| 1 - 10 |
Enthalpies of mixing of liquid Bi-Cu and Bi-Cu-Sn alloys relevant for lead-free soldering
Flandorfer H, Sabbar A, Luef C, Rechchach M, Ipser H |
| 11 - 16 |
Isothermal crystallization kinetics of isotactic polypropylene with inorganic fullerene-like WS2 nanoparticles
Naffakh M, Martin Z, Marco C, Gomez MA, Jimenez I |
| 17 - 19 |
Complex formation of 18-crown-6 with metal cations and ammonium ions in dioxane-water mixtures
Buschmann HJ, Mutihac RC, Schollmeyer E |
| 20 - 24 |
Effects of MicroPCMs on the fabrication of MicroPCMs/polyurethane composite foams
You M, Zhang XX, Li W, Wang XC |
| 25 - 30 |
Study of the glass transition in amorphous Se by differential scanning calorimetry
Abu-Sehly AA, Abu El-Oyoun M, Elabbar AA |
| 31 - 37 |
A study of the thermo-mechanical behavior of Boehmite-polyamide-6 nanocomposites
Ozdilek C, Norder B, Picken SJ |
| 38 - 40 |
The phase diagram of the RbF-RbI system
Ding YM, Wu P, Liu X, Zhang TT |
| 41 - 45 |
Thermotropic phase behavior in aqueous mixtures of dioctadecyldimethylammonium bromide and alkyltrimethylammonium bromide surfactant series studied by differential scanning calorimetry
Alves FR, Feitosa E |
| 46 - 49 |
Calorimetric measurements on plutonium rich (U,Pu)O-2 solid solutions
Kandan R, Babu R, Nagarajan K, Rao PRV |
| 50 - 54 |
Calibration and desmearing of a differential thermal analysis measurement signal - upon heating and cooling - in the high-temperature region
Baumann W, Leineweber A, Mittemeijer EJ |
| 55 - 63 |
Effect of the heating rate on the devolatilization of biomass residues
Biagini E, Fantei A, Tognotti L |
| 64 - 73 |
Hydration characteristics and hydration products of tricalcium silicate doped with a combination of MgO, Al2O3 and Fe2O3
Stephan D, Dikoundou SN, Raudaschl-Sieber G |
| 74 - 83 |
Thermal degradation of light-cured dimethacrylate resins - Part I. Isoconversional kinetic analysis
Achilias DS, Karabela MM, Sideridou ID |
| 84 - 94 |
Conversion of the volatile thermal decomposition products of polyamide-6,6 and ABS over Y zeolites
Bozi J, Czegeny Z, Blazso M |
| 95 - 98 |
Heat capacity of La6UO12, Sm6UO12 and Eu6UO12 by DSC
Krishnan RV, Manikandan R, Jena H, Nagarajan K |
