-GOMEZ, E et al.Ferroelectrics (Print). 2009, Vol 386, pp 36-40, issn 0015-0193, 5 p.Article
Photopyroelectric study of thermal and pyroelectric parameters temperature dependence of pyroelectric materialsHADJ SAHRAOUI, A; LONGUEMART, S; DADARLAT, D et al.Ferroelectrics (Print). 2003, Vol 289, pp 97-106, issn 0015-0193, 10 p.Article
Nitrifying and denitrifying microbiological mud encapsulated by the sol-gel methodAGUIRRE, G; ARRIOLA, G; LOPEZ, T et al.Journal of sol-gel science and technology. 2005, Vol 33, Num 1, pp 59-64, issn 0928-0707, 6 p.Conference Paper
Investigating thermal properties of biodiesel/diesel mixtures using photopyroelectric techniqueGUIMARAES, A. O; MACHADO, F. A. L; DA SILVA, E. C et al.Thermochimica acta. 2012, Vol 527, pp 125-130, issn 0040-6031, 6 p.Article
Growth and characterization of an organometallic nonlinear optical crystal of manganese mercury thiocyanate (MMTC)JOSEPH, Ginson P; PHILIP, J; RAJARAJAN, K et al.Journal of crystal growth. 2006, Vol 296, Num 1, pp 51-57, issn 0022-0248, 7 p.Article