Dodatkowe przykłady dopasowywane są do haseł w zautomatyzowany sposób - nie gwarantujemy ich poprawności.
This is due to relativistic effects, which also accounts for the relatively low decomposition temperature of -125 C.
Thermal decomposition temperature, as measured by the isoteniscope procedure, is between 440 and 465 C.
The temperature at which such fragmentation occurs is often called the decomposition temperature.
Whewellite is used as a thermogravimetric analysis standard due to its well known decomposition temperatures and products.
The decomposition temperature, as well as the crystallization rate increased with increasing fiber content.
Uncontrolled reheating of the material results in reaching the decomposition temperature before the melting point is reached.
Using this device, characteristics such as the melting point, phase transitions and decomposition temperature of an explosive may be determined.
Thermoset materials are also better suited to high-temperature applications up to the decomposition temperature.
Decomposition temperatures are not sharp and depend on pressure, temperature, and the concentration of each species in the compound.
Their relatively low decomposition temperature makes them suitable for flame retarding cellulose based materials (paper/wood).
The decomposition temperature of a substance is the temperature at which the substance chemically decomposes.
The result of this test is the self-accelerating decomposition temperature (SADT).
The elements in the fireball are present as oxides, unless the temperature is above the decomposition temperature of a given oxide.
In contrast, the macrocyclic complexes undergo very limited conformational and no configurational exchange up to their decomposition temperatures.
The method involves heating the carbonates to their decomposition temperatures using hexamethylphosphoramide or toluene as a solvent.
The high decomposition temperature of PN allows sealing machines to run faster and hotter than was possible using red phosphorus.
Generally it is produced by heating a hydrocarbon nearly to its decomposition temperature, and permitting the graphite to crystallise (pyrolysis).
At the peritectic decomposition temperature the compound, rather than melting, decomposes into another solid compound and a liquid.
Examples of chemical decomposition reactions common in calcination processes, and their respective thermal decomposition temperatures include:
In the plastic, leather, and other industries, modified azodicarbonamide (average decomposition temperature 170 C) contains additives that accelerate the reaction or react at lower temperatures.
When looking at thermal stability, the typical variables measured include glass transition, initial decomposition temperature, degradation temperature and the melting temperature range.
The decomposition temperature changes depending on the substituent that is attached to the monomer used in the polymerization of the high refractive index polymer.
'Chemical formula's, melting temperatures, decomposition temperatures, form (liquid, powder, crystal, etc.), if it will explode, if it is poisonous and its usage.
As long as the difference between melting and decomposition temperatures is greater than 300 Kelvin, a material can be melted and applied as a coating via plasma spraying.
So aluminium oxide is more stable than chromium oxide (at least at normal temperatures, and in fact all the way up to the decomposition temperatures of the oxides).