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Hauptverfasser: Ernesto B. Benalcázar‐Jalkh, Adolfo C. O. Lopes, Edmara T. P. Bergamo, Laura F. de Carvalho, Lukasz Witek, Paulo G. Coelho, Abbas Zahoui, Estevam A. Bonfante
Format: Artículo Open Access
Veröffentlicht: Wiley 2025
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Online-Zugang:https://onlinelibrary.wiley.com/doi/10.1111/eos.70021
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author Ernesto B. Benalcázar‐Jalkh
Adolfo C. O. Lopes
Edmara T. P. Bergamo
Laura F. de Carvalho
Lukasz Witek
Paulo G. Coelho
Abbas Zahoui
Estevam A. Bonfante
author_facet Ernesto B. Benalcázar‐Jalkh
Adolfo C. O. Lopes
Edmara T. P. Bergamo
Laura F. de Carvalho
Lukasz Witek
Paulo G. Coelho
Abbas Zahoui
Estevam A. Bonfante
Ernesto B. Benalcázar‐Jalkh
Adolfo C. O. Lopes
Edmara T. P. Bergamo
Laura F. de Carvalho
Lukasz Witek
Paulo G. Coelho
Abbas Zahoui
Estevam A. Bonfante
collection Wiley Open Access
contents Effect of bulk material on the reliability and failure mode of narrow implants Ernesto B. Benalcázar‐Jalkh Adolfo C. O. Lopes Edmara T. P. Bergamo Laura F. de Carvalho Lukasz Witek Paulo G. Coelho Abbas Zahoui Estevam A. Bonfante European Journal of Oral Sciences AbstractThe aim of the study was to assess the effect of bulk material on the reliability and failure modes of narrow‐diameter implants. Narrow implants (Ø3.5 × 10 mm ‐ 11° internal conical connection) were manufactured from three different bulk materials: commercially pure titanium grade‐IV (CP4), cold‐worked titanium (CW), and 4Titude (4Ti), and were evaluated under fatigue testing. Eighteen samples per group were tested under step‐stress accelerated life testing through 30° off‐axis load application in mild, moderate, and aggressive loading profiles. The number of cycles and load at failure were used to calculate use‐level probability curves and reliability for missions of 100,000 cycles up to 200 N, followed by fractographic analyses. Beta values suggested that damage accumulation dictated failures. Reliability analyses at 80, 120, and 150 N evidenced high reliability for narrow implants independent of bulk material. At 200 N, a decrease in reliability was observed for all groups (∼46%). Failure mode analysis depicted similar failures for all groups and comprised implant fracture, abutment fracture, and implant + abutment fractures. Narrow implants presented high reliability for physiologic masticatory forces in the anterior region. Characteristic strength, reliability, and failure modes were similar regardless of bulk material, suggesting that fatigue damage accumulation at thin wall implants dictated failure over bulk material strength. 10.1111/eos.70021 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1111/eos.70021
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institution Wiley Open Access
license_str_mv http://creativecommons.org/licenses/by/4.0/
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spellingShingle Effect of bulk material on the reliability and failure mode of narrow implants
Ernesto B. Benalcázar‐Jalkh
Adolfo C. O. Lopes
Edmara T. P. Bergamo
Laura F. de Carvalho
Lukasz Witek
Paulo G. Coelho
Abbas Zahoui
Estevam A. Bonfante
European Journal of Oral Sciences
Effect of bulk material on the reliability and failure mode of narrow implants Ernesto B. Benalcázar‐Jalkh Adolfo C. O. Lopes Edmara T. P. Bergamo Laura F. de Carvalho Lukasz Witek Paulo G. Coelho Abbas Zahoui Estevam A. Bonfante European Journal of Oral Sciences AbstractThe aim of the study was to assess the effect of bulk material on the reliability and failure modes of narrow‐diameter implants. Narrow implants (Ø3.5 × 10 mm ‐ 11° internal conical connection) were manufactured from three different bulk materials: commercially pure titanium grade‐IV (CP4), cold‐worked titanium (CW), and 4Titude (4Ti), and were evaluated under fatigue testing. Eighteen samples per group were tested under step‐stress accelerated life testing through 30° off‐axis load application in mild, moderate, and aggressive loading profiles. The number of cycles and load at failure were used to calculate use‐level probability curves and reliability for missions of 100,000 cycles up to 200 N, followed by fractographic analyses. Beta values suggested that damage accumulation dictated failures. Reliability analyses at 80, 120, and 150 N evidenced high reliability for narrow implants independent of bulk material. At 200 N, a decrease in reliability was observed for all groups (∼46%). Failure mode analysis depicted similar failures for all groups and comprised implant fracture, abutment fracture, and implant + abutment fractures. Narrow implants presented high reliability for physiologic masticatory forces in the anterior region. Characteristic strength, reliability, and failure modes were similar regardless of bulk material, suggesting that fatigue damage accumulation at thin wall implants dictated failure over bulk material strength. 10.1111/eos.70021 http://creativecommons.org/licenses/by/4.0/
title Effect of bulk material on the reliability and failure mode of narrow implants
topic European Journal of Oral Sciences
url https://onlinelibrary.wiley.com/doi/10.1111/eos.70021