Keywords: طیف سنجی جذب حرارتی; Carbides; Hydrogen trapping; Steel; Interface vacancies; Thermal desorption spectroscopy;
مقالات ISI طیف سنجی جذب حرارتی (ترجمه نشده)
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Keywords: طیف سنجی جذب حرارتی; Hydrogen storage; Porous material; Usable capacity; Cyclic adsorptions; Assessment methodology; Optimum temperature; aC; activated carbon; PDS; pore size distribution; SSA; specific surface area; HV; high vacuum; QMS; quadrupole mass spectrometer; TDS; th
Keywords: طیف سنجی جذب حرارتی; Water; Hydrogen; Absorption; Desorption; Lithium-zirconium oxides; Elastic recoil detection; Weight gain measurement; Thermal desorption spectroscopy; Gas chromatography;
Keywords: طیف سنجی جذب حرارتی; Hydrogen embrittlement; Hydrogen trapping; W2C; Hydrogen diffusivity; in-situ tensile testing; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; Titanium hydride; Thermal desorption spectroscopy; Desorption kinetics; Phase transformation; Phase diagram;
Keywords: طیف سنجی جذب حرارتی; Zirconium hydride; Thermal desorption spectroscopy; XPS; Oxidation kinetics; Diffusion coefficient;
Keywords: طیف سنجی جذب حرارتی; High-entropy alloy; Hydrogen embrittlement; Pre-strain effect; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; Thermal desorption spectroscopy; Hydrogen trapping; Steel; Water adsorption;
Keywords: طیف سنجی جذب حرارتی; Plasma facing materials; Hydrogen retention; Tungsten; Lithium; Glow discharge; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; Lithium; Deuterium retention; Co-deposition; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; Hydrogen embrittlement; Mechanical property; Thermal desorption spectroscopy; Nano-sized oxide; Austenitic steel;
Keywords: طیف سنجی جذب حرارتی; Magnetron sputtering; Tungsten sub-nitride; Thermal stability; Structure; Annealing; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; Titanium hydride; Thermal desorption spectroscopy; Desorption kinetics; Phase transformation; Phase diagram;
Keywords: طیف سنجی جذب حرارتی; Hydrogen characterization; Sieverts technique; Gravimetric technique; Secondary ion mass spectroscopy; Thermal desorption spectroscopy; Neutron scattering; Electrochemical techniques;
Keywords: طیف سنجی جذب حرارتی; Thermal desorption spectroscopy; Transmission electron microscopy; Hydrogen; Be12Ti; Microstructure;
Keywords: طیف سنجی جذب حرارتی; Tungsten; Hydrogen isotopes; Thermal desorption spectroscopy; Positron annihilation; Defects; Ion implantation;
Keywords: طیف سنجی جذب حرارتی; Tungsten coating; Electrodeposition; Current density; Deuterium irradiation; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; Organic molecules; Thin films; Thermal desorption spectroscopy; Wetting;
Keywords: طیف سنجی جذب حرارتی; Zirconium hydride; Thermal desorption spectroscopy; Desorption kinetics; Phase transforming; Phase diagram
Keywords: طیف سنجی جذب حرارتی; Hydrogen; Ion implantation; ODS steel; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; Steel; Hydrogen; Mechanical behavior; Nanoindentation; Thermal desorption spectroscopy;
Keywords: طیف سنجی جذب حرارتی; First-principles calculations; Helium cluster; Inert-gas defects; Tungsten; Thermal desorption spectroscopy
Keywords: طیف سنجی جذب حرارتی; Vacuum; Thermal desorption spectroscopy; TDS; Calibration; Quadrupole mass spectrometer
Keywords: طیف سنجی جذب حرارتی; Hydrogen permeation; Thermal desorption spectroscopy; Stainless steel; Dual-phase; Retained austenite; Chi-phase
Keywords: طیف سنجی جذب حرارتی; Zirconium hydride; Thermal desorption spectroscopy; Desorption kinetics; Phase transformation; Phase diagram
Keywords: طیف سنجی جذب حرارتی; Titanium hydride; Thermal desorption spectroscopy; Desorption kinetics; Phase transformation; Phase diagram
Deuterium retention behavior in simultaneously He+-D2+ implanted tungsten
Keywords: طیف سنجی جذب حرارتی; Simultaneous implantation; D retention; Helium; Flux ratio; Transportation; Thermal desorption spectroscopy;
Analysis of hydrogen desorption from linear heating experiments: Accuracy of activation energy determinations
Keywords: طیف سنجی جذب حرارتی; Hydrogen desorption; Thermal analysis; Thermal desorption spectroscopy; Linear heating; Activation energy; Reaction modelling;
Thermal desorption spectroscopy study of the hydrogen trapping ability of W based precipitates in a Q&T matrix
Keywords: طیف سنجی جذب حرارتی; Hydrogen trapping; W based carbides; Transmission electron microscopy; Thermal desorption spectroscopy; Activation energy; Steel;
Deuterium retention behavior of pure and Y2O3-doped tungsten investigated by nuclear reaction analysis and thermal desorption spectroscopy
Keywords: طیف سنجی جذب حرارتی; Tungsten; Tungsten alloys; Deuterium retention; Plasma-surface interaction; Morphology; Thermal desorption spectroscopy;
Spatially resolved localization and characterization of trapped hydrogen in zero to three dimensional defects inside ferritic steel
