| 1 - 6 |
Clarification of Some Kinetic Concepts in Solid-State Reactions
Criado JM, Ortega A |
| 7 - 16 |
Heat-Capacities of 16 Small Peptides (N-Acetyl-N’-Methylamino Acid-Amides) Measured by Differential Scanning Calorimetry
Abate L, Dellagatta G, Somsen G |
| 17 - 32 |
Kinetic Investigations of Microbial-Metabolism by Means of Flow Calorimeters
Holzel R, Motzkus C, Lamprecht I |
| 33 - 40 |
Thermodynamic Properties of K2ZnCl4 Between 5 and 350 K
Vanmiltenburg JC, Noiret I, Hedoux A |
| 41 - 49 |
Thermal-Behavior of Ammonium Polyphosphate Inorganic Compound Mixtures .1. Talc
Levchik GF, Selevich AF, Levchik SV, Lesnikovich AI |
| 51 - 59 |
Kinetics of the Thermal-Decomposition of Dicarboxylic-Acids
Muraishi K, Suzuki Y, Kikuchi A |
| 61 - 71 |
The Denaturation Behavior of Calmodulin in Sodium N-Dodecyl Sulfate, Dodecyl Trimethyl Ammonium Bromide, Guanidine-Hydrochloride and Urea
Moosavimovahedi AA, Naderi GA, Farzami B |
| 73 - 85 |
Thermal Investigation and Stereochemical Studies of Some Cyclic Ligand Complexes of Nickel(II), Copper(II), Zinc(II) and Cadmium(II) in the Solid-State .2.
Mitra S, Kundu P, Singh RB |
| 87 - 103 |
Thermal Investigation and Stereochemical Studies of Methylamine, Diethanolamine, 2,2’-Bipyridyl and 1,10-Phenanthroline Complexes of Nickel(II) in the Solid-State
Mitra S, Singh LN |
| 105 - 114 |
A Simple Method for Estimating the Autoignition Temperature of Solid-Energetic Materials with a Single Nonisothermal DSC or DTA Curve
Huang CC, Wu TS |
| 115 - 126 |
The Influence of Temperature Shifts on the Kinetic Evaluation of Nonisothermal Thermogravimetric Data
Chen D, Dollimore D |
| 127 - 136 |
Thermal-Decomposition of Rare-Earth Element Complexes with 3,4-Dihydroxybenzoic Acid in Air
Brzyska W, Kula A |
| 137 - 145 |
Thermoanalytical Resolution of Hydrogen-Influenced Reductive Events in the Decomposition Course of Ammonium Paratungstate
Fouad NE, Nohman AK, Zaki MI |
| 147 - 156 |
Quantitative Thermogravimetric Analysis of Hematite, Goethite and Kaolinite in Western-Australian Iron-Ores
Weissenborn PK, Dunn JG, Warren LJ |
| 157 - 169 |
Studies on Double Selenates .12. Thermal-Decomposition of Ammonium Selenate and of Double Selenates of Lanthanide, and Yttrium, and Ammonium
Crespi MS, Ribeiro CA, Ionashiro M |
| 171 - 180 |
Shape-Analysis of the Alpha-T Curves Obtained by CRTA with Constant Acceleration of the Transformation
Ortega A, Perezmaqueda LA, Criado JM |
| 181 - 199 |
Identification of the Thermal-Processes in the Binary Cu(NO3)2.3H2O and Cr(NO3)3.9H2O Systems
Gubrynowicz L |
| 201 - 209 |
A Graphical-Method for the Detection of the Occurrence of Thermal-Processes in Mixed Systems by Means of Derivatography
Gubrynowicz L |
| 211 - 224 |
A Kinetic and Mechanistic Study of the Thermal-Decomposition of Copper(II) Mellitate
Galwey AK, Mohamed MA |
| 225 - 232 |
A Kinetic and Mechanistic Study of the Thermal-Decomposition of Copper(II) Permanganate
Galwey AK, Fakiha SA, Abdelsalaam KM |
| 233 - 241 |
Gibbs Energy of Formation of Orthorhombic Cazro3
Jacob KT, Waseda Y |
| 243 - 251 |
Thermodynamic of Ion-Pair Association .1. Conductance of Sodium Tetraphenylborate in 1-Alkanols
Shehatta I |
| 253 - 268 |
Mossbauer Spectroscopic and DC Electrical-Conductivity Study of the Thermal-Decomposition of Some Iron(II) Dicarboxylates
Nikumbh AK, Phadke MM, Date SK, Bakare PP |
| 269 - 274 |
Phase-Diagram of the Fevo4-Fe2Wo6 System
Walczak J, Rychlowskahimmel I |
