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Heat --- Mass transfer --- Porous materials --- Convection --- Congresses. --- Thermal properties --- Permeability --- Congresses --- Heat - Convection - Congresses. --- Mass transfer - Congresses. --- Porous materials - Thermal properties - Congresses. --- Porous materials - Permeability - Congresses.
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Nonmetallic materials --- Polymers --- Composite materials --- Materials at low temperatures --- Thermal properties --- Congresses --- 678.01 --- -Materials at low temperatures --- -Nonmetallic materials --- -Polymers --- -Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Materials --- Low temperature materials --- Low temperature engineering --- Strength of materials --- Composites (Materials) --- Multiphase materials --- Reinforced solids --- Solids, Reinforced --- Two phase materials --- Properties. Defects. Constitution. Serviceability. Sampling. Analysis. Testing --- -Congresses --- -Properties. Defects. Constitution. Serviceability. Sampling. Analysis. Testing --- 678.01 Properties. Defects. Constitution. Serviceability. Sampling. Analysis. Testing --- -678.01 Properties. Defects. Constitution. Serviceability. Sampling. Analysis. Testing --- Polymere --- Thermal properties&delete& --- Nonmetallic materials - Thermal properties - Congresses --- Polymers - Thermal properties - Congresses --- Composite materials - Thermal properties - Congresses --- Materials at low temperatures - Congresses
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recently discovered advantages of amorphous forms of medicines/pharmaceutical products which focused a significant part of industry-related efforts on the GFA (Glass Forming Ability) and the glass temperature (T) versus pressure g dependences. 1 b ? 0 ? ? o ? P ? Pg P ? Pg 0 ? ? ? ? T (P ) = F (P )D (P ) =T 1 + exp ? g g ? 0 ? ? ? ? c + Pg ? ? ? ? 400 1 b 0 o ? ? ? ? P ? P P ? P g g 0 ? ? ? ? T (P ) = F (P )D (P ) =T 1 + exp ? g g 0 ? ? ? ? c ? + P max g ? ? ? ? T ~7 GPa g max P ~ 304 K Liquid g 300 1 HS glass 0 200 -1 mSG ?=0. 044 Liquid -2 100 -3 glass ?=0. 12 -1. 2 -0. 9 -0. 6 -0. 3 0. 0 log T 10 scaled -1 0 1 2 3 4 5 6 7 8 9 10 11 12 P (GPa) g 19 Figure 1. T he pressure evolution of the glass temperature in gl Th ye s cerol ol . id curve shows the parameterization of experimental data via the novel, modifie d Glat Sizm elon type equation, given in the Figure.
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