Reference Compressive Strength Resin Akrilik Polimerisasi Panas Setelah Penambahan Serat Kaca 1% dengan Metode yang Berbeda
37
DAFTAR PUSTAKA
1.
Anusavice KJ. Philips’ science of dental materials.12th ed.Missouri: Elsevier, 2013:
91-4, 164-9, 722-49.
2.
Mahalistiyani R, Ratwati DF. Pengaruh bahan penguat serat gelas terhadap kekuatan
transversal lempeng akrilik. Majalah ilmiah kedokteran gigi. 2006;21 (4): 140-5.
3.
Sitorus Z, Dahar E. Perbaikan sifat fisis dan mekanisme resin akrilik polimerisasi
panas dengan penambahan serat kaca. Dentika Dental Journal 2012; 17: 24-9.
4.
Uzun G. Effect of five woven fiber reinforcements on the impact and transverse
strengthof a denture base resin.The Journal of Prosthetic Dentistry 1999; 81: 161-20.
5.
Manappallil JJ. Basic dental material. 2nd Ed. New Delhi: Jaypee Brothers Medical
Publisher, 2003: 98-108.
6.
Tacir IH, Kama JD, Zortuk M, Eskimez S. Flexural properties of glass fibre
reinforced acrylic resin polymers.J Australion Dent 2006; 51(1): 52-6.
7.
Van Noort R. Introduction to dental materials. 3th ed. Philadelphia: Elsevier, 2007:
217-22.
8.
Lee SI, Kim CW, Lim YJ, Kim MJ, Yun SD. Stength of glass fiber reinforced
PMMA resin and surface roughness change after abrasion test.J Korean Acad
Prosthodont 2007; 45(3): 310-20.
9.
Marei MK, El-Sabrooty A, Ragab AY, El-Osairy MA. A study of some physical
properties of metal-filled acrylic resin. The Saudi Dental Journal 1994; 6(2): 69-77.
10. Sitorus Z, Maghfirah A, Romania Y, Humaidini S. Sifat mekanik gigi tiruan akrilik
dengan penguat serat kaca. Indonesian Journal of Applied Physics 2014; 4(2):18391.
11. Siswomihardjo W, Sunarintyas S, Khan AFOK, Sahidu NSI, Matinlinna JP. Effect of
water immersion on monomer and strength of FRC. Dental Material 2014; 30 (1): 715.
12. Kurniawan C, Sebayang P, Muljadi, Hasibuan SR. Peningkatan sifat fisis dan
mekanik bahan gusi tiruan berbasis komposit resin akrilik dengan penambahan
variasi ukuran serat kaca. Seminar Material MetalurgiIndonesia. Tanggerang, 2011:
365-72.
38
13. Uzun G, Keyf F. The effect of woven, chopped and longitudinal glass fibers
reinforcement on the transverse strength of a repair resin.
J of Biomaterial
Application 2001; 15: 351-8.
14. Lee SI, Kim YS. Effect of chopped glass fiber on the strength of heat-cured PMMA
resin.J Korean Acad Prosthodont 2001; 39(6): 590-6.
15. Nirwana I. Kekuatan Transversal resin akrilik hybrid setelah penambahan glass fiber
dengan metode yang berbeda. Majalah Kedokteran Gigi 2005; 38(1): 16-9.
16. Powers JM, Wataha JC. Dental materials : Properties and manipulation. 9th ed.
Missouri : Mosby Elsevier, 2008: 286 –93, 299-300.
17. Ghaffari T, Hamedirad F, Ezzati B. In vitro comparison of compressive and tensile
strengths of acrylic resins reinforced by silver nanoparticles at 2% and 0.2%
concentrations. J Dent Res Dent Clin Dent Prospects 2014 ; 8(4): 204-9.
18. Combe E.C. Notes on dental materials. 5th ed. New York: Library of Congress
Cataloguing-in-Publication Data, 1986: 258-62.
19. Sakaguchi RL, Powers JM. Craig’s restorative dental materials. 12th ed. Missouri:
Elsevier, 2006: 65-6, 514-30.
20. Alla RK, Sajjan S, Alluri VR, Ginjupalli K, Upadhya N. Influence of fiber
reinforcement on the properties of denture base.Journal of Biomaterials and
Nanobiotechnology, 2013; 4: 91-7.
21. Ferrancane JL.
Materials in dentistry 2nd ed. Sydney: Lippincott Williams and
Wilkins, 2001 :265-9.
