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Acta Odontologica Scandinavica Volume 40, 1982 - Issue 5
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Original Article

Compressive creep of light cured resin based restorative materials

Ivar Eystein Ruyter NIOM, Scandinavian Institute of Dental Materials, Oslo, Norway
&
Harry Øysæd NIOM, Scandinavian Institute of Dental Materials, Oslo, Norway
Pages 319-324 | Published online: 02 Jul 2009

Citations (37)

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Yoshio Hayakawa, Taizo Ono, Tetsuya Watanabe, Takaharu Tateishi, Takahide Sakai & Kimio Toyama. (2013) Anti-Staining Polymer Composites Consisting of a Methacrylic Resin Matrix Containing Biphenyl and Fluorinated Moieties. Journal of Macromolecular Science, Part A 50:5, pages 498-503.
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Kjersti Karine Kildal & Ivar Eystein Ruyter. (1994) How different curing methods affect the degree of conversion of resin-based inlay/onlay materials. Acta Odontologica Scandinavica 52:5, pages 315-322.
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Articles from other publishers (35)

Naresh Kumar, Muhammad S. Zafar, Waheed M. Dahri, Muhammad A. Khan, Zohaib Khurshid & Shariq Najeeb. (2018) Effects of deformation rate variation on biaxial flexural properties of dental resin composites. Journal of Taibah University Medical Sciences 13:4, pages 319-326.
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Khold Al-Ahdal, Nick Silikas & David C. Watts. (2015) Development of viscoelastic stability of resin-composites incorporating novel matrices. Dental Materials 31:12, pages 1561-1566.
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Naresh Kumar & Adrian Shortall. (2014) Performance of the experimental resins and dental nanocomposites at varying deformation rates. Journal of Investigative and Clinical Dentistry 5:3, pages 237-242.
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S. El-Safty, N. Silikas & D.C. Watts. (2013) Temperature-dependence of creep behaviour of dental resin-composites. Journal of Dentistry 41:4, pages 287-296.
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Muhammad Kaleem, Julian D. Satterthwaite & David C. Watts. (2012) Effect of filler size and morphology on viscoelastic stability of resin-composites under dynamic loading. Journal of Materials Science: Materials in Medicine 23:3, pages 623-627.
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Muhammad Kaleem, Konstantinos Masouras, Julian D. Satterthwaite, Nick Silikas & David C. Watts. (2012) Viscoelastic stability of resin-composites under static and dynamic loading. Dental Materials 28:2, pages e15-e18.
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Kusai Baroudi, Nick Silikas & David C. Watts. (2007) Time-dependent visco-elastic creep and recovery of flowable composites. European Journal of Oral Sciences 115:6, pages 517-521.
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Álvaro Della Bona, Vinícius Rosa & Dileta Cecchetti. (2007) Influence of shade and irradiation time on the hardness of composite resins. Brazilian Dental Journal 18:3, pages 231-234.
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Rie Nomoto, Masayuki Asada, John F. McCabe & Susumu Hirano. (2006) Light exposure required for optimum conversion of light activated resin systems. Dental Materials 22:12, pages 1135-1142.
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Soo-Kyung ChoDong-Jun KimYun-Chan HwangWon-Mann OhIn-Nam Hwang. (2005) Surface hardness of the dental composite cured by light that penetrate tooth structure according to thickness of tooth structure, light intensity and curing time. Journal of Korean Academy of Conservative Dentistry 30:2, pages 128.
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Hanadi Yousif Marghalani & Abed Sulaiman Al-jabab. (2004) Compressive creep and recovery of light-cured packable composite resins. Dental Materials 20:6, pages 600-610.
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Cheol-Min JeonHyun-Mi YooHyuk-Choon Kwon. (2004) Effect of pH and storage time on the elution of residual monomers from polymerized composite resins. Journal of Korean Academy of Conservative Dentistry 29:3, pages 249.
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David H Pashley, Kelli A Agee, John C Wataha, Frederick Rueggeberg, Laura Ceballos, Kousuke Itou, Masahiro Yoshiyama, Ricardo M Carvalho & Franklin R Tay. (2003) Viscoelastic properties of demineralized dentin matrix. Dental Materials 19:8, pages 700-706.
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J Vaidyanathan & T.K Vaidyanathan. (2001) Flexural creep deformation and recovery in dental composites. Journal of Dentistry 29:8, pages 545-551.
