The reversion and chemical stress relaxation behaviour of natural rubber (NR) cured with equilibrium cure system (EC) were studied.

Effects of different kinds of accelerators,blending ratio and cure temperature on natural rubber(NR)cured with equilibrium cure system(EC)were studied.

By analyzing the thermo-chemical reaction mechanism of the biomass gasification process,the thermo-chemical equilibrium model is established based on mass balance,heat balance,gasification reaction equilibrium.

In this paper,effects of conventional cure system(CV),effective cure system(EV),semi-effective cure system(SEV),equivalent cure system(EC) on the physical-mechanical properties and cure reversion resistance of cured natural rubber were studied.

The chemical thermal equilibrium was used to investigate the transformation law of elemental mercury(Hg0),which was oxidized into divalent mercury(Hg2+) at different flue gas temperature,and the results were compared with the experimental results.

This paper numerically simulates the 3D hypersonic thermochemical nonequilibrium flows with two-temperature model.

A numerical method for the computation of 3 D hypersonic ionized flows in thermochemical nonequilibrium has been developed.

AUSMPW+ scheme is applied to numerical simulation of hypersonic thermochemical nonequilibrium flow.