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Yıl 2020, Cilt 23, Sayı 4, 364 - 370, 31.12.2020
https://doi.org/10.7126/cumudj.798591

Öz

Kaynakça

  • 1Lee SY, Lai YL, Hsu TS. Influence of polymerization conditions on monomer elution and microhardness of autopolymerized polymethyl methacrylate resin. Eur J Oral Sci 2002;110:179-83.
  • Agha H, Flinton R, Vaidyanathan T. Optimization of Fracture Resistance and Stiffness of Heat-Polymerized High Impact Acrylic Resin with Localized E-Glass FiBER FORCE® Reinforcement at Different Stress Points. J Prosthodont. 2016;25:647-55.
  • Seo ́ RS, Vergani CE, Giampolo ET, Pavarina C, Nunes Reis JM, Machado AL. Effect of Disinfection by Microwave Irradiation on the Strength of Intact and Relined Denture Bases and the Water Sorption and Solubility of Denture Base and Reline Materials. J Appl Poly Sci. 2008;107:300-8.
  • Franklin P, Wood DJ, Bubb NL. Reinforcement of poly(methyl methacrylate) denture base with glass flake. Dent Mater 2006;21:365-70.
  • Jagger DC, Jagger RG, Allen SM, Harrison A. An investigation into the transverse and impact strength of "high strength" denture base acrylic resins. J Oral Rehabil. 2002;29:263-7.
  • Somkuwar S, Mishra SK, Agrawal B, Choure R. Comparison of the flexural strength of polymethyl methacrylate resin reinforced with multiwalled carbon nanotubes and processed by conventional water bath technique and microwave polymerization. J Indian Prosthodont Soc. 2017;17:332-9.
  • Palaskar JN, Singh S, Mittal S. Evaluation and comparison of different polymerization techniques, curing cycles, and thicknesses of two denture base materials. Indian J Dent Res. 2019;30:583-9.
  • Selecman AM, Brodine BA. Poly(methylmethacrylate) Microwave Processing: A Technique Paper. J Prosthodont. 2020;29:94-6.
  • Vuorinen AM, Dyer SR, Lassila LVJ, Vallittu PK. Effect of rigid rod polymer filler on mechanical properties of poly-methyl methacrylate denture base material. Dent Mater. 2008;24:708-13.
  • Saen-Isara T, Dechkunakorn S, Anuwongnukroh N, Srikhirin T, Tanodekaew S, Wichai W. Influence of the cross-linking agent on mechanical properties of PMMA powder with compromised particle morphology. Int Orthod. 2017;15:151-64.
  • Molinari JA, Runnells RR. Role of disinfectants in infection control. Dent Clin North Am. 1991;35:323-37.
  • Craig RG. Restorative dental materials. 9th ed. Mosby:St. Louis, 1993.
  • Zuo W, Feng D, Song A, Gong H, Zhu S. Effects of organic-inorganic hybrid coating on the color stability of denture base resins. J Prosthet Dent 2016;115:103-8.
  • Gungor H, Gundogdu M, Duymus ZY. Investigation of the effect of different polishing techniques on the surface roughness of denture base and repair materials. J Prosthet Dent 2014;112:1271-7.
  • Sahin O, Koroglu A, Dede DÖ, Yilmaz B. Effect of surface sealant agents on the surface roughness and color stability of denture base materials. J Prosthet Dent 2016;116:610-6.
  • Alla R, Raghavendra KN, Vyas R, Konakanchi A. Conventional and contemporary polymers for the fabrication of denture prosthesis: part I – overview, composition and properties. Int J Appl Dent Sci. 2015;1:82–9.
  • Lai CP, Tsai MH, Chen M, Chang HS, Tay HH. Morphology and properties of denture acrylic resins cured by microwave energy and conventional water bath. Dent Mater. 2004;20:133-41.
  • Anusavice KJ, Phillips RW. Phillips' science of dental materials. 11 th ed. St. Louis, Mo.: Saunders; 2003. Chapter 19 p. 474.
  • Gad MM, Rahoma A, Al-Thobity AM. Effect of polymerization technique and glass fiber addition on the surface roughness and hardness of PMMA denture base material. Dent Mater J. 2018;37:746-53.
  • Ayaz EA, Durkan R, Koroglu A, Bagis B. Comparative effect of different polymerization techniques on residual monomer and hardness properties of PMMA-based denture resins. J Appl Biomater Funct Mater. 2014;12:228-33.
  • Gad MM, Fouda SM, ArRejaie AS, Al-Thobity AM. Comparative Effect of Different Polymerization Techniques on the Flexural and Surface Properties of Acrylic Denture Bases. J Prosthodont. 2019;28:458-65.
  • Pavlinec J, Moszner N. Monomers for adhesive polymers, 8a crosslinking polymerization of selected N‐substituted bis(acrylamide)s for dental filling materials. J Appl Poly Sci. 2009;113:3137–45.
  • Johnston EP, Nicholls JI, Smith DE. Flexure fatigue of 10 commonly used denture base resins. J Prosthet Dent. 1981;46:478-83.
  • Faot F, Costa AM, Del Bel Cury A, Rodrigues Garcia CM. Impact strength and fracture morphology of denture acrylic resins. J Prosthet Dent. 2006;96:367-73.

