| 1 - 8 |
The effect of chemical modification on starch studied using thermal analysis
Aggarwal P, Dollimore D |
| 9 - 13 |
The use of thermal analysis to study the change in air-freshner gels
Aggarwal P, Pereira S, Dollimore D |
| 15 - 23 |
An investigation of the evaporation of stearic acid using a simultaneous TG-DTA unit
Lerdkanchanaporn S, Dollimore D |
| 25 - 32 |
A simultaneous TG-DTA study of the degradation in nitrogen of cellulose to carbon, alone and in the presence of other pharmaceutical excipients
Lerdkanchanaporn S, Dollimore D, Alexander KS |
| 33 - 48 |
A comparison of the thermal decomposition of preservatives, using thermogravimetry and rising temperature kinetics
Dollimore D, O'Connell C |
| 49 - 57 |
Kinetic studies of thermal degradation of natural cellulosic materials
Wu YW, Dollimore D |
| 59 - 66 |
Applications of thermal methods of analysis to raw and processed minerals
Dunn JG |
| 67 - 76 |
Thermal analytical investigation of unaltered Ca(OH)(2) in dated mortars and plasters
Adams J, Dollimore D, Griffiths DL |
| 77 - 85 |
Melting by temperature-modulated calorimetry
Wunderlich B, Okazaki I, Ishikiriyama K, Boller A |
| 87 - 94 |
Isotropization of nematic liquid crystals by TMDSC
Chen W, Dadmun M, Zhang G, Boller A, Wunderlich B |
| 95 - 107 |
Kinetics of irreversible melting of polyethylene crystals revealed by temperature modulated DSC
Toda A, Tomita C, Hikosaka M, Saruyama Y |
| IX - IX |
Advances in thermal science methods and materials. A collection of papers presented at the 25th North American Thermal Analysis Conference McLean Virginia, USA, 7-9 September 1997 - Preface
Riga A, Altman M, Collins R |
| 109 - 121 |
Modulated differential scanning calorimetry: 13. Analysis of morphology of poly(ethyl methacrylate) polyurethane interpenetrating polymer networks
Hourston DJ, Song M, Schafer FU, Pollock HM, Hammiche A |
| 123 - 133 |
A study of ash deposits on the heat exchange tubes using SDT/MS and XRD techniques
Xie Y, Xie W, Pan WP, Riga A, Anderson K |
| 135 - 149 |
Oxidative behavior of polymers by thermogravimetric analysis, differential thermal analysis and pressure differential scanning calorimetry
Riga A, Collins R, Mlachak G |
| 151 - 163 |
Thermal analysis as an aid to forensics: Alkane melting and oxidative stability of wool
Riga A |
| 165 - 174 |
Characterising the glass transition and relaxation kinetics by conventional and temperature-modulated differential scanning calorimetry
Hutchinson JM |
| 175 - 178 |
Medical device processing development based on rheology and thermal analysis
Westphal SP, Khare A, Ling MTK, Woo L |
| 179 - 185 |
Effect of ionizing radiation on the thermal oxidative stability of medical polymers
Woo L, Ling MTK, Ding SY, Westphal SP |
| 187 - 196 |
The evolution of hot-stage microscopy to aid solid-state characterizations of pharmaceutical solids
Vitez IM, Newman AW, Davidovich M, Kiesnowski C |
| 197 - 201 |
Applications for skimmer coupling systems, combining simultaneous thermal analysers with mass spectrometers
Kaisersberger E, Post E |
| 203 - 213 |
Thermal behavior of asphalt cements
Claudy PM, Letoffe JM, Martin D, Planche JP |
| 215 - 221 |
Fictive glass-transition temperature and fragility for the phase diagram of the system fructose/water
Mehl PM |
| 223 - 227 |
Using thermal analysis methods to better understand asphalt rheology
Planche JP, Claudy PM, Letoffe JM, Martin D |
