Degradation, fatigue, and failure of resin dental composite materials

Journal of Dental Research

Volumn 87, Issue 8, 2008, Pages 710-719

  Drummond, J L ^a  

^a UNIVERSITY OF ILLINOIS AT CHICAGO   (United States)

Author keywords

3D tomography; Aging; Cyclic loading; Dental composites; Multi axial compression

Indexed keywords

RESIN;

CHEMISTRY; DENTAL BONDING; DENTAL CARE; DENTAL SURGERY; HUMAN; MECHANICAL STRESS; REVIEW; SURFACE PROPERTY; WEIGHT BEARING;

COMPOSITE RESINS; DENTAL BONDING; DENTAL RESTORATION FAILURE; DENTAL RESTORATION, PERMANENT; DENTAL STRESS ANALYSIS; HUMANS; STRESS, MECHANICAL; SURFACE PROPERTIES; WEIGHT-BEARING;

EID: 52049116099     PISSN: 00220345     EISSN: None     Source Type: Journal    
DOI: 10.1177/154405910808700802     Document Type: Article

References (97)

1. Al-Turki LI, Drummond JL, Agojci M, Gosz M, Tyrus JM, Lin L (2007). Contact versus flexure fatigue of a fiber-filled composite. Dent Mater 23:648-653.
2. ASTM (1990). Annual book of ASTM standards. Part 10. Standard test method for flexural strength of advanced ceramics at ambient temperature. West Conshohocken, PA: ASTM, pp. C-1161-C-1190.
3. ASTM (1997). Standard test methods for the determination of fracture toughness of advanced ceramics at ambient temperature. Revised standard. PS070-97. West Conshohocken, PA: ASTM.
4. Atkinson C, Smelser RE, Sanchez J (1982). Combined mode fracture via the cracked Brazilian disk test. Inter J Frac 18:279-291.
5. Awaji H, Sato S (T978). Combined mode fracture toughness measurement by the disk test. J Eng Mater Technol 100:175-182.
6. Bapna MS, Gadia CM, Drummond JL (2002). Effect of aging and cyclic loading on the mechanical properties of glass ionomer cements. Eur J Oral Sci 110:330-334.
7. Baran G, Shin W, Abbas A, Wunder S (1994). Indentation cracking of composite matrix materials. J Dent Res 73:1450-1456.
8. Baran G, Sadeghipour K, Jayaraman S, Silage D, Paul D, Boberick K (1998). Crack propagation directions in unfilled resins, J Dent Res 77:1864-1873.
9. Bernardo M, Luis H, Martin MD, Leroux BG, Rue T, Leitão J, et al. (2007). Survival and reasons for failure of amalgam versus composite posterior restorations placed in a randomized clinical trial. J Am Dent Assoc 138:775-783.
10. Brackett WW, Browning WD, Brackett MG, Callan RS, Blalock JS (2007). Effect of restoration size on the clinical performance of posterior "packable" resin composites over 18 months. Oper Dent 32:212-216.
11. Braem MJA, Davidson CL, Lambrechts P, Vanherle G (1994). In vitro flexural fatigue limits of dental composites. J Biomed Mater Res 28:1397-1402.
12. Braem MJA, Lambrechts P, Gladys S, Vanherle G (1995). In vitro fatigue behavior of restorative composites and glass ionomers. Dent Mater 11:137-141.
13. Brunthaler A, König F, Lucas T, Sperr W, Schedle A (2003). Longevity of direct composite restorations in posterior teeth. Clin Oral Investig 7:63-70.
14. Burke FJ, Wilson NHF, Cheung SW, Mjör IA (2001). Influence of patient factors on age of restorations at failure and reasons for their placement and replacement. J Dent 29:317-324.
15. Collins CJ, Bryant RW, Hodge KL (1998). A clinical evaluation of posterior composite restorations: 8-year findings. J Dent 26:311-317.
16. Condon JR, Ferracane JL (1997). In vitro wear of composite with varied cure, filler level, and filler treatment. J Dent Res 76:1405-1411.
17. da Rosa Rodolpho PA, Cenci MS, Donassollo TA, Loguércio AD, Demarco FF (2006). A clinical evaluation of posterior composite restorations: 17-year findings. J Dent 34:427-435.
18. Debnath S, Ranade R, Wunder SL, McCool J, Boberick K, Baran G (2004). Interface effects on mechanical properties of particle-reinforced composites. Dent Mater 20:677-686.
19. Dimatteo NP (1996). ASM handbook: fatigue and fracture. Vol. 19. Metals Park, OH: ASM International, The Materials Information Society.