Keywords: طیف سنجی جذب حرارتی; High strength steel; Hydrogen; Trapping; Activation energy; Traps; Hydrogen embrittlement; Thermal desorption spectroscopy; Scanning Kelvin probe; SKPFM; Ferritic steel;
Resistance of CoCrFeMnNi high-entropy alloy to gaseous hydrogen embrittlement
Keywords: طیف سنجی جذب حرارتی; High-entropy alloy; Hydrogen embrittlement; Tensile test; Nanoindentation; Thermal desorption spectroscopy;
Deuterium release from Li-D films exposed to atmospheric gases
Keywords: طیف سنجی جذب حرارتی; PFC; plasma facing components; TDS; thermal desorption spectroscopy; CPS; capillary porous system; QMB; quartz microbalance; QMS; quadrupole mass-spectrometer; Lithium; Deuterium retention; Co-deposition; Thermal desorption spectroscopy;
The effect of heat-to-heat variations in metallurgy and hydrogen-metal interactions on the hydrogen embrittlement of Monel K-500
Keywords: طیف سنجی جذب حرارتی; Nickel alloys; Hydrogen embrittlement; Thermal desorption spectroscopy; Hydrogen diffusion; Hydrogen trapping; Sulfur embrittlement;
Investigation of microstructure changes in ODS-EUROFER after hydrogen loading
Keywords: طیف سنجی جذب حرارتی; Hydrogen; ODS steel; Thermal desorption spectroscopy; HRTEM; Ab initio; Molecular dynamics;
Reactions of disilane with the deuterium-terminated Ge(1Â 0Â 0) 2Â ÃÂ 1 surface
Keywords: طیف سنجی جذب حرارتی; Thermal desorption spectroscopy; Raman scattering spectroscopy; Molecule-solid reactions; Single crystal surfaces; Semiconducting surfaces; Surface passivation; Silicon-germanium; Disilane;
Resistance to the transport of H2 through the external surface of as-made and modified silicalite-1 (MFI)
Keywords: طیف سنجی جذب حرارتی; Silicalite-1 (MFI) surface barrier; Surface modification; Hydrogen diffusion; Thermal desorption spectroscopy; Sievert's apparatus
Evaluation of the effect of V4C3 precipitates on the hydrogen induced mechanical degradation in Fe-C-V alloys
Keywords: طیف سنجی جذب حرارتی; Hydrogen embrittlement; Hydrogen trapping; V4C3; Hydrogen diffusivity; In-situ tensile testing; Thermal desorption spectroscopy;
Hydrogen trapping and hydrogen induced mechanical degradation in lab cast Fe-C-Cr alloys
Keywords: طیف سنجی جذب حرارتی; Hydrogen embrittlement; Mechanical testing; Diffusible hydrogen; Hydrogen diffusivity; Thermal desorption spectroscopy; Cr23C6;
Evaluation of the role of Mo2C in hydrogen induced ductility loss in Q&T FeCMo alloys
Keywords: طیف سنجی جذب حرارتی; Hydrogen embrittlement; Hydrogen trapping; Diffusible hydrogen; Thermal desorption spectroscopy; In-situ mechanical testing;
Combined microtomography, thermal desorption spectroscopy, X-ray diffraction study of hydrogen trapping behavior in 7XXX aluminum alloys
Keywords: طیف سنجی جذب حرارتی; Thermal desorption spectroscopy; Microtomography; XRD; Hydrogen trapping; Hydrogen embrittlement; Aluminum alloys;
Helium retention and thermal desorption from defects in Fe9Cr binary alloys
Keywords: طیف سنجی جذب حرارتی; He-ion irradiation; FeCr alloy; Thermal desorption spectroscopy; Defect;
Hydrogen-induced superabundant vacancies in electrodeposited Fe-C alloy films
Keywords: طیف سنجی جذب حرارتی; Electrodeposited Fe-C alloy; Thermal desorption spectroscopy; Hydrogen; Vacancy; Atomistic structure;
Hydrogen-induced crack nucleation in tensile testing of EUROFER 97 and ODS-EUROFER steels at elevated temperature
Keywords: طیف سنجی جذب حرارتی; Hydrogen; ODS steel; Thermal desorption spectroscopy; Hydrogen-induced cracking;
Microstructure and He desorption behaviors of He charged FeCrNi-based films fabricated by direct current magnetron sputtering
Keywords: طیف سنجی جذب حرارتی; Magnetron sputtering; Iron; Chromium; Helium; Thin films; Nanoindentation; Hardness; Thermal desorption spectroscopy
Hydrogen-sorption properties of Nb4M0.9Si1.1 (M = Co,Ni) hydrides
Keywords: طیف سنجی جذب حرارتی; Phase analysis; Pressure composition isotherm; Thermal desorption spectroscopy; Metal hydride; Nb4NiSi; Nb4CoSi
Ultra high vacuum high precision low background setup with temperature control for thermal desorption mass spectroscopy (TDA-MS) of hydrogen in metals
Keywords: طیف سنجی جذب حرارتی; Thermal desorption spectroscopy; Hydrogen; Activity; Activation energy; Traps; Gas; Elemental analysis; Hydrogen embrittlement
Effect of Ti, Mo and Cr based precipitates on the hydrogen trapping and embrittlement of Fe–C–X Q&T alloys
Keywords: طیف سنجی جذب حرارتی; Hydrogen embrittlement; Trapping capacity; Carbides; Hydrogen charging capacity; Thermal desorption spectroscopy
Towards a better understanding of hydrogen measurements obtained by thermal desorption spectroscopy using FEM modeling
Keywords: طیف سنجی جذب حرارتی; Thermal desorption spectroscopy; Trapping energy; Hydrogen concentration; Numerical modeling; Geometrical effects; Heating rate
Helium behaviour in UO2 through low fluence ion implantation studies
Keywords: طیف سنجی جذب حرارتی; Helium; Uranium dioxide; Thermal desorption spectroscopy