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High-Value Utilization of Amaranth Residue and Waste LDPE by Co-Pyrolysis. [PDF]
MoleculesKaraeva J +5 more
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Hydroxylation and sulfidation for nickel recovery from a spent catalyst containing the chelating agent, 2,2'-bipyridine. [PDF]
RSC AdvIwai H +5 more
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Rapid detection of illegal selective androgen receptor modulators in unregistered supplements using a combination of selected solid-state analytical methods. [PDF]
ADMET DMPKJendrzejewska I +5 more
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Towards Greener Polymers: Poly(octamethylene itaconate-<i>co</i>-succinate) Synthesis Parameters. [PDF]
Polymers (Basel)Miętus M +2 more
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Material Characterization of Silicones for Additive Manufacturing. [PDF]
Polymers (Basel)Katrakova-Krüger D +2 more
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“Quasi-isothermal” thermogravimetry
Analytica Chimica Acta, 1971A new method has been worked out which allows the implementation of a special heating program according to which the temperature of the sample is rapidly increased so long as no changes occur in it, while it ensures nearly isothermal conditions when reactions connected with weight change are taking place.
F. Paulik, J. Paulik
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2016
Thermogravimetry is the study of the relationship between a sample's mass and its temperature. Thus it is possible to study physical or chemical processes that cause a material to lose volatile gases. These include sublimation, evaporation, and thermal degradation.
Vicky L. Kett, Duncan M. Price
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Thermogravimetry is the study of the relationship between a sample's mass and its temperature. Thus it is possible to study physical or chemical processes that cause a material to lose volatile gases. These include sublimation, evaporation, and thermal degradation.
Vicky L. Kett, Duncan M. Price
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Journal of Thermal Analysis and Calorimetry, 2000
The well-known divergence between the present ‘state of the art’ of thermogravimetry and industrial requirements is discussed. Sources of errors are analyzed and the optimization of measuring conditions is discussed regarding the problems associated with static and dynamic (flow) atmospheres, and interactions between materials and gases or vapors ...
J. Czarnecki, J. Šesták
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The well-known divergence between the present ‘state of the art’ of thermogravimetry and industrial requirements is discussed. Sources of errors are analyzed and the optimization of measuring conditions is discussed regarding the problems associated with static and dynamic (flow) atmospheres, and interactions between materials and gases or vapors ...
J. Czarnecki, J. Šesták
openaire +1 more source