Pengaruh Penambahan E-Glass Fiber Terhadap Sifat Mekanis Basis Gigi Tiruan Resin Akrilik Polimerisasi Panas
DAFTAR PUSTAKA
Alla, RK et al. 2013, ‘Influence of fiber reinforcement on the properties of denture
base resins’, Journal of Biomaterials and Nanobiotechnology, vol. 4, hh. 91-7.
Anusavice, KJ 2013, Phillip’s science of dental materials, edisi 12, Elsevier
Saunders, Missouri, hh. 93-9, 487.
Bayraktar, G, Duran, O, Guvener, B 2003, ‘Effect of glass fibre reinforcement on
residual methyl methacrylate content of denture base polymers’, J Dent, vol. 31, no.
1, hh. 297-302.
Beckwith, SW 2009, ‘Composite reinforcement fibers: I - the glass family’, SAMPE
journal, vol. 5, no. 45, hh. 36-7.
Bhaskaran, S, Hallikerimath, RB 2012, ‘An investigation on the influence of tin foil
substitute contamination on bond strength between resin denture teeth and the denture
base: an in vitro study’, IJD, vol. 23, no. 4, hh. 556-603.
Budiharto 2008, Metodologi penelitian kesehatan, EGC, Jakarta, hh. 46.
Carr, AB, McGivney GP & Brown DT 2011, McCracken’s removable partial
prosthodontic, edisi 12, Elsevier, Canada, hh. 103-8.
Chand, P, Patel, CB, Singh, BP, Singh, RD & Singh, K 2011, ‘Mechanical
propertiesof denture base resins: an evaluation’, Indian J dent Res, vol. 22, hh. 18090.
El-Sheikh, AM, Al-Zahrani, SB 2006, ‘Causes of denture fracture: a survey’, Saudi
Dental Journal, Vol. 18, no. 3, hh. 149-53.
Faot dkk. 2009, ‘Impact and flexural strength, and fracture morphology of acrylic
resins with impact modifiers’, The Open Dentistry Journal, vol. 3, no. 1, hh. 137-43.
Gharechahi dkk. 2014, ‘Flexural strength of acrylic resin denture bases processed by
two different methods’, J Dent Res Dent Clin Dent Prospect, vol. 8, no. 3, hh. 14852.
Gladwin, M, Bagby, M 2009, Clinical aspects of dental materials, edisi 3, Lippincott
Williams & Wilkins, China, hh. 147-50.
107
Universitas Sumatera Utara
108
Goguta, L, Marsavina, L, Bratu, D & Topala, F 2006, ‘Impact strength of acrylic heat
curing denture base resinreinforced with e-glass fibers’, TMJ, vol. 56, no. 1, hh. 8892.
Hanafiah, KA 2005, Rancangan percobaan aplikatif: aplikasi kondisional bidang
pertanaman, peternakan, perikanan, industri, dan hayati, edisi 1, PT RajaGrafindo
Persada, Jakarta, hal 10-12.
Hirajima, Y dkk. 2009, ‘Influence of a denture strengthener on the deformation of a
maxillary complete denture’, Dent Mater J, vol. 28, no. 4, hh. 507-12.
Hyer, MW 1998, Stress analysis of fiber-reinforced composite materials, Mc Graw
Hill, Singapore, hh. 19-38.
Jaber, MA 2011, ‘Effect of metal wire and glass fiber on the impact strength of
acrylic denture-base resin’, Iraqi National Journal of Nursing Specialities, vol. 24,
no. 2, hh. 26-32.
Jagger, DC, Harrison, A & Jandt, KD 1999, ‘Review- the reinforcement of dentures’,
Journal of Oral Rehabilitation, vol. 26, hh. 185-94.
Jain, T dkk. 2013, ‘A comparative evaluation of flexural strength of commercially
available acrylic and modified polymethylmethacrylate: an invitro study’, J Contemp
Dent Pract, vol. 14, no. 1, hh. 80-3.