22. Mowade TK, Dange SP, Thakre MB, Kamble JD. Effect of fiber
reinforcement on impact strength of heat polymerized polymethyl
methacrylate denture base resin: in vitro study and SEM analysis. J Adv
Prosthodont 2012; 4(1): 30-6.
23. Sadamori S, Ishii T, Hamada T, Razak A. A comparison of three dimensional change
in maxillary complete dentures between conventional heat polymerizing and
microwave polymerizing techniques. J Dent 2007; 40(1):6-10.
24. Thomas TC, Kumar AK, Mohamed S, Krishnan V, Mathew A, Manju V. The effect
on flexural modulus and compressive strength of fiber reinforced acrylic with that of
plain unfilled acrylic resin – an in vitro study. Journal of clinical and diagnostic
research 2015; 9 (3): 12-4.
39
25. Jagger D, Harrison A. Complete dentures-problem solving. London: British
Dental Association, 1999: 9-12.
26. Stipho HD. Repair of acrylic resin denture base reinforced with glass fiber. The
Journal of Prosthetic Dentistry 1998; 80:546-50.
27. Hyer ME. Stress analysis of fiber-reinforced composite materials. Singapore:
McGraw-Hill, 1998: 19-38.
28. M. Vojdani, Khaledi AAR. Transverse strength of reinforced denture base resin with
metal wire and e-glass fibers. Journal of Dentistry Tehran University of Medical
Sciences 2006; 3: 167-72.
29. Denis V, Matejicek F, Schauperl Z, Mehulic K, Cukovic IB, Segovic S. Flexural
strength of e-glass fiber reinforced dental polymer an dental high impact strength
resin. Strojarstvo J 2008; 50 (4): 221-30.
30. Sang-Hui YU. Reinforcing of different on denture base resin based on the fiber type,
consentration, and combination. Dental material J 2012; 31 (6): 1039-46.
31. Goguta L Marsavina L, Bratu D, Topala F. Impact strength of acrylic heat
curing denture base resin reinforced with e-glass fibers. TMJ 2006; 56: 88-92.
32. Hanafiah KA. Percobaan teori & aplikasi. Edisi Ketiga. Jakarta: Raja Grafindo
Persada, 2003: 94-103.
33. Hamza TA, Rosenstiel SF, Elhosary MM, Ibraheem RM. The effect of fiber
reinforcement on the fracture toughness and flexural strength of provisional
restorative resins. J Prost Dent 2004; 91 (3) 258-64.
DAFTAR PUSTAKA
1.
Anusavice KJ. Philips’ science of dental materials.12th ed.Missouri: Elsevier, 2013:
91-4, 164-9, 722-49.
2.
Mahalistiyani R, Ratwati DF. Pengaruh bahan penguat serat gelas terhadap kekuatan
transversal lempeng akrilik. Majalah ilmiah kedokteran gigi. 2006;21 (4): 140-5.
3.
Sitorus Z, Dahar E. Perbaikan sifat fisis dan mekanisme resin akrilik polimerisasi
panas dengan penambahan serat kaca. Dentika Dental Journal 2012; 17: 24-9.
4.
Uzun G. Effect of five woven fiber reinforcements on the impact and transverse
strengthof a denture base resin.The Journal of Prosthetic Dentistry 1999; 81: 161-20.
5.
Manappallil JJ. Basic dental material. 2nd Ed. New Delhi: Jaypee Brothers Medical
Publisher, 2003: 98-108.
6.
Tacir IH, Kama JD, Zortuk M, Eskimez S. Flexural properties of glass fibre
reinforced acrylic resin polymers.J Australion Dent 2006; 51(1): 52-6.
7.
Van Noort R. Introduction to dental materials. 3th ed. Philadelphia: Elsevier, 2007:
217-22.
8.
Lee SI, Kim CW, Lim YJ, Kim MJ, Yun SD. Stength of glass fiber reinforced
PMMA resin and surface roughness change after abrasion test.J Korean Acad
Prosthodont 2007; 45(3): 310-20.
9.
Marei MK, El-Sabrooty A, Ragab AY, El-Osairy MA. A study of some physical
properties of metal-filled acrylic resin. The Saudi Dental Journal 1994; 6(2): 69-77.
10. Sitorus Z, Maghfirah A, Romania Y, Humaidini S. Sifat mekanik gigi tiruan akrilik
dengan penguat serat kaca. Indonesian Journal of Applied Physics 2014; 4(2):18391.
11. Siswomihardjo W, Sunarintyas S, Khan AFOK, Sahidu NSI, Matinlinna JP. Effect of
water immersion on monomer and strength of FRC. Dental Material 2014; 30 (1): 715.