20. Domingo C, Arcís RW, López-Macipe A, Osorio R, Rodríguez-Clemente R, Murtra J, et al. (2001). Dental composites reinforced with hydroxyapatite: mechanical behavior and absorption/elution characteristics. J Biomed Mater Res 56:297-305.
21. Draughn RA (1979). Compressive fatigue limits of composite restorative materials. J Dent Res 58:1093-1096.
22. Drummond JL (1989). Cyclic fatigue of composite restorative materials. J Oral Rehabil 16:509-520.
23. Drummond JL, Botsis J, Zhao D (1995). Fracture mechanics of dental composites. Tn: Encyclopedic handbook of biomaterials and bioengineering. Chapter 56. New York: Marcel Dekker, Inc., pp. 2813-2844.
24. Drummond JL, Botsis J, Zhao D, Samyn J (1998). Fracture properties of aged and post-processed dental composites. Eur J Oral Sci 106:661-666.
25. Drummond JL, De Carlo F, Super BJ (2005). Three-dimensional tomography of composite fracture surfaces. J Biomed Mater Res B: Appl Biomater 74:669-675.
26. Drummond JL, De Carlo F, Sun K, Bedran-Russo A, Koin P, Kotche M, et al. (2006). Tomography of dental composites. Proc SPIE 6318:63182B-l-63182B-8.
27. Ferracane JL (1995). Current trends in dental composites. Crit Rev Oral Biol Med 6:302-318.
28. Ferracane JL, Berge HX (1995). Fracture toughness of experimental dental composites aged in ethanol. J Dent Res 74:1418-1423.
29. Ferracane JL, Condon JR (1992). Post-cure heat treatments of composites: properties and fractography. Dent Mater 8:290-295.
30. Ferracane JL, Marker VA (1992). Solvent degradation and reduced fracture toughness in aged composites. J Dent Res 71:13-19.
31. Ferracane JL, Antonio RC, Matsumoto H (1987). Variables affecting the fracture toughness of dental composites. J Dent Res 66:1140-1145.
32. Ferracane JL, Condon JR, Mitchem JC (1992). Evaluation of subsurface defects created during the finishing of composites. J Dent Res 71:1628-1632;
33. erratum In J Dent Res 72:87, 1993.
34. Ferracane JL, Hopkin JK, Condon JR (1995). Properties of heat-treated composites after aging in water. Dent Mater 11:354-358.
35. Ferracane JL, Berge HX, Condon JR (1998). In vitro aging of dental composites in water - effect of degree of conversion, filler volume, and filler matrix coupling. J Biomed Mater Res 42:465-472.
36. Garoushi S, Vallittu PK, Lassila LVJ (2007). Short glass fiber reinforced restorative composite resin with semi-inter penetrating polymer network matrix. Dent Mater 23:1356-1362.
37. Goldman M (1985). Fracture properties of composite and glass ionomer dental restorative materials. J Biomed Mater Res 19:771-783.
38. Guiberteau F, Padture NP, Cai H, Lawn BR (1993). Indentation fatigue: a simple cyclic Hertzian test for measuring damage accumulation in polycrystalline ceramics. Phil Mag A 68:1003-1016.
39. Hertz HH (1896). Hertz's miscellaneous papers. London: Macmillan, chapters 5 and 6.
40. Hickel R, Manhart J (2001). Longevity of restorations in posterior teeth and reasons for failure. J Adhes Dent 3:45-64.
41. Huang Y, Liu C, Stout MG (1996). A Brazilian disk for measuring fracture toughness of orthotropic materials. Acta Mater 44:1223-1232.
42. Indrani DJ, Cook WD, Televantos F, Tyas MJ, Harcourt JK (1995). Fracture toughness of water-aged resin composite restorative materials. Dent Mater 11:201-207.
43. Jandt KD (1999). Structure of microfilled dental composite fractured surfaces. Probe Microscopy 1:323-331.
44. Kanninen MF, Popelar CH (1985). Advanced fracture mechanics. New York: Oxford University Press, pp. 3-92;138-191.
45. Kotche M, Drummond JL, Sun K, Vural M, De Carlo F (2008). Multiaxial analysis of dental composite materials. J Biomed Mater Res B: Appl Biomater (in press).
46. Krämer N, Garcia-Godoy F, Frankenberger R (2005). Evaluation of resin composite materials. Part II: in vivo investigations. Am J Dent 18:75-81.
47. Lateef SS, Boateng S, Hartman TJ, Crot CA, Russell B, Hanley L (2002). GRGDSP peptide bound silicone membranes withstand mechanical flexing in vitro and display enhanced fibroblast adhesion. Biomaterials 23:3159-3168.
48. Lawn BR, Wilshaw TR (1975). Indentation fracture: principles and applications. J Mater Sci 10:1049-1081.