John, J dkk. 2001, ‘Flexural strength of heat-polymerized polymethyl methacrylate
denture resin reinforced with glass, aramid, or nylon fibers’, J Prosthet Dent, vol. 86,
hh. 424-7.
Karacaer, O, Polat, TN, Tezvergil, A, Lasilla, LVJ, Valittu, PK 2003, ‘The effect of
length and concentration of glass fibers on the mechanical properties of an injectionand a compression-molded denture base polymer’, J Prosthet Dent, vol. 90, hh. 38593.
Keyf, F & Uzun, G 2001, ‘The effect of woven, chopped and longitudinal glass fibers
reinforcement on the transverse strength of a repair resin’, J of Biomaterial
Application, vol. 15, hh. 351-8.
Khalaf, HAR 2013, ‘Effect of siwak on certain mechanical properties of acrylic
resin’, JOR, vol.1, no. 1, hh. 39-49.
Khalid, H 2011, ‘Causes and types of complete denture fracture’, Zanco J Med Sci,
vol. 15, no. 3, hh. 36-40.
Universitas Sumatera Utara
109
Khasawneh, SF & Arab, JM 2003, ‘A clinical study of complete denture fractures at
four military hospitals in Jordan’, JRMS, vol. 10, no. 2, hh. 27-31.
Khindria, SK, Mittal, S, Sukhija, U 2009, ‘Evolution of denture base material’, J
Indian Prost Soc, vol. 9, hh. 64-9.
Kiilu, PM 2008, ‘An in vitro investigation of the flexural strength and microstructure
of stick glass fiber and wire mesh reinforced heat cured denture base acrylic’, Thesis,
South Africa, Durban University of technology, hh. 1-114.
Kostoulas, I, Kavoura, VT, Frangou, MJ dkk. 2008, ‘Fracture force, deflection and
toughness of acrylic denture repairs involving glass fiber reinforcement’, Journal of
prosthodontics, vol. 17, hh. 257-61.
Koudi, MS & Patil, SB 2007, Prep manual for undergraduates dental materials,
Elsevier, India, hh. 57-69.
Lee, HH, Lee, CJ & Asaoka K 2012, ‘Correlation in the mechanical properties of
acrylic denture base resins’, Dent Mater J, vol. 31, no.1, hh. 157-64.
Lee, SI, Kim, CW & Kim, YS 2001, ‘Strength of chopped glass fiber on the strength
of heat-cured PMMA resin’, J Korean Acad Prosthodont,vol. 39, no. 6, hh. 589-98.
Lee, SI, Lim, YJ & Yun, SD 2007, ‘Strength of glass fiber reinforced PMMA resin
and surface roughness change after abrasion test’, J Korean Acad Prosthodont, vol.
45, no. 3, hh. 310-20.
Loncar, A, Vojvodic, D, Matejicek, F & Jerolimov, V 2006,‘Fiber-reinforced
polymers part I: basic and construction problems’, Acta Stomatol Croat, vol. 40, hh.
72-82.
Loncar, A dkk. 2008, ‘Fibre reinforced polymers part II: effect on mechanical
properties’, Acta Stomatol Croat, vol. 42, no. 1, hh. 49-63.
Mahalistiyani, R & Ratwati, DF 2006, ‘Pengaruh bahan penguat serat gelas terhadap
kekuatan transversa lempeng akrilik’, Majalah Ilmiah Kedokteran Gigi, vol. 21, no.
4, hh. 140-5.
Manappallil, JJ 2003, Basic dental materials, edisi 2, Jaypee Brothers Medical
Publishers, New Delhi, hh. 99-101.
Universitas Sumatera Utara
110
Mareti, D 2014, ‘Pengaruh penambahan serat kaca terhadap kekuatan transversal dan
modulus elastisitas bahan basis gigitiruan resin akrilik polimerasasi panas’, Skripsi,
Medan, Universitas Sumatera Utara, hh. 7-56.
Matinlina, JP, Lasilla, LVJ & Valittu, P 2004, ‘An introduction of silanes and their
application in dentistry’, The international journal of prosthodontics, vol. 17, no. 2,
hh. 155-64.
