about
Correlation between clinical performance and degree of conversion of resin cements: a literature reviewFlexural strength and failure modes of layered ceramic structuresInfluence of the finishing technique on surface roughness of dental porcelains with different microstructures.Porcelain monolayers and porcelain/alumina bilayers reinforced by Al2O3/GdAlO3 fibers.Subcritical crack growth and in vitro lifetime prediction of resin composites with different filler distributions.CO2 Laser Glazing Treatment of a Veneering Porcelain: Effects on Porosity, Translucency, and Mechanical Properties.Application of Micro-Raman Spectroscopy to the Study of Yttria-Stabilized Tetragonal Zirconia Polycrystal (Y-TZP) Phase Transformation.Fractographic principles applied to Y-TZP mechanical behavior analysis.Fracture Load and Phase Transformation of Monolithic Zirconia Crowns Submitted to Different Aging Protocols.In Vitro Behavior of Osteoblasts on Zirconia After Different Intensities of Erbium, Chromium-Doped: Yttrium, Scandium, Gallium, and Garnet-Laser Irradiation.Mono or polycrystalline alumina-modified hybrid ceramics.Direct comparison of the bond strength results of the different test methods: a critical literature review.Effect of ceramic infrastructure on the failure behavior and stress distribution of fixed partial dentures.Evaluation of tensile retention of Y-TZP crowns cemented on resin composite cores: effect of the cement and Y-TZP surface conditioning.Adaptation of all-ceramic fixed partial dentures.ADM guidance-Ceramics: all-ceramic multilayer interfaces in dentistry.ADM guidance-Ceramics: guidance to the use of fractography in failure analysis of brittle materials.Comparative assessment of different recycling methods of orthodontic brackets for clinical use.Influence of Finishing and Polishing Techniques and Abrasion on Transmittance and Roughness of Composite Resins.ADM guidance-Ceramics: Fracture toughness testing and method selection.Can 10% hydrofluoric acid be used for reconditioning of orthodontic brackets?Effect of Grinding and Resintering on the Fatigue Limit and Surface Characterization of a Y-TZP Ceramic.Step-stress analysis for predicting dental ceramic reliability.Aging effect of atmospheric air on lithium disilicate ceramic after nonthermal plasma treatment.Aging Effect of Atmospheric Air on Zirconia Surfaces Treated by Nonthermal Plasma.Systematic approach to preparing ceramic-glass composites with high translucency for dental restorations.Influence of resin cement shade on the color and translucency of ceramic veneers.Residual stress profiles in veneering ceramic on Y-TZP, alumina and ZTA frameworks: measurement by hole-drilling.Residual stresses in Y-TZP crowns due to changes in the thermal contraction coefficient of veneers.Effect of ion exchange on strength and slow crack growth of a dental porcelain.Effect of processing induced particle alignment on the fracture toughness and fracture behavior of multiphase dental ceramics.The potential of novel primers and universal adhesives to bond to zirconia.Correlation between fracture toughness and leucite content in dental porcelains.Relationship between fracture toughness and flexural strength in dental porcelains.Stress intensity factor threshold in dental porcelains.Dental ceramics: a review of new materials and processing methods.Effect of titania content and biomimetic coating on the mechanical properties of the Y-TZP/TiO2 composite.ADM guidance-ceramics: Fatigue principles and testing.Effect of different aging methods on the mechanical behavior of multi-layered ceramic structures.Failure modes of Y-TZP abutments with external hex implant-abutment connection determined by fractographic analysis.
P50
Q26781829-9F4C036C-B93F-490C-A044-89C592DC5D78Q30460253-45857DC8-33B8-42CA-AE27-8FFE0E37FF21Q33259557-E431D3C6-635B-4817-B6F0-92187663BB11Q34078732-09D20116-6E77-4322-B659-0E8C9C64EF4EQ34283152-9C221659-89B4-4167-9929-5D8CDCE2FA9DQ35286940-0EC736C8-0F59-4E6F-98E3-32B8E2CFBF2AQ35650371-1289A66C-7966-430F-9536-B4A101BF5478Q35883081-FF251B86-7D33-48A3-A687-5217449F32D8Q35937100-2BC00D50-3905-4DEA-9ECD-054E01BB6AC2Q35995916-77BB4F5D-5B0A-450D-AC51-69EE94AF0167Q36609396-55F5A819-B3CD-4A65-9E2D-CB4E8A485603Q37671081-5C2F7FFA-6686-4772-A8E4-17B5934BA77DQ38392101-E2CA00CD-37CA-4EF8-A393-4B1E688432F6Q38395360-235CCA23-0E45-4AAF-B1E2-FD606CACF221Q38654806-379DDAA2-1D16-4FA1-8FC6-2A44C9BD3125Q38692187-B1EA034B-F57B-4AF5-B5C3-DCDC296D6ED2Q38841771-B44C4D08-14F8-4F14-95A2-278ADE74DCA4Q38933861-9712A4A7-3EAD-4C0D-99F8-D29E83720E90Q39208631-621AE634-554E-443E-B2BE-DC931629FCEFQ39229901-80501857-1522-401A-8052-E345B1A5B44BQ39305700-B0D8744A-3173-482F-B32E-8CAC75D9B221Q39367162-A79A38A5-00D4-463A-92A5-C22B90A83E6AQ39390807-CCC8DC58-DEE3-4080-9A46-CB13B1D92F91Q40069534-89C3EFF9-ECBD-40BD-A814-0E0E6E89C595Q40366531-896DCB8F-5882-46A5-9108-F23958833B03Q40723035-5A0E25B1-A354-4927-BD8A-F80C998F5A55Q41585391-55E7E0AA-8FE4-4CC3-9515-C830336B2AB0Q43866003-C491CFC0-48E6-4906-89EA-51EE76025993Q43898342-99B53883-70F6-4FD0-B616-1EE084893012Q45728508-19615749-607D-4CE5-8F62-7CE072182E1DQ45943701-FCA3622E-0199-43FC-92E4-C2396668E423Q45948541-286D895E-1F08-42D7-8845-4AD969268714Q46731776-00998825-EF6D-4D95-89D6-689A29414EAFQ46938215-6D6EC713-4113-4121-9782-9C450170C476Q46944783-0DCE09B4-4D95-488F-98BB-E6B4D85343DBQ47680380-77D6158F-3C1B-4DFC-B9B8-1E2B67872DF1Q49568602-2C1110CE-A89B-416F-9FF4-32E97D93D77CQ50090899-BD953305-3608-4518-9498-7E0DCC05E88FQ50138661-096C56AF-6F23-4B29-BBDF-CAE64CDE9777Q51547562-9198475B-5654-461F-A9CA-866D482FB9A3
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Paulo Francisco Cesar
@ast
Paulo Francisco Cesar
@en
Paulo Francisco Cesar
@es
Paulo Francisco Cesar
@nl
Paulo Francisco Cesar
@sl
type
label
Paulo Francisco Cesar
@ast
Paulo Francisco Cesar
@en
Paulo Francisco Cesar
@es
Paulo Francisco Cesar
@nl
Paulo Francisco Cesar
@sl
prefLabel
Paulo Francisco Cesar
@ast
Paulo Francisco Cesar
@en
Paulo Francisco Cesar
@es
Paulo Francisco Cesar
@nl
Paulo Francisco Cesar
@sl
P106
P1153
35616989100
P21
P31
P496
0000-0001-5834-105X