kw.\*:("Melting point")
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Approximate prediction of melting point of nitramines, nitrate esters, nitrate salts and nitroaliphatics energetic compoundsMOHAMMAD HOSSEIN KESHAVARZ.Journal of hazardous materials. 2006, Vol 138, Num 3, pp 448-451, issn 0304-3894, 4 p.Article
Estimation of melting points of organic compoundsJAIN, Akash; GANG YANG; YALKOWSKY, Samuel H et al.Industrial & engineering chemistry research. 2004, Vol 43, Num 23, pp 7618-7621, issn 0888-5885, 4 p.Conference Paper
Molecular Geometry and Melting Point Related PropertiesBO LIAN; YALKOWSKY, Samuel H.Industrial & engineering chemistry research. 2012, Vol 51, Num 51, pp 16750-16754, issn 0888-5885, 5 p.Article
Liquid―solid―liquid phase transition hysteresis loops in the ionic conductivity of ten imidazolium-based ionic liquidsVILA, J; FERNANDEZ-CASTRO, B; RILO, E et al.Fluid phase equilibria. 2012, Vol 320, pp 1-10, issn 0378-3812, 10 p.Article
Ionic liquids: Prediction of melting point by molecular-based modelFARAHANI, Nasrin; GHARAGHEIZI, Farhad; SEYYED ALIREZA MIRKHANI et al.Thermochimica acta. 2012, Vol 549, pp 17-34, issn 0040-6031, 18 p.Article
Molecular symmetry depresses the entropy of fusion of organic molecules with regard to their expected values when comparing structural isomersGILBERT, Alwyn S.Thermochimica acta. 2007, Vol 452, Num 2, pp 135-139, issn 0040-6031, 5 p.Article
Thermophysical properties of Detarium microcarpum seed flourADEDEJI, Akinbode A; ALKALI, Joseph; ADEWALE, Peter O et al.Lebensmittel - Wissenschaft + Technologie. 2012, Vol 47, Num 2, pp 233-237, issn 0023-6438, 5 p.Article
Estimation of the differential molar heat capacities of organic compounds at their melting pointPAPPA, Georgia D; VOUTSAS, Epaminondas C; MAGOULAS, Kostis et al.Industrial & engineering chemistry research. 2005, Vol 44, Num 10, pp 3799-3806, issn 0888-5885, 8 p.Article
Thermodynamic properties of LiNO3―NaNO3―KNO3―2KNO3·Mg(NO3)2 systemTAO WANG; MANTHA, Divakar; REDDY, Ramana G et al.Thermochimica acta. 2013, Vol 551, pp 92-98, issn 0040-6031, 7 p.Article
Hybrid Method to Predict Melting Points of Organic Compounds Using Group Contribution + Neural Network + Particle Swarm AlgorithmLAZZUS, Juan A.Industrial & engineering chemistry research. 2009, Vol 48, Num 18, pp 8760-8766, issn 0888-5885, 7 p.Article
Analysis of using gasification and incineration for thermal processing of wastesBEBAR, Ladislav; STEHLIK, Petr; HAVLEN, Leos et al.Applied thermal engineering. 2005, Vol 25, Num 7, pp 1045-1055, issn 1359-4311, 11 p.Conference Paper
Melting temperatures of some silicates and germanatesDOI, H; KAMIGAITO, O.Journal of materials science letters. 1985, Vol 4, Num 5, pp 615-618, issn 0261-8028Article
Ethylene glycol oligomersYEATES, S. G; HOON HONG TEO; MOBBS, R. H et al.Die Makromolekulare Chemie. 1984, Vol 185, Num 8, pp 1559-1563, issn 0025-116XArticle
Prediction of Melting Points of Organic Compounds Using Extreme Learning MachinesBHAT, Akshay U; MERCHANT, Shamel S; BHAGWAT, Sunil S et al.Industrial & engineering chemistry research. 2008, Vol 47, Num 3, pp 920-925, issn 0888-5885, 6 p.Article
Melting temperature of mixed-microstructure polybutadieneCOLBY, R. H; MILLIMAN, G. E; GRAESSLEY, W. W et al.Macromolecules. 1986, Vol 19, Num 4, pp 1261-1262, issn 0024-9297Article
The effect of thermal treatment on the phase transformation of meprobamateDOBROCSI, M; KONKOLY THEGE, I.Thermochimica acta. 1985, Vol 93, pp 121-124, issn 0040-6031Article
Cambios, durante la conservación, en los intervalos de temperaturas de fusión de aceites presumiblemente causantes de la enfermedad ilamada «síndrome tóxico» = Modification des intervalles de températures de fusion lors de la conservation des huiles supposées responsables de la maladie nommée «syndrome toxique» = Changes of melting temperature range during storage of oils presumably provoking the illness called «toxic syndrome»GOMEZ HERRERA, C; CABRERA MARTIN, J; GALLEGOS MONTES, C et al.Grasas y aceites (Sevilla). 1983, Vol 34, Num 4, pp 274-277, issn 0017-3495Article
Influence of Cu substrate surface oxides and heating rates during reflow on melting point of Sn-3.5Ag solderMITTAL, Jagjiwan; YU WEI LIN; KWANG LUNG LIN et al.Applied surface science. 2010, Vol 256, Num 11, pp 3531-3540, issn 0169-4332, 10 p.Article
Melting-point models of alkanesBURCH, Kimberly Jordan; WHITEHEAD, Earl Glen.Journal of chemical and engineering data (Print). 2004, Vol 49, Num 4, pp 858-863, issn 0021-9568, 6 p.Article
New crystalline complexes composed of a fatty acid and nicotinamideYOKOYAMA, S; UEDA, F; FUJIE, T et al.Bulletin of the Chemical Society of Japan. 1991, Vol 64, Num 10, pp 3168-3170, issn 0009-2673Article
Freezing point and melting point of barnacle muscle fibersCAILLE, J.-P.Canadian journal of physiology and pharmacology. 1983, Vol 61, Num 10, pp 1116-1121, issn 0008-4212Article
Improvement of Gel Strength and Melting Point of Fish Gelatin by Addition of Coenhancers Using Response Surface MethodologyKOLI, Jayappa M; BASU, Subrata; NAYAK, Binay B et al.Journal of food science. 2011, Vol 76, Num 6, issn 0022-1147, E503-E509Article
Effects of chemical interesterification on physicochemical properties of palm stearin and palm kernel olein blendsNORIZZAH, A. R; CHONG, C. L; CHEOW, C. S et al.Food chemistry. 2004, Vol 86, Num 2, pp 229-235, issn 0308-8146, 7 p.Article
Seasonal differences in the properties of gelatins extracted from skin of silver carp (Hypophthalmichthys molitrix)JUNJIE ZHANG; RUI DUAN; YILING WANG et al.Food hydrocolloids. 2012, Vol 29, Num 1, pp 100-105, issn 0268-005X, 6 p.Article
Thermodynamic properties of potassium nitrate-magnesium nitrate compound [2KNO3·Mg(NO3)2]REDDY, Ramana G; TAO WANG; MANTHA, Divakar et al.Thermochimica acta. 2012, Vol 531, pp 6-11, issn 0040-6031, 6 p.Article