The geomechanical and transport properties of rocks are of great importance to geoscience and engineering, as these properties provide responses to external stresses and flow regimes in the subsurface. Typically, experiments conducted on cores from reservoir formations have a degree of uncertainty, due to the heterogeneous characteristics of rock samples. To combat this uncertainty, binder-jet additive manufacturing (3D printing) is an emerging technology to characterize natural porous media in a repeatable fashion. In this study, the 3D printing sandstone analogue involved sand powder and organic binder to mimic silica grains and cement in natural sandstone. The use of compaction rollers and the adjustment of printing parameters allowed on...
Binder jet 3D printing of geopolymers is a newly developed manufacturing technique that combines a m...
Binder jet 3D printing of geopolymers is a newly developed manufacturing technique that combines a m...
Our group developed mixtures based on geopolymer for additive manufacturing of porous components via...
Due to the complexity of the sedimentary and diagenetic processes, natural rocks generally exhibit s...
3D printing is an emerging technology which can provide valuable insights into the laboratory charac...
In petroleum engineering, to investigate the effect of a certain factors on rock permeability, it is...
In petroleum engineering, to investigate the effect of a certain factors on rock permeability, it is...
The additive manufacturing of sand-based composites has primarily seen applications in the metal cas...
The rapid evolution of three-dimensional (3-D) printing has sparked interest for possible applicatio...
A key issue in the field of porous rock geomechanics is finding suitable suites of samples in which ...
The application of sand powder three-dimensional (3D) printing technology in the field of rock mecha...
Shear-enhanced compaction in shallow sandstone reservoirs has been investigated in laboratory experi...
The field of rock mechanics is concerned with the response of rocks to the forces acting on them, ch...
Abstract This study aims to investigate the beneficial effects of surface retaining elements (SREs) ...
Discontinuities or structural planes are widely distributed in natural rock masses and significantly...
Binder jet 3D printing of geopolymers is a newly developed manufacturing technique that combines a m...
Binder jet 3D printing of geopolymers is a newly developed manufacturing technique that combines a m...
Our group developed mixtures based on geopolymer for additive manufacturing of porous components via...
Due to the complexity of the sedimentary and diagenetic processes, natural rocks generally exhibit s...
3D printing is an emerging technology which can provide valuable insights into the laboratory charac...
In petroleum engineering, to investigate the effect of a certain factors on rock permeability, it is...
In petroleum engineering, to investigate the effect of a certain factors on rock permeability, it is...
The additive manufacturing of sand-based composites has primarily seen applications in the metal cas...
The rapid evolution of three-dimensional (3-D) printing has sparked interest for possible applicatio...
A key issue in the field of porous rock geomechanics is finding suitable suites of samples in which ...
The application of sand powder three-dimensional (3D) printing technology in the field of rock mecha...
Shear-enhanced compaction in shallow sandstone reservoirs has been investigated in laboratory experi...
The field of rock mechanics is concerned with the response of rocks to the forces acting on them, ch...
Abstract This study aims to investigate the beneficial effects of surface retaining elements (SREs) ...
Discontinuities or structural planes are widely distributed in natural rock masses and significantly...
Binder jet 3D printing of geopolymers is a newly developed manufacturing technique that combines a m...
Binder jet 3D printing of geopolymers is a newly developed manufacturing technique that combines a m...
Our group developed mixtures based on geopolymer for additive manufacturing of porous components via...