Matthews, FL & Rawling, RD 1999, Composite materials engineering and science,
Woodhead publishing limited, Cambridge England, hh. 39-41, 59-65, 288-91.
McCabe, JF & Walls, AWG 2008, Applied dental material, edisi 9, Blackwell
Munksgaard, London, hh. 110-23.
Memon, MS, Yunus, N & Razak, AA 2001, ‘Some mechanical properties of a highly
cross-linked, microwave –polymerized, injection-molded denture base polymer’, Int J
Prosthodont, vol. 14, no. 3, hh. 214-8.
Ming, TC 2012, ‘Effect of powered toothbrush cleaning on acrylic resin dental
prostheses’, Thesis, Hong Kong, University of Hong Kong, hh. 17-21.
Moldonado, VM dkk. 2012, ‘Fiber reinforced nanopigmented poly(methyl
methacrylate) as improved denture base’, J Applied Polymer Sci, vol. 126, hh. 28996.
Monaco, C 2005, ‘Clinical and scientific aspect of inlay fixed partial denture’, Thesis,
Italia, University of Siena, hh. 1-39.
Mowade, TK, Dange, SP, Thakre, MB & Kamble VD 2012, ‘Effect of fiber
reinforcement on impact strength of heat polymerized polymethyl methacrylate
denture base resin: in vitro study and SEM analysis’, J Adv Prosthodont, vol. 4, hh.
30-6.
Nakamura, Takahashi, H & Hayakawa, I 2007, ‘Reinforcement of denture base resin
with short-rod glass fiber’, Dent Mater J, vol. 26, no. 5, hh. 733-8.
Narva, KK, Lassila, LV & Vallittu, PK 2005, ‘The static strength and modulus of
fiber reinforced denture base polymer’, Dent Mater, vol. 21, no. 5, hh. 421-8.
Nirwana, I 2005, ‘Kekuatan transversal resin akrilik hybrid setelah penambahan glass
fiber dengan metode berbeda’, Majalah Kedokteran Gigi, vol. 38, no. 1, hh.16-9.
Universitas Sumatera Utara
111
Obukuro, M, Takahasi, Y & Shimizu, H 2008, ‘Effect of diameter of glass fibers on
flexural properties of fiber-reinforced composites’, Dent Mater J, vol. 27, no. 4, hh.
541-8.
Orsi, IA, Soares, RG, Villabona, CA & Panzeri, H 2012, ‘Evaluation of the flexural
strengh and elastic modulus of resins used for temporary restorations reinforced with
particulate glass fibre’, Gerodontology, vol. 29, hh. e63-e68.
Paranhos, HFO dkk. 2008, ‘Effect of chemical denture cleansers on flexural
resistance and color changes of microwave-polymerized acrylic resins’, Braz J Oral
Sci, vol. 7, no. 26, hh. 1580-84.
Polat, TN, Dogan, DO, Topcuoglu, S & Gul, EB 2013, ‘Effect of different glass fiber
on the transverse strength and elastic modulus of repairing acrylic resin’, Cumhuriyet
Dent J, hh. 1-9.
Powers, JM & Sakaguchi, RL 2009, Craig’s restorative dental materials, edisi 12,
Mosby Elsevier, St Louis, Missouri, hh. 55-61, 514 – 36.
Prasad, AH, Kalavathy & Mohammed, HS 2011, ‘Effect of glass fiber and silane
treated glass fiber reinforcement on impact strength of maxillary complete denture’,
Annals and Essences of Dentistry, vol. 4, no. 3, hh. 7-12.
Puranik, S, Majage, B, Lakkam, B, Pavan, Giri, G & Patil, B 2013, ‘ A clinical study
to analyse the acrylic resin complete denture fracture’, BUJOD, vol. 3, no. 2, hh. 224.
Raszewski, Z & Nowakowska, D 2011, ‘Mechanical properties of poured aramid
fiber reinforced acrylic resin depending on fiber quantity, fiber position and different
wetting agents’, Dent Med Probl, vol. 48, no. 3, hh. 380-7.
