Creep of Lubricated Layered Nano-Porous Solids and Application To Cementitious Materials
نویسنده
چکیده
A variety of geomaterials, such as cementitious or clay-based materials, has on the nano-scale a layered microstructure that can contain fluid in its nano-porous space. The creep of such nano-scale basic units is what causes the macroscopic creep. Here, one nano-pore whose walls consist of two parallel infinite solid layers interacting through Lennard-Jones potential is studied. The authors evaluate numerically the energy barriers that such a system needs to overcome for the two solid layers to slide over each other and show how this sliding depends on the longitudinal and transverse forces applied to the layers. The energy barriers translate into a dependence of the apparent viscosity of the system on the disjoining pressure in a manner consistent with the microprestress theory. This result makes it possible to explain why the longtime creep of cementitious materials is logarithmic. The experimental data on how the long-term logarithmic creep of cementitious materials depends on the temperature and relative humidity is then considered. This model can capture the observed dependencies if not only the energy barriers induced by the interactions between layers but also the influence of the interlayer fluid, which is water in the case of cementitious materials, is taken into account. This fluid is modeled as a continuum with the same properties as the bulk fluid.DOI: 10.1061/(ASCE)NM.2153-5477.0000102. © 2015 American Society of Civil Engineers.
منابع مشابه
Mechanical Application of Lubricated Nano Porous Anodized Aluminium
Today a major environmental problem is global warming that is mainly caused due to exhaust and emission of gases. The only way to reduce their ill-effect is by improvement in fuel efficiency of I.C. engines, where most of the power is lost to overcome the friction. In this work, nanoporous anodized layer is formed on an aluminium substrate surface by anodization. Anodization was carried out at ...
متن کاملMetal-organic framework materials as nano photocatalyst
Photocatalytic degradation of toxic organic compound in water, soil and air by semiconductor catalysts such as TiO2 and ZnO have received much attention over the last two decades. However, the low quantum yield, easy agglomeration and difficult post-separation of these inorganic catalysts limit their application for large-scale applications. Metal-organic frameworks (MOFs) are the latest class ...
متن کاملMetal-organic framework materials as nano photocatalyst
Photocatalytic degradation of toxic organic compound in water, soil and air by semiconductor catalysts such as TiO2 and ZnO have received much attention over the last two decades. However, the low quantum yield, easy agglomeration and difficult post-separation of these inorganic catalysts limit their application for large-scale applications. Metal-organic frameworks (MOFs) are the latest class ...
متن کاملNanomechanical Properties of Cementitious Materials
Nanomechanical Properties of Cementitious Materials Paramita Mondal Although cementitious construction materials are mainly used in a large scale and in huge quantities, fundamental properties such as strength, ductility, creep, shrinkage, and fracture behavior depend, to a great extent, on structural elements and phenomena which are effective at the microand nanoscale. This research involves c...
متن کاملData Mining for New Two- and One-Dimensional Weakly Bonded Solids and Lattice-Commensurate Heterostructures.
Layered materials held together by weak interactions including van der Waals forces, such as graphite, have attracted interest for both technological applications and fundamental physics in their layered form and as an isolated single-layer. Only a few dozen single-layer van der Waals solids have been subject to considerable research focus, although there are likely to be many more that could h...
متن کامل