Multiscale thermomechanical assessment of silicon carbide-based nanocomposites in solar energy harvesting applications
Increasing the operating temperature of concentrating solar power plants beyond 650° C is
crucial for increasing their efficiency and energy storage capability, and thus pushing their …
crucial for increasing their efficiency and energy storage capability, and thus pushing their …
Integrated computational materials engineering in solar plants: The virtual materials design project
F Montero-Chacón, M Chiumenti, J Segurado… - Jom, 2018 - Springer
The high temperatures required for efficient operation of solar thermal power plants
constitutes one of the major challenges of this technology. Gaining insight into materials …
constitutes one of the major challenges of this technology. Gaining insight into materials …
[PDF][PDF] THE ELASTIC ANISOTROPY OF INCONEL 625 ALLOY SAMPLES MADE WITH 3D PRINTING.
VV Usov, NM Shkatulyak, DV Pavlenko… - Progress in Physics of …, 2024 - ufm.imp.kiev.ua
Depending on the 3Dprinting orientation, the anisotropy of the elastic characteristics of the
Inconel 625 alloy generated with selective laser sintering from powders is inves tigated. The …
Inconel 625 alloy generated with selective laser sintering from powders is inves tigated. The …
[PDF][PDF] Computational design of nanostructured materials with renewable energy applications
JMO Roldán - 2021 - rio.upo.es
Computational Design of Nanostructured Materials with Renewable Energy Applications Page
1 I José Manuel Ortiz Roldán Computational Design of Nanostructured Materials with …
1 I José Manuel Ortiz Roldán Computational Design of Nanostructured Materials with …