49. Lin CT, Lee SY, Keh ES, Dong DR, Huang HM, Shih YH (2000). Influence of silanization and filler fraction on aged dental composites. J Oral Rehabil 27:919-926.
50. Liu Q, Ding J, Chambers DE, Debnath S, Wunder SL, Baran GR (2001). Filler-coupling agent-matrix interactions in silica/polymethyl-methacrylate composites. J Biomed Mater Res 57:384-393.
51. Lloyd CH (1982). The fracture toughness of dental composites, II. J Oral Rehabil 9:133-138.
52. Lloyd CH (1984). The fracture toughness of dental composites. III. J Oral Rehabil 11:393-398.
53. Lohbauer U, Frankenberger R, Krämer N, Petschelt (2006). A. Strength and fatigue performance versus filler fraction of different types of direct dental restoratives. J Biomed Mater Res Part B: Appl Biomater 76:114-120.
54. Ma Z, Ravi Chandar K (2000). Confined compression: a stable homogeneous constitutive characterization. Exper Mech 40:38-45.
55. Manhart J, Kunzelmann KFI, Chen HY, Hickel R (2000). Mechanical properties of new composite restorative materials. J Biomed Mater Res 53:353-361.
56. McCabe JF, Wang Y, Braem M (2000). Surface contact fatigue and flexural fatigue of dental restorative materials. J Biomed Mater Res 50:375-380.
57. McKinney JE, Wu W (1982). Relationship between subsurface damage and wear of dental restorative composites. J Dent Res 61:1083-1088.
58. Mjör IA, Moorhed JE (1998). Selection of restorative materials, reasons for replacement, and longevity of restorations in Florida. J Am Coll Dent 65:27-33.
59. Musto P, Ragosta G, Scarinza G, Mascia L (2002). Probing the molecular interactions in the diffusion of water through epoxy and epoxybismaleimide networks. J Polym Sci Part B: Polym Phys 40:922-938.
60. Nicholson JW (2000). Adhesive dental materials and their durability. Inter J Adhes & Adhes 20:11-16.
61. O'Brien WJ (2002). Polymeric restorative materials. In: Dental materials and their selection. 3rd ed. Chicago, IL: Quintessence Publishing Company, Inc., pp. 113-131.
62. Oshida Y, Hashem A, Elsalawy R (1995). Some mechanistic observation on water-deteriorated dental composite resins. Bio-Med Mater Eng 5:93-115.
63. Papadogiannis Y, Lakes RS, Palaghias G, Helvatjoglu-Antoniades M, Papadogiannis D (2007). Fatigue of packable dental composites. Dent Mater 23:235-242.
64. Pilliar RM, Smith DC, Maric B (1986). Fracture toughness of dental composite determined using the short-rod fracture toughness test. J Dent Res 65:1308-1314.
65. Plueddemann EP (1988). Present status and research needs in silane coupling. In: Interfaces in polymer, ceramic, and metal matrix composites. Ishida H, editor. New York: Elsevier, pp. 17-33.
66. Poon ECM, Smales RJ, Yip KH (2005). Clinical evaluation of packable and conventional hybrid posterior resin-based composites: results at 3.5 years. J Am Dent Assoc 136:1533-1540.
67. Raskin A, Michote-Theall B, Verven J, Wilson NHF (1999). Clinical evaluation of a posterior composite 10-year report. J Dent 27:13-19.
68. Ravindranath V, Gosz M, DeSantiago E, Drummond JL, Mostovoy S (2007). Effect of cyclic loading and environmental aging on the fracture toughness of dental composites. J Biomed Mater Res Part B: Appl Biomater 80:226-235.
69. Rodrigues SA Jr, Ferracane JL, Delia Bona A (2007). Flexural strength and Weibull analysis of a microhydrid and a nanofill composite evaluated by 3- and 4-point bending tests. Dent Mater 24:426-431.
70. Roulet JF (1987). Degradation of dental polymers. Basel, Switzerland: Karger, pp. 1-228.
71. Sakaguchi RL, Cross M, Douglas WH (1992). A simple model of crack propagation in dental restorations. Dent Mater 8:131-136.
72. Sanchez J (1979). Application of the disk test to mode I-II fracture analysis (Master's thesis). Pittsburgh, PA: University of Pittsburgh.
73. Scheibenbogen-Fuchsbrunner A, Manhart J, Kremers L, Kunzelmann KH, Hickel R (1999). Two-year clinical evaluation of direct and indirect composite restorations in posterior teeth. J Prosthet Dent 82:391-397.
