Effect of different air-abrasion particles on metal-ceramic bond strength

Külünk, Tolga; Kurt, Murat; Ural, Çağrı; Külünk, Şafak; Baba, Seniha

doi:10.1016/j.jds.2011.05.003

Cited by 27 publications

(33 citation statements)

References 25 publications

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“…This bond depends directly on the formation of an oxide layer on the surface of the metal before firing the ceramic [4][5][6] . The control of this layer can be facilitated by APA using Al 2 O 3 , which also increases the area and the degree of wettability of the metal framework for the application of the ceramic 8,9 .…”

Section: Discussionmentioning

confidence: 99%

“…Reports have claimed, however, that this process may compromise the marginal integrity of the metal, and that damage is directly proportional to the size of the Al 2 O 3 particle [23][24][25] . In a study comparing metal-ceramic adhesion in Co-Cr and Ni-Cr alloys, there was a better bond strength in specimens that used Al 2 O 3 particles 110 μm in size 8 .…”

Section: Discussionmentioning

confidence: 99%

“…There are three possibilities of retention, including Van der Waals forces, micromechanical retention and chemical bonding, which is the main factor, and is characterized by the exchange of oxides between the metal and the oxidizable elements of ceramics [4][5][6] . Several surface treatments have been studied, such as airborne particle abrasion (APA) with aluminum oxide (Al 2 O 3 ) particles, which is a commonly used method for providing mechanical retention, resulting in the formation of an oxide layer that facilitates adhesion of the porcelain and increases the metal surface energy [7][8][9][10] . However, the size of the particles used in this process varies.…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of ceramic flexural strength of a cobalt-chromium alloy subjected to airborne particle abrasion and tungsten inert gas welding

et al. 2019

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Aim: The aim of this study was to evaluate the influence of tungsten inert gas (TIG) welding and airborne particle abrasion using aluminum oxide particles on the flexural strength of a joint between ceramic and cobalt-chromium alloys. Methods: The specimens were cast and welded using TIG, then divided into 6 groups (n = 10) and subjected to blasting with 250 μm, 100 μm, and 50 μm aluminum oxide particles. Ceramic systems were applied to the central part of all specimens. A three-point bending test using a velocity of 0.5 mm/m was performed on the specimens to measure flexural strength. Data were analyzed using two-way analysis of variance and Tukey’s test. Results: TIG welding demonstrated the lowest resistance compared with the non-welded groups. Airborne particle abrasion using 250 μm aluminum oxide particles demonstrated greater resistance in the welded groups (p < 0.05). Mixed faults were found in all specimens. Conclusion: TIG welding decreased the bond strength, and the particle size of aluminum oxide did not affect the metal-ceramic bond in groups without TIG welding.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Evaluation of ceramic flexural strength of a cobalt-chromium alloy subjected to airborne particle abrasion and tungsten inert gas welding

et al. 2019

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“…Külünk et al 21) used 50 and 110 µ alumina particles to determine the effect of alumina particle size on metal-ceramic bond strength and concluded that higher bond strength values were obtained with 110 µ alumina particles. On the other hand, the difference of chemical composition and stiffness between Co-Cr and Ni-Cr alloys may also affect the surface roughness of tested metal surfaces after a standard sandblasting procedure.…”

Section: Discussionmentioning

confidence: 99%

“…Although not completely defined, they claimed that the adhesion between ceramic and metal depends on suitable oxidation of the metal and interdiffusion of ions between metal and ceramic. Additionally, Külünk et al 21) reported that the bond strength between ceramic and casting alloy is determined by the strength of chemical bonds, mechanical interlocking, the type and concentration of defects at the interface, wetting properties, and the degree of compressive stress in the ceramic layer due to differences in the coefficients of thermal expansion between the metal and ceramic.…”

Section: Introductionmentioning

confidence: 99%

Interfacial shear bond strength between different base metal alloys and five low fusing feldspathic ceramic systems

Sipahi

Özcan

2012

Dent. Mater. J.

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This study compared the bond strength between metal alloys and 5 ceramic systems. Ceramic systems (Vita VMK68, Ivoclar IPSd. SIGN, Ceramco II, Matchmaker and Finesse) were fired onto either Ni-Cr or Co-Cr base metal alloy. Metal-ceramic interfaces were subjected to shear loading until failure. The ceramic type significantly affected the bond strength results (p<0.05). For Ni-Cr alloy, the results ranged between 15.4-25.3 MPa and for Co-Cr alloy between 13.3-19.0 MPa. The highest mean bond strength value was obtained with the combination of Ni-Cr alloy-Ceramco II (25.3 MPa), the lowest bond strength was received from the combination of Co-Cr alloy-Ivoclar IPS d.SIGN ceramic (13.3 MPa). Adhesive failures between metal and ceramic were significantly more frequent with Ni-Cr alloy (31 out of 50) than with Co-Cr (20 out of 50) (p<0.05). Ceramco II presented the highest bond strength with both Ni-Cr and Co-Cr being significantly different from one another.

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The Condition of Ni-Cr Alloy Surface After Abrasive Blasting with Various Parameters

Czepułkowska

Wołowiec‐Korecka

Klimek

2019

J. of Materi Eng and Perform

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The parameters of abrasive blasting process directly affect the condition of the metal surface, changing the degree of surface roughness and wettability, depending on the size of the used particle, the pressure or type of abrasive. The aim of this study was to analyze the condition of Ni-Cr alloy surface after abrasive blasting using various process variants. The samples were blasted by Al 2 O 3 abrasive using various particle sizes and pressures of the process. Basic and specific roughness parameters were investigated, and a surface wettability test was performed, and the percentage share of abrasive particles penetrated in the surface after abrasive blasting was also examined. The most considerable differences in the condition of the surface were observed with the change in the particle size of Al 2 O 3. Statistical analysis confirmed the statistical significance of all these relationships.

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Effect of different air-abrasion particles on metal-ceramic bond strength

Cited by 27 publications

References 25 publications

Evaluation of ceramic flexural strength of a cobalt-chromium alloy subjected to airborne particle abrasion and tungsten inert gas welding

Evaluation of ceramic flexural strength of a cobalt-chromium alloy subjected to airborne particle abrasion and tungsten inert gas welding

Interfacial shear bond strength between different base metal alloys and five low fusing feldspathic ceramic systems

The Condition of Ni-Cr Alloy Surface After Abrasive Blasting with Various Parameters

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