Effects of sandblasting and electrical discharge machining on porcelain adherence to cast and machined commercially pure titanium

İnan, Özgür; Acar, Aslı; Halkaci, S.

doi:10.1002/jbm.b.30500

Cited by 44 publications

(40 citation statements)

References 28 publications

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“…In this study, the mean bond strength of cast titanium ranged between 25 and 28 MPa, which was in agreement with several published studies 9,23,24) . Inan 28.3 MPa 13) .…”

Section: Discussionsupporting

confidence: 93%

“…To minimize CTE difference between titanium and porcelain, special low-fusing veneer porcelains have been developed by manufacturers 27) . However, a low firing temperature resulted in sub-optimally sintered ceramics, which then resulted in a weaker bonding with titanium 9) .…”

Section: Discussionmentioning

confidence: 99%

“…However, there are several technical problems associated with titanium investment castings, such as shrinkage and porosity formation 8) . This is because titanium has an extremely low density (4.5 g/cm 3 ), which reduces its mold-filling ability (castability) and consequently results in incomplete margins 9) . Besides, ingredients of the investment compound react with molten titanium at high temperatures during casting.…”

Section: Introductionmentioning

confidence: 99%

“…On the other hand, a low firing temperature resulted in suboptimally sintered ceramics, which then also resulted in weaker bonding with the titanium substrate 9) .…”

Section: Introductionmentioning

confidence: 99%

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Shear bond strengths of veneering porcelain to cast, machined and laser-sintered titanium

2011

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The aim of this study was to compare the shear bond strengths (SBS) of cast, machined, and laser-sintered titanium to dental porcelain. Two kinds of dental porcelains (Titankeramik and Triceram) were applied on cast (Tritan), machined (DC-Titan), and laser-sintered (EOSINT) titanium specimens (n=10). SBS test was conducted, and fracture surface analysis was also performed to determine the failure modes. Two-way ANOVA, Student's t-test, and post hoc test were used to analyze the data (p<0.05). Among the titanium specimens, the SBS values of laser-sintered titanium specimens were significantly higher than the machined and cast titanium specimens (p<0.01). Comparison of Triceram and Titankeramik veneering porcelains showed no statistically significant differences in SBS when they were applied on laser-sintered and cast titanium specimens (p>0.05). Specimens in all the test groups exhibited adhesive or combined failure, with the Titankeramik-machined titanium group exhibiting the highest adhesive failure rate (40%). Results showed that porcelain-titanium bond strengths could be improved by using the new laser sintering technique to produce titanium for prosthodontic applications.

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“…In this study, the mean bond strength of cast titanium ranged between 25 and 28 MPa, which was in agreement with several published studies 9,23,24) . Inan 28.3 MPa 13) .…”

Section: Discussionsupporting

confidence: 93%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…On the other hand, a low firing temperature resulted in suboptimally sintered ceramics, which then also resulted in weaker bonding with the titanium substrate 9) .…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Shear bond strengths of veneering porcelain to cast, machined and laser-sintered titanium

2011

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“…Oxidation of Ti leads to a thick, loosened oxide layer [4][5][6] . Various surface treatments have been used to avoid the oxidation and to improve Ti-porcelain bonding strength, such as sandblasting 7,8) , chemical agent bath 9,10) , and the application of intermediate coating [11][12][13][14][15] . Sandblasting is ordinarily used for preparing metal substrates with surface irregularities.…”

Section: Introductionmentioning

confidence: 99%

Improvement in Ti-porcelain bonding by SiO2 modification of titanium surface through cast method

et al. 2013

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This study aimed to improve Ti-porcelain bonding strength through SiO 2 modifications. Wax patterns were coated with SiO 2 mixed with tetraethoxy silane (group C), patterns without coating were used as controls and subdivided into sandblasting group (group S) and polishing group (group P). Casting surfaces were analyzed with XRD, while Ti-ceramic interfaces were characterized using SEM/EDS. Metal-ceramic specimens were tested in three point bending, and characterizations were also analyzed with SEM/EDS of porcelain debonding surfaces. In group C, SiO 2 and Ti 5 Si 3 phases were observed; SEM micrograph showed that Ti-porcelain had a compacted interface, and EDS maps of the interface illustrated the diffusion of Si, Al, and Sn to Ti, and cohesive fracture within the bonding agent. The bond strength of group C was 39.04±5.0 MPa, which was 15% higher than that of group S and 32% higher than that of group P. SiO 2 coating could improve Ti-porcelain bond strength.

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Effects of airborne‐particle abrasion, sodium hydroxide anodization, and electrical discharge machining on porcelain adherence to cast commercially pure titanium

2007

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The aim of this study was to determine the effect of airborne-particle abrasion (APA), sodium hydroxide anodization (SHA), and electrical discharge machining (EDM) on cast titanium surfaces and titanium-porcelain adhesion. Ninety titanium specimens were cast with pure titanium and the alpha-case layer was removed. Specimens were randomly divided into three groups. Ten specimens from each group were subjected to APA. SHA was applied to the second subgroups, and the remaining specimens were subjected to the EDM. For the control group, 10 specimens were cast using NiCr alloy and subjected to only APA. Surfaces were examined by using scanning electron microscope and a surface profilometer. Three titanium porcelains were fused on the titanium surfaces, whereas NiCr specimens were covered with conventional porcelain. Titanium-porcelain adhesion was characterized by a 3-point bending test. Statistical analysis showed that the porcelain-metal bond strength of the control group was higher than that of the titanium-porcelain system (p < 0.05). There were no significant differences between the bond strengths of titanium groups (p 0.05), except the bond strengths of Noritake Super Porcelain TI-22 groups on which APA and SHA were applied (p < 0.05). SHA and EDM as surface treatment did not improve titanium-porcelain adhesion when compared to APA.

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Effects of sandblasting and electrical discharge machining on porcelain adherence to cast and machined commercially pure titanium

Cited by 44 publications

References 28 publications

Shear bond strengths of veneering porcelain to cast, machined and laser-sintered titanium

Shear bond strengths of veneering porcelain to cast, machined and laser-sintered titanium

Improvement in Ti-porcelain bonding by SiO2 modification of titanium surface through cast method

Effects of airborne‐particle abrasion, sodium hydroxide anodization, and electrical discharge machining on porcelain adherence to cast commercially pure titanium

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