THE EFFECT OF AUTOCLAVE POLYMERIZATION ON THE TENSILE STRENGTH OF VARIOUS DENTURE BASE MATERIALS

Yıl 2020, Cilt 23, Sayı 4, 364 - 370, 31.12.2020
https://doi.org/10.7126/cumudj.798591

Öz

Objectives: The aim of this in vitro study was to evaluate the effect of autoclave polymerization method on the tensile strength of the polymethylmethacrylate (PMMA) acrylic denture base resins. Materials and Methods: Total of 60 specimens were fabricated from four different denture base materials such as three heat polymerized dental resins Meliodent, Paladent, and QC-20 and one microwave polymerized resin Acron MC. The tensile strength tests were performed. Results: Acron-MC showed the highest tensile strength value, QC-20, Paladent and Meliodent were followed in order for the control group. Acron MC was significantly different than the other acrylic resins for the control and autoclave polymerization 10 minutes groups (p<0.01). Autoclave polymerized acrylic resin specimens showed higher tensile strength values than the control groups (p<0.01). There was no significant difference between the increasing time of autoclave polymerization methods 10 minutes and 20 minutes (p>0.01) Conclusion: Within the limitations of the study, autoclave polymerization method may provide a stronger alternative to conventional polymerization methods. Autoclave polymerization method provides high temperature that the activation ratio of cross-linking agents (glycoldimethacrylate) can be increased.

Kaynakça

  • 1Lee SY, Lai YL, Hsu TS. Influence of polymerization conditions on monomer elution and microhardness of autopolymerized polymethyl methacrylate resin. Eur J Oral Sci 2002;110:179-83.
  • Agha H, Flinton R, Vaidyanathan T. Optimization of Fracture Resistance and Stiffness of Heat-Polymerized High Impact Acrylic Resin with Localized E-Glass FiBER FORCE® Reinforcement at Different Stress Points. J Prosthodont. 2016;25:647-55.
  • Seo ́ RS, Vergani CE, Giampolo ET, Pavarina C, Nunes Reis JM, Machado AL. Effect of Disinfection by Microwave Irradiation on the Strength of Intact and Relined Denture Bases and the Water Sorption and Solubility of Denture Base and Reline Materials. J Appl Poly Sci. 2008;107:300-8.
  • Franklin P, Wood DJ, Bubb NL. Reinforcement of poly(methyl methacrylate) denture base with glass flake. Dent Mater 2006;21:365-70.
  • Jagger DC, Jagger RG, Allen SM, Harrison A. An investigation into the transverse and impact strength of "high strength" denture base acrylic resins. J Oral Rehabil. 2002;29:263-7.
  • Somkuwar S, Mishra SK, Agrawal B, Choure R. Comparison of the flexural strength of polymethyl methacrylate resin reinforced with multiwalled carbon nanotubes and processed by conventional water bath technique and microwave polymerization. J Indian Prosthodont Soc. 2017;17:332-9.
  • Palaskar JN, Singh S, Mittal S. Evaluation and comparison of different polymerization techniques, curing cycles, and thicknesses of two denture base materials. Indian J Dent Res. 2019;30:583-9.
  • Selecman AM, Brodine BA. Poly(methylmethacrylate) Microwave Processing: A Technique Paper. J Prosthodont. 2020;29:94-6.
  • Vuorinen AM, Dyer SR, Lassila LVJ, Vallittu PK. Effect of rigid rod polymer filler on mechanical properties of poly-methyl methacrylate denture base material. Dent Mater. 2008;24:708-13.
  • Saen-Isara T, Dechkunakorn S, Anuwongnukroh N, Srikhirin T, Tanodekaew S, Wichai W. Influence of the cross-linking agent on mechanical properties of PMMA powder with compromised particle morphology. Int Orthod. 2017;15:151-64.
  • Molinari JA, Runnells RR. Role of disinfectants in infection control. Dent Clin North Am. 1991;35:323-37.
  • Craig RG. Restorative dental materials. 9th ed. Mosby:St. Louis, 1993.
  • Zuo W, Feng D, Song A, Gong H, Zhu S. Effects of organic-inorganic hybrid coating on the color stability of denture base resins. J Prosthet Dent 2016;115:103-8.
  • Gungor H, Gundogdu M, Duymus ZY. Investigation of the effect of different polishing techniques on the surface roughness of denture base and repair materials. J Prosthet Dent 2014;112:1271-7.
  • Sahin O, Koroglu A, Dede DÖ, Yilmaz B. Effect of surface sealant agents on the surface roughness and color stability of denture base materials. J Prosthet Dent 2016;116:610-6.
  • Alla R, Raghavendra KN, Vyas R, Konakanchi A. Conventional and contemporary polymers for the fabrication of denture prosthesis: part I – overview, composition and properties. Int J Appl Dent Sci. 2015;1:82–9.
  • Lai CP, Tsai MH, Chen M, Chang HS, Tay HH. Morphology and properties of denture acrylic resins cured by microwave energy and conventional water bath. Dent Mater. 2004;20:133-41.
  • Anusavice KJ, Phillips RW. Phillips' science of dental materials. 11 th ed. St. Louis, Mo.: Saunders; 2003. Chapter 19 p. 474.
  • Gad MM, Rahoma A, Al-Thobity AM. Effect of polymerization technique and glass fiber addition on the surface roughness and hardness of PMMA denture base material. Dent Mater J. 2018;37:746-53.
  • Ayaz EA, Durkan R, Koroglu A, Bagis B. Comparative effect of different polymerization techniques on residual monomer and hardness properties of PMMA-based denture resins. J Appl Biomater Funct Mater. 2014;12:228-33.
  • Gad MM, Fouda SM, ArRejaie AS, Al-Thobity AM. Comparative Effect of Different Polymerization Techniques on the Flexural and Surface Properties of Acrylic Denture Bases. J Prosthodont. 2019;28:458-65.
  • Pavlinec J, Moszner N. Monomers for adhesive polymers, 8a crosslinking polymerization of selected N‐substituted bis(acrylamide)s for dental filling materials. J Appl Poly Sci. 2009;113:3137–45.
  • Johnston EP, Nicholls JI, Smith DE. Flexure fatigue of 10 commonly used denture base resins. J Prosthet Dent. 1981;46:478-83.
  • Faot F, Costa AM, Del Bel Cury A, Rodrigues Garcia CM. Impact strength and fracture morphology of denture acrylic resins. J Prosthet Dent. 2006;96:367-73.

