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The experimental results were in excellent agreement with that of obtained values from the 3D stable molten temperature diagram.
In this research, the steam and solvent injection strategy is examined by viewing process trajectories on the pressure versus temperature diagram.
Moreover, a series of melting points and thermal decomposition points obtained from the 3D stable molten temperature diagram were respectively verified experimentally using thermo-gravimetric (TG) and differential scanning calorimetry (DSC) methods.
A 3D stable molten temperature diagram was developed to predict melting points and thermal decomposition points in the KNO3-NaNO3-Ca(NO3)2 ternary system, as well as its eutectic temperature and composition.
A time temperature glass transition temperature diagram under a dynamic-heating condition (dynamic t Tdyn Tg diagram) was developed to analyze physicochemical transitions of a reacting polyisoimide system using 4,4′- hexafluoroisopropylidene diphthalic anhydride (6FDA) and 3,3′-diaminodiphenyl sulfone (3,3′-DDS) as a model system.
Open image in new window Fig. 1 Calculated Al Mg phase diagram at 1 bar Open image in new window Fig. 2 Calculated Al–H phase diagram (a) and AlH3 pressure temperature diagram (b).
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Figure 1 shows the temperature diagrams of the clouding responses of the gels induced by 808 or 980 nm laser irradiation at 3 W cm−2 for 60 s.
Pressure and temperature diagrams were developed at different mole fraction of methanol (xMeOH).
From the calorimetric temperature diagrams at different scan rates, we obtain the melting and crystallization temperatures, and we identify a low temperature calorimetric glass transition.
The stability regions were presented in a new form of potential vs. temperature diagrams in specific solutions rather than conventional E pH diagrams.
In this work, a new procedure for building boundary and temperature diagrams is developed to account for arbitrary kinetic expressions and multiple reactions.
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