| 1 - 16 |
Mechanism and kinetics of thermal decomposition of carbonates
L'vov BV |
| 17 - 22 |
Thermokinetic investigation of effect of temperature on optimum NaCl concentration for petroleum bacterial growth
Nan ZD, Tan ZC |
| 23 - 26 |
Low temperature heat capacity and thermal stability of nanocrystalline nickel
Wang L, Tan ZC, Meng SH, Liang DB, Liu BP |
| 27 - 34 |
Thermodynamics of the NaX-DyX3 (X = Cl, Br, I) molten salt systems
Baglio JA, Brock LR, Struck CW |
| 35 - 42 |
The chemistry of hydrazine derivatives - thermal behavior and characterisation of hydrazinium salts and metal hydrazine complexes of 4,5-imidazoledicarboxylic acid
Premkumar T, Govindarajan S |
| 43 - 49 |
The decomposition kinetics of the SiO2 coated nano-scale calcium carbonate
Shui M, Yue LH, Hua YM, Xu ZD |
| 51 - 57 |
Thermal decomposition of ammonium dioxodiaquaperoxyoxalatouranate(VI) hydrate
Sailaja BBV, Kebede T, Raju GS, Rao MSP |
| 59 - 64 |
Thermal characteristics of fatty acid copper(II) carboxylate complexes with nicotinamide and diethylnicotinamide ligands
Petricek S, Kozlevcar B |
| 65 - 72 |
The thermal stability of ethyl diazoacetate
Clark JD, Shah AS, Peterson JC, Patelis L, Kersten RJA, Heemskerk AH, Grogan M, Camden S |
| 73 - 79 |
Detonation properties of ethyl diazoacetate
Clark JD, Shah AS, Peterson JC, Patelis L, Kersten RJA, Heemskerk AH |
| 81 - 90 |
A new approach to solid-state reactions kinetics analysis: the application of assisting functions to basic equations for isothermal conditions
Bezjak A, Kurajica S, Sipusic J |
| 91 - 98 |
Application of the Arrhenius equation to solid state kinetics: can this be justified?
Galwey AK, Brown ME |
| 99 - 100 |
Comments on "The non-isothermal devitrification of glasses in the CaO4GeO(2)-SrO4GeO(2) composition range" by M. Catauro and A. Marotta (Thermochimica Acta 371 (2001) 121-126)
Ozawa T |