Raszewski, Z & Nowakowska, D 2013, ‘Mechanical properties of hot curing acrylic
resin after reinforced with different kinds of fiber’, International Journal of
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Universitas Sumatera Utara
Alla, RK et al. 2013, ‘Influence of fiber reinforcement on the properties of denture
base resins’, Journal of Biomaterials and Nanobiotechnology, vol. 4, hh. 91-7.
Anusavice, KJ 2013, Phillip’s science of dental materials, edisi 12, Elsevier
Saunders, Missouri, hh. 93-9, 487.
Bayraktar, G, Duran, O, Guvener, B 2003, ‘Effect of glass fibre reinforcement on
residual methyl methacrylate content of denture base polymers’, J Dent, vol. 31, no.
1, hh. 297-302.
Beckwith, SW 2009, ‘Composite reinforcement fibers: I - the glass family’, SAMPE
journal, vol. 5, no. 45, hh. 36-7.
Bhaskaran, S, Hallikerimath, RB 2012, ‘An investigation on the influence of tin foil
substitute contamination on bond strength between resin denture teeth and the denture
base: an in vitro study’, IJD, vol. 23, no. 4, hh. 556-603.
Budiharto 2008, Metodologi penelitian kesehatan, EGC, Jakarta, hh. 46.
Carr, AB, McGivney GP & Brown DT 2011, McCracken’s removable partial
prosthodontic, edisi 12, Elsevier, Canada, hh. 103-8.
Chand, P, Patel, CB, Singh, BP, Singh, RD & Singh, K 2011, ‘Mechanical
propertiesof denture base resins: an evaluation’, Indian J dent Res, vol. 22, hh. 18090.
El-Sheikh, AM, Al-Zahrani, SB 2006, ‘Causes of denture fracture: a survey’, Saudi
Dental Journal, Vol. 18, no. 3, hh. 149-53.
Faot dkk. 2009, ‘Impact and flexural strength, and fracture morphology of acrylic
resins with impact modifiers’, The Open Dentistry Journal, vol. 3, no. 1, hh. 137-43.
Gharechahi dkk. 2014, ‘Flexural strength of acrylic resin denture bases processed by
two different methods’, J Dent Res Dent Clin Dent Prospect, vol. 8, no. 3, hh. 14852.
Gladwin, M, Bagby, M 2009, Clinical aspects of dental materials, edisi 3, Lippincott
Williams & Wilkins, China, hh. 147-50.
107
Universitas Sumatera Utara
108
Goguta, L, Marsavina, L, Bratu, D & Topala, F 2006, ‘Impact strength of acrylic heat
curing denture base resinreinforced with e-glass fibers’, TMJ, vol. 56, no. 1, hh. 8892.
Hanafiah, KA 2005, Rancangan percobaan aplikatif: aplikasi kondisional bidang
pertanaman, peternakan, perikanan, industri, dan hayati, edisi 1, PT RajaGrafindo
Persada, Jakarta, hal 10-12.
Hirajima, Y dkk. 2009, ‘Influence of a denture strengthener on the deformation of a
maxillary complete denture’, Dent Mater J, vol. 28, no. 4, hh. 507-12.
Hyer, MW 1998, Stress analysis of fiber-reinforced composite materials, Mc Graw
Hill, Singapore, hh. 19-38.
Jaber, MA 2011, ‘Effect of metal wire and glass fiber on the impact strength of
acrylic denture-base resin’, Iraqi National Journal of Nursing Specialities, vol. 24,
no. 2, hh. 26-32.
Jagger, DC, Harrison, A & Jandt, KD 1999, ‘Review- the reinforcement of dentures’,
Journal of Oral Rehabilitation, vol. 26, hh. 185-94.
Jain, T dkk. 2013, ‘A comparative evaluation of flexural strength of commercially
available acrylic and modified polymethylmethacrylate: an invitro study’, J Contemp
Dent Pract, vol. 14, no. 1, hh. 80-3.
