Keywords: لیتیم دیسیلیک; Glass-ceramic nucleation; Grand canonical Monte Carlo; Implicit glass model; Cluster formation; Classical nucleation theory; Lithium disilicate;
مقالات ISI لیتیم دیسیلیک (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: لیتیم دیسیلیک; Bond strength; Lithium disilicate; Micro-tensile; Fatigue; Aging;
Keywords: لیتیم دیسیلیک; Load-bearing capacity; Lithium disilicate; Ultra-translucent zirconia; Elastic modulus; Flexural strength; Layer thickness;
Keywords: لیتیم دیسیلیک; Glass-ceramics; Lithium disilicate; Mechanical characterization; Residual stresses; Annealing;
Keywords: لیتیم دیسیلیک; Glass-ceramics; Lithium disilicate; Microstructure; Crystallization; Wear; Mechanical properties;
Keywords: لیتیم دیسیلیک; Surface roughness; Resin composites; Zirconia ceramic; Lithium disilicate; Chewing simulation;
Keywords: لیتیم دیسیلیک; Ceramic crown; Debonding; Defects; Failure risk; Finite element analysis (FEA); Lithium disilicate;
Keywords: لیتیم دیسیلیک; Fatigue resistance; Lithium disilicate; Zirconia; Cyclic loading; Weibull model; FEM;
Keywords: لیتیم دیسیلیک; Accelerated fatigue; Etching; Fatigue; Hydrofluoric acid; Lithium disilicate; Staircase; Surface conditioning; Vitreous ceramic;
Keywords: لیتیم دیسیلیک; Adhesion; Bond strength; Lithium disilicate; Resin cement; Silane; Silanization;
Keywords: لیتیم دیسیلیک; Ceramics; Lithium disilicate; Biaxial flexural strength; Finishing/polishing;
Keywords: لیتیم دیسیلیک; Lithium disilicate; Translucency; Two-stage heat treatment; Glass-ceramics;
Keywords: لیتیم دیسیلیک; Translucent zirconia; Y-TZP; Lithium disilicate; Contrast ratio; Flexural strength; Translucency; Monolithic restoration; Grain size;
Keywords: لیتیم دیسیلیک; Homogeneous crystal nucleation; Induction time; Transient nucleation; Heating rate effect; Lithium disilicate; Glass;
Keywords: لیتیم دیسیلیک; Lithium metatitanate; Lithium disilicate; Li-ion based materials; Doping; Defects;
Keywords: لیتیم دیسیلیک; Ceramics; Lithium disilicate; Roughness; Bonding; Fatigue; Weibull;
Keywords: لیتیم دیسیلیک; Wear; Glass-ceramics; Lithium disilicate; Steatite antagonist; Microstructure; Mechanical properties;
Keywords: لیتیم دیسیلیک; Cement; Ceramic; Cyclic loading; Fracture strength; Immediate dentin sealing; Indirect composite; Inlay; Lithium disilicate; Multiphase resin composite;
Keywords: لیتیم دیسیلیک; Lithium disilicate; ceramics; dental diamond burs; water flow rates; CAD-CAM; Computer-aided design and computer-aided manufacturing; LDGC; Lithium disilicate glass ceramic; VHN; Vickers hardness number;
Keywords: لیتیم دیسیلیک; Chiusura marginale; Restauri in ceramica integrale; Disilicato di litio; Corone stratificate; Corone monolitiche; Marginal gap; All-ceramic restorations; Lithium disilicate; Layered crowns; Monolithic crowns;
Keywords: لیتیم دیسیلیک; Brittleness index; Lithium disilicate; Mechanical properties; Weibull analysis; Zirconia reinforced lithium silicate
Keywords: لیتیم دیسیلیک; Disilicato di litio; Overlay; Dente trattato endodonticamente; Restauro adesivo; Frattura dentale; Lithium disilicate; Overlay; Endodontically treated tooth; Adhesive restoration; Dental fracture;
Keywords: لیتیم دیسیلیک; Mechanical characterization; Ceramics; Glass; Crystallization; Lithium disilicate; Residual stresses;
Keywords: لیتیم دیسیلیک; Monolithic crowns; Zirconia; Lithium disilicate; Dental composite; Splitting; Fracture resistance
Keywords: لیتیم دیسیلیک; Titanium; Zirconium dioxide; Lithium disilicate; Ceramic; Surface treatment; Physico-chemical properties; Cell adhesion; Dentin; Resin cement; Single-cell force spectroscopy;
Keywords: لیتیم دیسیلیک; Bonding; Fatigue; Resin cement; Lithium disilicate;
Keywords: لیتیم دیسیلیک; Glass-ceramic; X-ray diffraction; Microstructure; Crystallization; Spark plasma sintering; Lithium disilicate;
Keywords: لیتیم دیسیلیک; IPS e.max® CAD; Lithium disilicate; Lithium metasilicate; Glass–ceramic; Nanoindentation; Microstructure; Phase transformation; Heating schedule; Temperature threshold; Differential scanning calorimetry; Nucleation; Crystallization