74. Scherrer SS, Botsis J, Studer M, Pini M, Wiskott HWA, Besler UC (2000). Fracture toughness of aged dental composites in combined mode I and mode II loading. J Biomed Mater Res 53:362-370.
75. Ségard E, Benmedakhene S, Laksimi A, Laï D (2003). Damage analysis and fibre-matrix effect in polypropylene reinforced by short glass fibres above glass transition temperature. Comp Struct 60:67-72.
76. Shetty DK, Rosenfield AR, Duckworth WH (1986). Mixed-mode fracture of ceramics in diametral compression. J Am Ceram Soc 69:437-443.
77. Söderholm KJ, Roberts MJ (1990). Influence of water exposure on the tensile strength of composites. J Dent Res 69:1812-1816.
78. Soncini JA, Maserejian NN, Trachtenberg F, Tavares M, Hayes C (2007). The longevity of amalgam versus compomer/composite restorations in posterior primary and permanent teeth. J Am Dent Assoc 138:763-772.
79. Takeshige F, Kawakami Y, Hayashi M, Ebisu S (2007). Fatigue behavior of resin composites in aqueous environments. Dent Mater 23:893-899.
80. Tian M, Gao Y, Liu Y, Liao Y, Hedin NE, Fong H (2007). Fabrication and evaluation of Bis-GMA/TEGDMA dental resins/composites containing nano fibrillar silicate. Dent Mater 24:235-243.
81. Tikare V, Choi SR (1993). Combined mode I and mode II fracture of monolithic ceramics. J Am Ceram Soc 76:2265-2272.
82. Ulman A (1996). Formation and structure of self-assembled monolayers. Chem Rev 96:1533-1554.
83. van Dijken JWV, Sunnegårdh-Grönberg K (2006). Fiber-reinforced packable resin composites in class II cavities. J Dent 34:763-769.
84. Wahl MJ, Schmitt MM, Overton DA, Gordon MK (2004). Prevalence of cusp fractures in teeth with amalgam and with resin-based composite. J Am Dent Assoc 135:1127-1132.
85. Wright KHR, Burton AW (1976). Wear of dental tissues and restorative materials. In: The wear of non-metallic materials. Dowson D, Godet M, Taylor M, editors. London: Mechanical Engineering Publication, pp. 116-126.
86. Wu W, Toth EE, Moffa JF, Ellison JA (1984). Subsurface damage layer of in vivo worn dental composite restorations. J Dent Res 63:675-680.
87. Xiao S-J, Textor M, Spencer ND, Sigrist H (1998). Covalent attachment of cell-adhesive (Arg-Gly-Asp)-containing peptides to titanium surfaces. Langmuir 14:5507-5516.
88. Xu HHK (1999). Dental composite resins containing silica-fused ceramic single-crystalline whiskers with various filler levels. J Dent Res 78:1304-1311.
89. Xu HHK (2000). Whisker-reinforced heat-cured dental resin composites: effects of filler level and heat-cure temperature and time. J Dent Res 79:1392-1397.
90. Xu HHK (2003). Long-term water-aging of whisker-reinforced polymer-matrix composites. J Dent Res 82:48-52; erratum in J Dent Res 82:326, 2003.
91. Xu HHK, Smith DT, Eichmiller FC, Schumacher GE, Antonucci JM (2000). Indentation modulus and hardness of whisker-reinforced heat-cured dental resin composites. Dent Mater 16:248-254.
92. Xu HHK, Eichmiller FC, Smith DT, Schumacher GE, Giuseppetti AA, Antonucci JM (2002a). Effect of thermal cycling on whisker-reinforced dental resin composites. J Mater Sci Mater Med 13:875-883.
93. Xu HHK, Quinn JB, Smith DT, Antonucci JM, Schumacher GE, Eichmiller FC (2002b). Dental resin composites containing silica-fused whiskers - effects of whisker-to-silica ratio on fracture toughness and indentation properties. Biomaterials 23:735-742.
94. Xu HHK, Quinn JB, Smith DT, Giuseppetti AA, Eichmiller FC (2003). Effects of different whiskers on the reinforcement of dental resin composites. Dent Mater 19:359-367.
95. Xu HHK, Quinn JB, Giuseppetti AA (2004). Wear and mechanical properties of nano-silica-fused whisker composites. J Dent Res 83:930-935.
96. Yiu CKY, King NM, Pashley DH, Suh BI, Carvalho RM, Carrilho MRO, et al. (2004). Effect of resin hydrophilicity and water storage on resin strength. Biomaterials 25:5789-5796.
97. Yoshida K, Condon JR, Atsuta M, Ferracane JL (2003). Flexural fatigue strength of CAD/CAM composite material and dual-cured resin luting cements. Am J Dent 16:177-180.