12. Kurniawan C, Sebayang P, Muljadi, Hasibuan SR. Peningkatan sifat fisis dan
mekanik bahan gusi tiruan berbasis komposit resin akrilik dengan penambahan
variasi ukuran serat kaca. Seminar Material MetalurgiIndonesia. Tanggerang, 2011:
365-72.
38
13. Uzun G, Keyf F. The effect of woven, chopped and longitudinal glass fibers
reinforcement on the transverse strength of a repair resin.
J of Biomaterial
Application 2001; 15: 351-8.
14. Lee SI, Kim YS. Effect of chopped glass fiber on the strength of heat-cured PMMA
resin.J Korean Acad Prosthodont 2001; 39(6): 590-6.
15. Nirwana I. Kekuatan Transversal resin akrilik hybrid setelah penambahan glass fiber
dengan metode yang berbeda. Majalah Kedokteran Gigi 2005; 38(1): 16-9.
16. Powers JM, Wataha JC. Dental materials : Properties and manipulation. 9th ed.
Missouri : Mosby Elsevier, 2008: 286 –93, 299-300.
17. Ghaffari T, Hamedirad F, Ezzati B. In vitro comparison of compressive and tensile
strengths of acrylic resins reinforced by silver nanoparticles at 2% and 0.2%
concentrations. J Dent Res Dent Clin Dent Prospects 2014 ; 8(4): 204-9.
18. Combe E.C. Notes on dental materials. 5th ed. New York: Library of Congress
Cataloguing-in-Publication Data, 1986: 258-62.
19. Sakaguchi RL, Powers JM. Craig’s restorative dental materials. 12th ed. Missouri:
Elsevier, 2006: 65-6, 514-30.
20. Alla RK, Sajjan S, Alluri VR, Ginjupalli K, Upadhya N. Influence of fiber
reinforcement on the properties of denture base.Journal of Biomaterials and
Nanobiotechnology, 2013; 4: 91-7.
21. Ferrancane JL.
Materials in dentistry 2nd ed. Sydney: Lippincott Williams and
Wilkins, 2001 :265-9.
22. Mowade TK, Dange SP, Thakre MB, Kamble JD. Effect of fiber
reinforcement on impact strength of heat polymerized polymethyl
methacrylate denture base resin: in vitro study and SEM analysis. J Adv
Prosthodont 2012; 4(1): 30-6.
23. Sadamori S, Ishii T, Hamada T, Razak A. A comparison of three dimensional change
in maxillary complete dentures between conventional heat polymerizing and
microwave polymerizing techniques. J Dent 2007; 40(1):6-10.
24. Thomas TC, Kumar AK, Mohamed S, Krishnan V, Mathew A, Manju V. The effect
on flexural modulus and compressive strength of fiber reinforced acrylic with that of
plain unfilled acrylic resin – an in vitro study. Journal of clinical and diagnostic
research 2015; 9 (3): 12-4.
39
25. Jagger D, Harrison A. Complete dentures-problem solving. London: British
Dental Association, 1999: 9-12.
26. Stipho HD. Repair of acrylic resin denture base reinforced with glass fiber. The
Journal of Prosthetic Dentistry 1998; 80:546-50.
27. Hyer ME. Stress analysis of fiber-reinforced composite materials. Singapore:
McGraw-Hill, 1998: 19-38.
28. M. Vojdani, Khaledi AAR. Transverse strength of reinforced denture base resin with
metal wire and e-glass fibers. Journal of Dentistry Tehran University of Medical
Sciences 2006; 3: 167-72.
29. Denis V, Matejicek F, Schauperl Z, Mehulic K, Cukovic IB, Segovic S. Flexural
strength of e-glass fiber reinforced dental polymer an dental high impact strength
resin. Strojarstvo J 2008; 50 (4): 221-30.
30. Sang-Hui YU. Reinforcing of different on denture base resin based on the fiber type,
consentration, and combination. Dental material J 2012; 31 (6): 1039-46.
31. Goguta L Marsavina L, Bratu D, Topala F. Impact strength of acrylic heat
curing denture base resin reinforced with e-glass fibers. TMJ 2006; 56: 88-92.
32. Hanafiah KA. Percobaan teori & aplikasi. Edisi Ketiga. Jakarta: Raja Grafindo
Persada, 2003: 94-103.
33. Hamza TA, Rosenstiel SF, Elhosary MM, Ibraheem RM. The effect of fiber
reinforcement on the fracture toughness and flexural strength of provisional
restorative resins. J Prost Dent 2004; 91 (3) 258-64.