Keywords: لیتیم دیسیلیک; Glass-ceramics; Mechanical properties; Crystallization; Lithium disilicate; Fracture toughness;
Keywords: لیتیم دیسیلیک; Heterogeneous nucleation; Lag time; Lithium disilicate; Differential scanning calorimetry; Glass-forming liquid
Keywords: لیتیم دیسیلیک; Lithium disilicate; X-ray diffraction; RDF; Densification; High pressure;
Keywords: لیتیم دیسیلیک; Lithium disilicate; Crystallization; Microstructure;
Keywords: لیتیم دیسیلیک; Lithium disilicate; Heat treatment; Bending strength; Translucency;
Keywords: لیتیم دیسیلیک; Sintering; Microstructure-final; Glass; Glass–ceramics; Lithium disilicate
In vitro biocompatibility of new bioactive lithia-silica glass-ceramics
Keywords: لیتیم دیسیلیک; Bioactive glass-ceramic; Lithium disilicate; Crystallinity; In vitro biocompatibility; Bone regeneration; Dental applications;
The science and application of IPS e.Max dental ceramic
Keywords: لیتیم دیسیلیک; Computer-aided design; Lithium disilicate; Review;
Barium and lithium silicate glass ceramics doped with rare earth ions for white LEDs
Keywords: لیتیم دیسیلیک; Photoluminescence; Glasses; Glass ceramics; Barium disilicate; Lithium disilicate;
A new strengthening theory for improving the fracture strength of lithium disilicate glass-ceramics by introducing Rb or Cs ions
Keywords: لیتیم دیسیلیک; Glass-ceramics; Lithium disilicate; Dental materials; Fracture strength; Strengthening theory;
Full Length ArticleControlled precipitation of lithium disilicate (Li2Si2O5) and lithium niobate (LiNbO3) or lithium tantalate (LiTaO3) in glass-ceramics
Keywords: لیتیم دیسیلیک; Lithium disilicate; Lithium niobate; Lithium tantalate; Glass-ceramics; Twofold crystallization;
Numerical fatigue analysis of premolars restored by CAD/CAM ceramic crowns
Keywords: لیتیم دیسیلیک; Dental crowns; CAD/CAM ceramics; Finite element; Numerical analysis; Fatigue; Lithium disilicate; Polymer infiltrated ceramics;
The roles of P2O5 and SiO2/Li2O ratio on the network structure and crystallization kinetics of non-stoichiometric lithium disilicate based glasses
Keywords: لیتیم دیسیلیک; Glass; Lithium disilicate; Nucleation; Crystallization kinetics;
Restoration of severely damaged endodontically treated premolars: The influence of the endo-core length on marginal integrity and fatigue resistance of lithium disilicate CAD-CAM ceramic endocrowns
Keywords: لیتیم دیسیلیک; Endocrown; CAD-CAM; Lithium disilicate; Endodontically treated; Fatigue; Endo-core; Marginal integrity;
Fracture anisotropy in texturized lithium disilicate glass-ceramics
Keywords: لیتیم دیسیلیک; Lithium disilicate; Fracture toughness; Anisotropy; Crystal alignment;
Mixed-mode fracture toughness of texturized LS2 glass-ceramics using the three-point bending with eccentric notch test
Keywords: لیتیم دیسیلیک; Fracture toughness; Mixed-mode loading; Dental ceramics; Lithium disilicate; Zirconia;
Fracture resistance of glazed, full-contour ZLS incisor crowns
Keywords: لیتیم دیسیلیک; Permanent dental restoration; Crowns; Ceramics; Fracture load; Lithium disilicate; Feldspar;
Crystallization of a high-strength lithium disilicate glass-ceramic: An XRD and solid-state NMR investigation
Keywords: لیتیم دیسیلیک; NMR spectroscopy; Structural change; Lithium disilicate; Glass-ceramics; Flexural strength;
Flexural resistance of heat-pressed and CAD-CAM lithium disilicate with different translucencies
Keywords: لیتیم دیسیلیک; Lithium disilicate; CAD-CAM; Translucency; Flexural strength; Heat-pressed; Glass ceramic;
Mechanical behavior of bulk direct composite versus block composite and lithium disilicate indirect Class II restorations by CAD-FEM modeling
Keywords: لیتیم دیسیلیک; CAD; FEA; Composite; Inlay; Lithium Disilicate; Micro-CT; Stress analysis;
Biomechanical behavior of endodontically treated premolars using different preparation designs and CAD/CAM materials
Keywords: لیتیم دیسیلیک; Lithium disilicate; Composite; Compressive load; CAD/CAM; Endocrown; Cyclic aging;
Reliability and failure behavior of CAD-on fixed partial dentures
Keywords: لیتیم دیسیلیک; Dental ceramics; Fatigue; Lithium disilicate; Zirconia; Step stress