Ayrıntılar

Birincil Dil İngilizce
Konular Sağlık Bilimleri ve Hizmetleri
Bölüm Original Research Articles
Yazarlar

Gonca DESTE (Sorumlu Yazar)
BURSA ULUDAĞ ÜNİVERSİTESİ
0000-0002-5481-0063
Türkiye


Rukiye DURKAN
AFYONKARAHİSAR SAĞLIK BİLİMLERİ ÜNİVERSİTESİ
0000-0002-3381-4073
Türkiye


Perihan OYAR
HACETTEPE ÜNİVERSİTESİ, SAĞLIK BİLİMLERİ FAKÜLTESİ
0000-0003-3849-9153
Türkiye

Yayımlanma Tarihi 31 Aralık 2020
Başvuru Tarihi 22 Eylül 2020
Kabul Tarihi 17 Kasım 2020
Yayınlandığı Sayı Yıl 2020, Cilt 23, Sayı 4

Kaynak Göster

EndNote %0 Cumhuriyet Dental Journal THE EFFECT OF AUTOCLAVE POLYMERIZATION ON THE TENSILE STRENGTH OF VARIOUS DENTURE BASE MATERIALS %A Gonca Deste , Rukiye Durkan , Perihan Oyar %T THE EFFECT OF AUTOCLAVE POLYMERIZATION ON THE TENSILE STRENGTH OF VARIOUS DENTURE BASE MATERIALS %D 2020 %J Cumhuriyet Dental Journal %P 1302-5805-2146-2852 %V 23 %N 4 %R doi: 10.7126/cumudj.798591 %U 10.7126/cumudj.798591

Cumhuriyet Dental Journal (Cumhuriyet Dent J, CDJ) is the official publication of Cumhuriyet University Faculty of Dentistry. CDJ is an international journal dedicated to the latest advancement of dentistry. The aim of this journal is to provide a platform for scientists and academicians all over the world to promote, share, and discuss various new issues and developments in different areas of dentistry. First issue of the Journal of Cumhuriyet University Faculty of Dentistry was published in 1998. In 2010, journal's name was changed as Cumhuriyet Dental Journal. Journal’s publication language is English.


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