期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
Nonlinear wave mechanisms of very fast chemical and phase transformations in solids. applications to cosmic chemistry processes near to 0 k, to explosive-like decays of metastable solid phases and to catastrophic geotectonic phenomena 被引量:1
1
作者 Viktor Barelko Dmitryi Kiryukhin +2 位作者 Igor Barkalov galina kichigina Alain Pumir 《Natural Science》 2010年第12期1356-1359,共4页
In the Universe, chemical reactions occur at very low temperature, very close to 0K. According to the standard Arrhenius mechanism, these reactions should occur with vanishingly small efficiency. However, cold planets... In the Universe, chemical reactions occur at very low temperature, very close to 0K. According to the standard Arrhenius mechanism, these reactions should occur with vanishingly small efficiency. However, cold planets of the solar system, such as Pluto, are covered by a crust composed of ammonia and methane, produced on earth only at very high temperature and pressure, in the presence of catalysts. This observation is incompatible with the predictions of Arrhenius kinetics. Here, we propose a general mechanism to explain the abundance of chemical reactions at very low temperature in the Universe. We postulate that the feedback between mechanical stress and chemical reaction provides, through fracture propagation, the energy necessary to overcome the activation barrier in the absence of thermal fluctuations. The notion described in this work can also be applied to other fields such as explosive-like solid phase transformations and catastrophical geotectonics phenomena (earthquakes). 展开更多
关键词 Nonlinear Waves Coupling between CHEMISTRY and Mechanics Combustion at Very Low Temperature Geochemistry COSMOCHEMISTRY GEOTECTONICS
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部