Keywords: فرار حرارتی; Lithium-ion battery; Thermal runaway; Safety; Short circuit; Diol; Diamine;
مقالات ISI فرار حرارتی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: فرار حرارتی; Potassium-ion batteries; Thermal runaway; Differential scanning calorimetry; Graphite anode;
Keywords: فرار حرارتی; Gas analysis; Lithium-ion; Thermal runaway; Venting; Autoclave; Thermal propagation; Safety;
Keywords: فرار حرارتی; Wettability; Thermal runaway; Li-ion batteries; Lattice Boltzmann method;
Keywords: فرار حرارتی; Lithium ion battery safety; Thermal runaway; External heating; Internal heating; Thermal stability;
Keywords: فرار حرارتی; Lithium ion battery; Safety; Thermal runaway; Internal short circuit; Calorimetry;
Keywords: فرار حرارتی; Li-ion battery modeling; Safety issues; Thermal runaway; Multiphysics modeling; Battery ageing; Electrochemical storage;
Keywords: فرار حرارتی; Lithium-ion batteries; Safety; Thermal runaway; State of charge; Enthalpy;
Keywords: فرار حرارتی; Lithium-ion battery; Mechanical integrity behavior; Overcharge; Thermal runaway;
Keywords: فرار حرارتی; Gas explosion; Lithium-ion; Safety; Gas emission; Ageing; Thermal runaway;
Keywords: فرار حرارتی; Lithium-ion battery; Battery safety; Thermal runaway; Kinetics analysis; Differential scanning calorimetry;
Keywords: فرار حرارتی; Lithium ion battery safety; Nail penetration; Thermal runaway; Micro short-circuit cell; Failure mechanism;
Keywords: فرار حرارتی; Lithium-ion battery; Thermal runaway; Safety; Short circuit; Resistance; Polarization;
Keywords: فرار حرارتی; Fischer-Tropsch synthesis; Fixed-bed reactors; Dynamic simulations; Milli-reactors; Step-change-response analysis; Thermal runaway;
Keywords: فرار حرارتی; Metal fuels; Particles; Agglomerates; Suspensions; Ignition; Combustion; Thermal runaway;
Keywords: فرار حرارتی; Lithium ion battery; Electric vehicle; Thermal runaway; Battery safety; Internal short circuit;
Keywords: فرار حرارتی; Foil bearings; Thermoelastic instability; Thermal runaway; Hot spots;
Keywords: فرار حرارتی; Air foil thrust bearing; Thermo-elasto-hydrodynamic modeling; Thermal runaway; Thin film lubrication;
Keywords: فرار حرارتی; Thermally safe operating conditions; Semibatch reactors; Thermal runaway; QFS; MTSR; Boundary diagrams;
Keywords: فرار حرارتی; Lithium ion battery; Battery safety; Thermal runaway; Battery cooling; Heat transfer;
Keywords: فرار حرارتی; Lithium ion battery; Thermal runaway; Reduced pressure; Vacuum; Safety; Accelerating rate calorimeter;
Keywords: فرار حرارتی; Electric vehicle; Lithium ion battery; Thermal management; Thermal runaway; Nail penetration; Minichannel cooling;
Keywords: فرار حرارتی; Safe operating conditions; Semibatch reactors; Thermal runaway; Reaction calorimetry; QFS;
Preventing thermal runaway propagation in lithium ion battery packs using a phase change composite material: An experimental study
Keywords: فرار حرارتی; Thermal runaway; Lithium ion; Phase change material; Nail penetration; Thermal management; 18650;
Determination of the core temperature of a Li-ion cell during thermal runaway
Keywords: فرار حرارتی; Lithium ion battery; Safety; Thermal runaway; Core temperature; Thermal modeling;
Keywords: فرار حرارتی; Thermal runaway; Esterification; DIV criterion; Shortstopping; Computational fluid dynamics; Batch reactor;
Encapsulation of flame retardants for application in lithium-ion batteries
Keywords: فرار حرارتی; Lithium-ion battery; Thermal runaway; Self-extinguishing; Flame retardant; Triphenyl phosphate; 9,10-dihydro-9-oxa-10-phosphaphenanthrene 10-oxide;
Keywords: فرار حرارتی; Lithium ion battery safety; Lithium iron phosphate battery; Jet fire; Heat release rate; Heat radiation; Thermal runaway;
Keywords: فرار حرارتی; Thermal runaway; Lithium-ion battery; Crack detection; Machine learning; 3D microstructure; Stochastic modelling;
Keywords: فرار حرارتی; Thermal explosion; Thermal runaway; Volume combustion synthesis; Ignition condition; Thin-film combustion synthesis; Gasless reactions;
Internal-short-mitigating current collector for lithium-ion battery
Keywords: فرار حرارتی; Lithium-ion battery; Current collector; Mechanical abuse; Internal short; Thermal runaway;
Thermal runaway detection of cylindrical 18650 lithium-ion battery under quasi-static loading conditions
Keywords: فرار حرارتی; 18650 lithium-ion battery; Thermal runaway; State of charge; Deformation; Short circuit; FEA;
An electrochemical-thermal coupled overcharge-to-thermal-runaway model for lithium ion battery
Keywords: فرار حرارتی; Lithium ion battery; Battery safety; Overcharge; Thermal runaway; Electrochemical-thermal coupled model;
Keywords: فرار حرارتی; Lithium-ion battery; Multiphysics model; Mechanical abuse; Short circuit; Thermal runaway;
Keywords: فرار حرارتی; Lithium-ion battery; Thermal runaway; Environmental temperature; Heat dissipation condition; Charging-discharging;
Keywords: فرار حرارتی; Hydrogen peroxide decomposition; Dynamic modeling; Bifurcation analysis; Thermal stability diagrams; Thermal runaway; Risk assessment;
Keywords: فرار حرارتی; Poly(vinyl chloride); Composites; Foaming process; Microwave irradiation; Thermal runaway; Cellular structure;
Keywords: فرار حرارتی; Lithium-ion battery; Thermal runaway; Accelerating rate calorimetry; Differential scanning calorimetry; Exothermic reaction;
Keywords: فرار حرارتی; CdTe thin film; Thermal runaway; Heat transfer; Degradation
Keywords: فرار حرارتی; Lithium-ion battery; Silicon anode; Thermal runaway; Differential scanning calorimetry;
Keywords: فرار حرارتی; Thermal runaway; 18650; Electrolyte venting; Ejecta venting; Isentropic flow equations;
Keywords: فرار حرارتی; Toxicity; Thermal runaway; Li-ion batteries; Combustion products; Identification; Emergency response;
Keywords: فرار حرارتی; Thermal runaway; Hydride; Hydrogen desorption; Kinetic parameter; Gravimetric capacity
Keywords: فرار حرارتی; Thermal runaway; Parametric sensitive; Critical criterion; Chemical reaction;
Keywords: فرار حرارتی; Thermal runaway; Accident risk; Semi-batch reactors; Boundary diagram; Heterogeneous reaction;
Keywords: فرار حرارتی; Lithium ion battery; Safety; Thermal runaway; Battery cooling; Thermal modeling;
Keywords: فرار حرارتی; Energy; Heat; Lithium ion battery; Calorimetry; Thermal runaway; Fire hazard;
Keywords: فرار حرارتی; SEI; DSC; Thermal runaway; LiFSI; VC; FEC;
Keywords: فرار حرارتی; Lithium ion battery; Thermal runaway; Battery safety; Accelerating rate calorimetry; Total energy release
Keywords: فرار حرارتی; Lithium ion battery safety; Overcharge; Thermal runaway; Heat generation; Adiabatic condition;