John, J dkk. 2001, ‘Flexural strength of heat-polymerized polymethyl methacrylate
denture resin reinforced with glass, aramid, or nylon fibers’, J Prosthet Dent, vol. 86,
hh. 424-7.
Karacaer, O, Polat, TN, Tezvergil, A, Lasilla, LVJ, Valittu, PK 2003, ‘The effect of
length and concentration of glass fibers on the mechanical properties of an injectionand a compression-molded denture base polymer’, J Prosthet Dent, vol. 90, hh. 38593.
Keyf, F & Uzun, G 2001, ‘The effect of woven, chopped and longitudinal glass fibers
reinforcement on the transverse strength of a repair resin’, J of Biomaterial
Application, vol. 15, hh. 351-8.
Khalaf, HAR 2013, ‘Effect of siwak on certain mechanical properties of acrylic
resin’, JOR, vol.1, no. 1, hh. 39-49.
Khalid, H 2011, ‘Causes and types of complete denture fracture’, Zanco J Med Sci,
vol. 15, no. 3, hh. 36-40.
Universitas Sumatera Utara
109
Khasawneh, SF & Arab, JM 2003, ‘A clinical study of complete denture fractures at
four military hospitals in Jordan’, JRMS, vol. 10, no. 2, hh. 27-31.
Khindria, SK, Mittal, S, Sukhija, U 2009, ‘Evolution of denture base material’, J
Indian Prost Soc, vol. 9, hh. 64-9.
Kiilu, PM 2008, ‘An in vitro investigation of the flexural strength and microstructure
of stick glass fiber and wire mesh reinforced heat cured denture base acrylic’, Thesis,
South Africa, Durban University of technology, hh. 1-114.
Kostoulas, I, Kavoura, VT, Frangou, MJ dkk. 2008, ‘Fracture force, deflection and
toughness of acrylic denture repairs involving glass fiber reinforcement’, Journal of
prosthodontics, vol. 17, hh. 257-61.
Koudi, MS & Patil, SB 2007, Prep manual for undergraduates dental materials,
Elsevier, India, hh. 57-69.
Lee, HH, Lee, CJ & Asaoka K 2012, ‘Correlation in the mechanical properties of
acrylic denture base resins’, Dent Mater J, vol. 31, no.1, hh. 157-64.
Lee, SI, Kim, CW & Kim, YS 2001, ‘Strength of chopped glass fiber on the strength
of heat-cured PMMA resin’, J Korean Acad Prosthodont,vol. 39, no. 6, hh. 589-98.
Lee, SI, Lim, YJ & Yun, SD 2007, ‘Strength of glass fiber reinforced PMMA resin
and surface roughness change after abrasion test’, J Korean Acad Prosthodont, vol.
45, no. 3, hh. 310-20.
Loncar, A, Vojvodic, D, Matejicek, F & Jerolimov, V 2006,‘Fiber-reinforced
polymers part I: basic and construction problems’, Acta Stomatol Croat, vol. 40, hh.
72-82.
Loncar, A dkk. 2008, ‘Fibre reinforced polymers part II: effect on mechanical
properties’, Acta Stomatol Croat, vol. 42, no. 1, hh. 49-63.
Mahalistiyani, R & Ratwati, DF 2006, ‘Pengaruh bahan penguat serat gelas terhadap
kekuatan transversa lempeng akrilik’, Majalah Ilmiah Kedokteran Gigi, vol. 21, no.
4, hh. 140-5.
Manappallil, JJ 2003, Basic dental materials, edisi 2, Jaypee Brothers Medical
Publishers, New Delhi, hh. 99-101.
Universitas Sumatera Utara
110
Mareti, D 2014, ‘Pengaruh penambahan serat kaca terhadap kekuatan transversal dan
modulus elastisitas bahan basis gigitiruan resin akrilik polimerasasi panas’, Skripsi,
Medan, Universitas Sumatera Utara, hh. 7-56.
Matinlina, JP, Lasilla, LVJ & Valittu, P 2004, ‘An introduction of silanes and their
application in dentistry’, The international journal of prosthodontics, vol. 17, no. 2,
hh. 155-64.
