摘要
Temperatures of multi-shock compressed gaseous hydrogen-helium mixtures with a mole component H2 :He=1:1.21 up to 7100 K are measured at pressures up to 10 GPa by means of an instantaneous optical pyrometer. The gas mixtures are shocked from environmental temperature at the initial pressure 20 MPa. The measured second-shock temperature differs from the predictions of the non-dissociation model by up to 40% and is in good agreement with that of the dissociation model, indicating that a considerable amount of molecular dissociation occurs.
Temperatures of multi-shock compressed gaseous hydrogen-helium mixtures with a mole component H2 :He=1:1.21 up to 7100 K are measured at pressures up to 10 GPa by means of an instantaneous optical pyrometer. The gas mixtures are shocked from environmental temperature at the initial pressure 20 MPa. The measured second-shock temperature differs from the predictions of the non-dissociation model by up to 40% and is in good agreement with that of the dissociation model, indicating that a considerable amount of molecular dissociation occurs.
基金
Supported by the National Natural Science Foundation of China under Grant No 10674120, and the Science and Technology Development Foundation of China Academy of Engineering Physics under Grant No 2007A01002.