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A.A El Hejazi & D.C Watts. (1999) Creep and visco-elastic recovery of cured and secondary-cured composites and resin-modified glass-ionomers. Dental Materials 15:2, pages 138-143.
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Yildirim H. Bağis & Frederick A. Rueggeberg. (1997) Mass loss in urethane/TEGDMA- and Bis-GMA/TEGDMA-based resin composites during post-cure heating. Dental Materials 13:5-6, pages 377-380.
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Kjersti Karine Kildal & Ivar Eystein Ruyter. (2007) How different curing methods affect mechanical properties of composites for inlays when tested in dry and wet conditions. European Journal of Oral Sciences 105:4, pages 353-361.
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Sangwoo Kim & Jyongsik Jang. (1996) The measurement of degree of conversion for BIS-GMA/silica composites by FT-IR spectroscopy. Polymer Testing 15:6, pages 559-571.
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H. Devlin, A.J. Cash & D.C. Watts. (1995) Mechanical behaviour and structure of light-cured special tray materials. Journal of Dentistry 23:4, pages 255-259.
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M. Berge. (1989) Properties of prosthetic resin-veneer materials processed in commercial laboratories. Dental Materials 5:2, pages 77-81.
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H. Øysæd, I.E. Ruyter & I.J. Sjøvik Kleven. (2016) Release of Formaldehyde from Dental Composites. Journal of Dental Research 67:10, pages 1289-1294.
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I.E. Ruyter. (2016) Composites - Characterization of Composite Filling Materials: Reactor Response. Advances in Dental Research 2:1, pages 122-133.
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M. Berge. (1988) Creep of resin veneer materials. Dental Materials 4:3, pages 158-162.
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A. Odén, I.E. Ruyter & H. Øys˦d. (1988) Creep and recovery of composites for use in posterior teeth during static and dynamic compression. Dental Materials 4:3, pages 147-150.
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M. Braem, P. Lambrechts, G. Vanherle & C.L. Davidson. (2016) Stiffness Increase During the Setting of Dental Composite Resins. Journal of Dental Research 66:12, pages 1713-1716.
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G.C. Eliades, G.J. Vougiouklakis & A.A. Caputo. (1987) Degree of double bond conversion in light-cured composites. Dental Materials 3:1, pages 19-25.
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Ivar Eystein Ruyter & Harry Øysæd. (2004) Composites for use in posterior teeth: Composition and conversion. Journal of Biomedical Materials Research 21:1, pages 11-23.
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JAN W. V. VAN DIJKEN, I. EYSTEIN RUYTER & ROY I. HOLLAND. (2007) Porosity in posterior composite resins. European Journal of Oral Sciences 94:5, pages 471-478.
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Harry Øysaed & Ivar Eystein Ruyter. (1986) Composites for use in posterior teeth: Mechanical properties tested under dry and wet conditions. Journal of Biomedical Materials Research 20:2, pages 261-271.
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J.L. Ferracane, H. Matsumoto & T. Okabe. (2016) Time-dependent Deformation of Composite Resins — Compositional Considerations. Journal of Dental Research 64:11, pages 1332-1336.
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M.S. Bapna, H.J. Mueller & R. Knoeppel. (2016) Compressive Creep of Dental Composites. Journal of Dental Research 64:9, pages 1179-1184.
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E.C. Combe, M. Braden, D. Brown, N.P. Bunton, B.E. Causton, Angela M. Fletcher, C.H. Lloyd, J.F. McCabe, H.J. Prosser, M. Sherriff, R. Strang, R. van Noort, N.E. Waters, D.C. Watts, K. Williams & A.D. Wilson. (1985) Dental materials: 1982 literature review Part 2. Journal of Dentistry 13:3, pages 192-229.
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M. Goldman. (1985) Fracture properties of composite and glass ionomer dental restorative materials. Journal of Biomedical Materials Research 19:7, pages 771-783.
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D.J. Cock & D.C. Watts. (2016) Time-dependent Deformation of Composite Restorative Materials in Compression. Journal of Dental Research 64:2, pages 147-150.
Crossref
Yannis Papadogianis, Daniel B. Boyer & Roderic S. Lakes. (2004) Creep of posterior dental composites. Journal of Biomedical Materials Research 19:1, pages 85-95.
Crossref

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