| Popis: |
In this work, the effects of Si/Al ratio and moisture content on thermal transport in sustainable geopolymers has been comprehensively investigated by using the molecular dynamics simulation. The thermal conductivity of geopolymer systems increases with the increase of Si/Al ratio, and the phonon vibration frequency region which plays a major role in the main increase of its thermal conductivity is 8-25 THz, while the rest of the frequency interval contribute less. With the increase of moisture content, the thermal conductivity of geopolymer systems decreases at first, then increases and finally tends to be stable, which is contrary to the changing trend of porosity of the system. This is mainly because the existence of pores will lead to phonon scattering during thermal transport, which in turn affects the thermal conductivity of the system. When the moisture content is 5%, the thermal conductivity reaches a minimum value of about 1.103 W/(mK), which is 40.2% lower than the thermal conductivity of the system without water molecule. This work will help to enhance the physical level understanding of the relationship between the geopolymer structures and thermal transport properties. |