Matthews, FL & Rawling, RD 1999, Composite materials engineering and science,
Woodhead publishing limited, Cambridge England, hh. 39-41, 59-65, 288-91.
McCabe, JF & Walls, AWG 2008, Applied dental material, edisi 9, Blackwell
Munksgaard, London, hh. 110-23.
Memon, MS, Yunus, N & Razak, AA 2001, ‘Some mechanical properties of a highly
cross-linked, microwave –polymerized, injection-molded denture base polymer’, Int J
Prosthodont, vol. 14, no. 3, hh. 214-8.
Ming, TC 2012, ‘Effect of powered toothbrush cleaning on acrylic resin dental
prostheses’, Thesis, Hong Kong, University of Hong Kong, hh. 17-21.
Moldonado, VM dkk. 2012, ‘Fiber reinforced nanopigmented poly(methyl
methacrylate) as improved denture base’, J Applied Polymer Sci, vol. 126, hh. 28996.
Monaco, C 2005, ‘Clinical and scientific aspect of inlay fixed partial denture’, Thesis,
Italia, University of Siena, hh. 1-39.
Mowade, TK, Dange, SP, Thakre, MB & Kamble VD 2012, ‘Effect of fiber
reinforcement on impact strength of heat polymerized polymethyl methacrylate
denture base resin: in vitro study and SEM analysis’, J Adv Prosthodont, vol. 4, hh.
30-6.
Nakamura, Takahashi, H & Hayakawa, I 2007, ‘Reinforcement of denture base resin
with short-rod glass fiber’, Dent Mater J, vol. 26, no. 5, hh. 733-8.
Narva, KK, Lassila, LV & Vallittu, PK 2005, ‘The static strength and modulus of
fiber reinforced denture base polymer’, Dent Mater, vol. 21, no. 5, hh. 421-8.
Nirwana, I 2005, ‘Kekuatan transversal resin akrilik hybrid setelah penambahan glass
fiber dengan metode berbeda’, Majalah Kedokteran Gigi, vol. 38, no. 1, hh.16-9.
Universitas Sumatera Utara
111
Obukuro, M, Takahasi, Y & Shimizu, H 2008, ‘Effect of diameter of glass fibers on
flexural properties of fiber-reinforced composites’, Dent Mater J, vol. 27, no. 4, hh.
541-8.
Orsi, IA, Soares, RG, Villabona, CA & Panzeri, H 2012, ‘Evaluation of the flexural
strengh and elastic modulus of resins used for temporary restorations reinforced with
particulate glass fibre’, Gerodontology, vol. 29, hh. e63-e68.
Paranhos, HFO dkk. 2008, ‘Effect of chemical denture cleansers on flexural
resistance and color changes of microwave-polymerized acrylic resins’, Braz J Oral
Sci, vol. 7, no. 26, hh. 1580-84.
Polat, TN, Dogan, DO, Topcuoglu, S & Gul, EB 2013, ‘Effect of different glass fiber
on the transverse strength and elastic modulus of repairing acrylic resin’, Cumhuriyet
Dent J, hh. 1-9.
Powers, JM & Sakaguchi, RL 2009, Craig’s restorative dental materials, edisi 12,
Mosby Elsevier, St Louis, Missouri, hh. 55-61, 514 – 36.
Prasad, AH, Kalavathy & Mohammed, HS 2011, ‘Effect of glass fiber and silane
treated glass fiber reinforcement on impact strength of maxillary complete denture’,
Annals and Essences of Dentistry, vol. 4, no. 3, hh. 7-12.
Puranik, S, Majage, B, Lakkam, B, Pavan, Giri, G & Patil, B 2013, ‘ A clinical study
to analyse the acrylic resin complete denture fracture’, BUJOD, vol. 3, no. 2, hh. 224.
Raszewski, Z & Nowakowska, D 2011, ‘Mechanical properties of poured aramid
fiber reinforced acrylic resin depending on fiber quantity, fiber position and different
wetting agents’, Dent Med Probl, vol. 48, no. 3, hh. 380-7.
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