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A review of the synthesis methods, properties, and applications of layered double hydroxides/carbon nanocomposites
Behavior of RC columns strengthened with UHPFRC jackets through grooving method under eccentric loading: A comparative evaluation of steel and synthetic macro fibers in UHPFRC
Behavior of RC columns strengthened with UHPFRC jackets through grooving method under eccentric loading: A comparative evaluation of steel and synthetic macro fibers in UHPFRC
Developing an efficient approach for preparation of high-performance visible-light assisted ethanol electro-oxidation materials based on Pd, Pt and Pd-Pt nanoparticles supported on iron doped titania nanotube films
Decomposition of the interaction energy of several flavonoids with Escherichia coli DNA Gyr using the SAPT (DFT) method: The relation between the interaction energy components, ligand structure, and biological activity
Decomposition of the interaction energy of several flavonoids with Escherichia coli DNA Gyr using the SAPT (DFT) method: The relation between the interaction energy components, ligand structure, and biological activity
Decomposition of the interaction energy of several flavonoids with Escherichia coli DNA Gyr using the SAPT (DFT) method: The relation between the interaction energy components, ligand structure, and biological activity
Preparation and characterization of carbon felt/carbon composites by chemical vapor infiltration process
Preparation and characterization of carbon felt/carbon composites by chemical vapor infiltration process
Frequency and In-Plane Vibration Analysis of Single-Layer Nano-Graphene Sheet by Scaled Boundary Finite Element Method
Fully Soft-Switched Non-Isolated High Step-Down DC-DC Converter With Reduced Voltage Stress and Expanding Capability
Fully Soft-Switched Non-Isolated High Step-Down DC-DC Converter With Reduced Voltage Stress and Expanding Capability
Torsional behavior of non-crimp orthogonal woven composite using experimental and numerical methods
Implementation of time-weighted residual method for simulation of flexural waves in multi-span Timoshenko beams subjected to various types of external loads: from stationary loads to accelerating moving masses
Implementation of time-weighted residual method for simulation of flexural waves in multi-span Timoshenko beams subjected to various types of external loads: from stationary loads to accelerating moving masses