Enthalpy relaxation of selenium observed by fast scanning calorimetry
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C. Schick | J. Málek | P. Honcová | Radim Pilař | G. Schulz
[1] Jürn W. P. Schmelzer,et al. Heat capacity measurements and modeling of polystyrene glass transition in a wide range of cooling rates , 2015 .
[2] C. Schick,et al. Glass transition cooperativity from broad band heat capacity spectroscopy , 2014, Colloid and Polymer Science.
[3] J. Málek,et al. Crystallization kinetics of a-Se , 2014, Journal of Thermal Analysis and Calorimetry.
[4] R. Golovchak,et al. Step-wise kinetics of natural physical ageing in arsenic selenide glasses , 2012, Journal of physics. Condensed matter : an Institute of Physics journal.
[5] V. Mathot,et al. Performance and calibration of the Flash DSC 1, a new, MEMS-based fast scanning calorimeter , 2012, Journal of Thermal Analysis and Calorimetry.
[6] Behrad Gholipour,et al. Ultra-fast calorimetry study of Ge2Sb2Te5 crystallization between dielectric layers , 2012 .
[7] L. Grassia,et al. Modeling volume relaxation of amorphous polymers: Modification of the equation for the relaxation time in the KAHR model , 2012 .
[8] Behrad Gholipour,et al. Characterization of supercooled liquid Ge2Sb2Te5 and its crystallization by ultrafast-heating calorimetry. , 2012, Nature materials.
[9] V. Mathot,et al. Design, performance and analysis of thermal lag of the UFS1 twin-calorimeter chip for fast scanning calorimetry using the Mettler-Toledo Flash DSC 1 , 2011 .
[10] A. D’Amore,et al. Isobaric and isothermal glass transition of PMMA: pressure-volume-temperature experiments and modelling predictions , 2011 .
[11] J. Málek,et al. Viscosity of selenium melt , 2010 .
[12] J. Málek,et al. Influence of sample form and thermal history on relaxation response , 2010 .
[13] C. Schick,et al. Fast scanning power compensated differential scanning nano-calorimeter: 1. The device , 2010 .
[14] C. Schick,et al. Fast scanning power compensated differential scanning nano-calorimeter: 2. Heat capacity analysis , 2010 .
[15] J. Málek,et al. Volume and enthalpy relaxation of a-Se in the glass transition region , 2009 .
[16] C. Schick,et al. Ultrafast thermal processing and nanocalorimetry at heating and cooling rates up to 1 MK/s. , 2007, The Review of scientific instruments.
[17] J. Málek,et al. Relaxation behavior of glassy selenium , 2007 .
[18] M. Chromčíková,et al. Viscosity and structural relaxation of 15Na2O·xMgO·(10−x)CaO·75SiO2 glasses , 2007 .
[19] J. Málek,et al. Volume relaxation of a-Se studied by mercury dilatometry , 2006 .
[20] M. Chromčíková,et al. Structural relaxation of NBS711 glass -reliability of the regression estimates of relaxation model , 2006 .
[21] C. Schick,et al. Application of an extended Tool–Narayanaswamy–Moynihan model.Part 2. Frequency and cooling rate dependence of glass transition from temperature modulated DSC , 2005 .
[22] C. Schick,et al. Non-adiabatic thin-film (chip) nanocalorimetry , 2005 .
[23] J. Málek,et al. Relaxation behavior of selenium based glasses , 2005 .
[24] P. Slobodian,et al. Enthalpy and volume relaxation of PMMA, PC, and a-Se: evaluation of aging bulk moduli , 2004 .
[25] C. Schick,et al. Ultra-fast isothermal calorimetry using thin film sensors , 2004 .
[26] D. Plazek,et al. Enthalpy recovery, creep and creep–recovery measurements during physical aging of amorphous selenium , 2003 .
[27] J. Málek,et al. Kinetic phenomena in non-crystalline materials studied by thermal analysis , 2003 .
[28] J. Saiter. PHYSICAL AGEING IN CHALCOGENIDE GLASSES , 2001 .
[29] J. Saiter,et al. Enthalpy relaxation in GexSe1−x chalcogenide glasses , 1998 .
[30] K. Matsuishi,et al. Dynamics of glass transition of bulk a-Se and Se clusters incorporated into zeolites , 1998 .
[31] S. Simon. Enthalpy recovery of poly(ether imide) : Experiment and model calculations incorporating thermal gradients , 1997 .
[32] I. Hodge. Enthalpy relaxation and recovery in amorphous materials , 1994 .
[33] L. Nicolais,et al. Principal features of structural relaxation in glassy polymers. A Review , 1994 .
[34] J. Hutchinson,et al. Thermal cycling of glasses. III, Upper peaks , 1990 .
[35] George W. Scherer,et al. Relaxation in Glass and Composites , 1986 .
[36] J. Hutchinson,et al. Effects of thermal history on structural recovery of glasses during isobaric heating , 1984 .
[37] I. Hodge,et al. Effects of annealing and prior history on enthalpy relaxation in glassy polymers. 2. Mathematical modeling , 1982 .
[38] J. C. Tucker,et al. Dependence of the Fictive Temperature of Glass on Cooling Rate , 1976 .
[39] P. B. Macedo,et al. Analysis of Structural Relaxation in Glass Using Rate Heating Data , 1976 .
[40] J. C. Tucker,et al. Dependence of the glass transition temperature on heating and cooling rate , 1974 .
[41] A. J. Kovacs,et al. Transition vitreuse dans les polymères amorphes. Etude phénoménologique , 1964 .
[42] A. Kovacs. Transition vitreuse dans les polymeres amorphes , 1964 .
[43] A. Q. Tool,et al. RELATION BETWEEN INELASTIC DEFORMABILITY AND THERMAL EXPANSION OF GLASS IN ITS ANNEALING RANGE , 1946 .