DAFTAR PUSTAKA

1. Kusdhany LS. Gigitiruan, kapan anda memerlukannya?

2. Kratochvil FJ. Partial removable prostodontics. Philadelphia : WB Saunders Company, 1988: 10.

3. McCabe JF. Anderson’s applied dental materials. 6th ed. London: Blackwell Scientific Publications, 1985: 26, 83, 89-90.

4. Hatrick CD, Eakle WS, Bird WF. Dental materials: clinical applications for dental assistants and dental hygienists. 2nd ed. USA: Elsevier, 2011: 217-22.

5. Manappallil JJ. Basic dental materials. 2nd ed. New Delhi : Jaypee Brothers Medical Publishers (P), 1998: 98-101, 110, 118, 122-7.

6. Chandra S, Chandra S, Chandra R. A textbook of dental materials. 1st ed. New Delhi : Jaypee Brothers Medical Publishers (P), 2000: 113-4.

7. Zarb GA, Bolender CL, Eckert SE, et al. Prosthodontic treatment for edentulous patients: complete dentures and implant-supported prostheses. 12th ed. India: Elvesier, 2004: 191-4.

8. Van Noort R. Introduction to dental materials. 3rd ed. Sheffield : Elvesier Limited, 2007: 62, 216-223.

9. Combe EC. Notes on dental materials. 5th ed. Glasgow: Churcill Livingstone, 1986: 255-63.

10. Powers JM, Sakaguchi RL. Craig’s restorative dental materials. 9th ed. Oxford: Blackwell, 2008: 67-70.

11. Tandon R, Gupta S, Agarwi SK. Denture base material: From past to future Vol.2 Issue 2. Indina J Dent 2010: 33-9.

13. El-Sheikh AM, Al-Zahrani SB. Causes of denture fracture : a survey. Saudi Dent J 2006; 18 (3): 149-51.

14. Mowade TK, Dange SP, Thakre MB, Kamble VD. Effect of fiber reinforcement on impact strength of heat polymerized polymethyl methacrylate denture base resin: in vitro study and SEM analysis. J Adv Prost 2012; 4: 30-6. 15. Ferasima R. Pengaruh penambahan serat kaca dan serat polietilen

terhadap kekuatan impak dan transversal pada bahan basis gigitiruan resin akrilik polimerisasi panas. Skripsi. Medan: Fakultas Kedokteran Gigi Universitas Sumatera Utara, 2013: 20-1, 54-5.

16. Karacaer O, Polat TN, Tezvergil A, Lassila LVJ, Vallittu PK. The effect of length and concentration of glass fibers on the mechanical properties of an injection- and a compression-molded denture base polymer. J Prost Dent 2003; 90: 385-93.

17. Ladizesky NH, Cheng YY, Chow TW, Ward IM. Acrylic resin reinforced with chopped high performance polyethylene fiber – properties and denture construction. Dent Mater 1993; 9: 128-35.

18. Vallittu PK, Narva KK, Miettien VM. Water sorption and effect of post-curing of glass fiber reinforced polymers. J Biomaterial 1999; 20: 1187-94.

19. Rahamneh A. Impact strength of acrylic resin denture base material after the addition of different fibers. Pakistan J Oral & Dent 2009; 29 (1) : 183. 20. Powers JM, Wataha JC. Dental materials: properties and manipulation.

9th ed. Missouri : Mosby Inc., 2008: 285-305.

21. Sousa C. Teixeira P. Influence of surface properties on the adhesion of staphylococcus epidermidis to acrylic and silicone. Int J Biomaterial 2009; 718017: 1-7.

23. Kamel S, Adel AM, El-Sakhawy M, Nagieb ZA. Mechanical properties and water absorption of low-density polyethylene/sawdust composites. J App Polimer Sci 2006; 107: 1337-42.

24. Wilson HJ, Mansfield MA, Heath JR, Spence D. Dental materials. 8th ed. Oxford: Blackwell Scientific Publication, 1987: 353-6, 371.

25. Elshereksi NW. Mechanical and environmental properties of denture base poly (methyl methacrylate) filled by barium titanate. Thesis. Penang: Universiti Sains Malaysia, 2006: 20-4.

26. Gunadi HA, Margo A, Burhan LK, Suryatenggara F, Setiabudi I. Buku ajar ilmu geligi tiruan sebagian lepasan jilid 1. Jakarta: Hipokrates, 1991: 218-9.

27. Kortrakulkij K. Effect of denture cleanser on color stability and flexural strength of denture base materials. Thesis. Thailand: Mahido University, 2008.

28. Ahmed SA, Hamouda IM. Effect of microwave energy on mechanical properties of acrylic resins. J Engineering and Applied Science 2003; 50(1): 149-51, 158-60.

29. Hilgenberg SP, Oreliana-Jimenez EE, Sepulveda-Navarro WF, et al. Evaluation of surface physical properties of acrylic resins for provisional prosthesis. Mat Res 2008; 11(3).

30. Rahal JS, Mequita MF, Heriques GE, et al. Influences of chemical and mechanical polishing on water absorption and solubility. Braz Dent J 2004, 15 (3).

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 (1) : 1.

33. Pires-de-Souza FCP, Panzeri H, Vieira MA, Garcia LFR, Consani S. Impact and fracture resistance of an experimental acrylic polymer with elastomer in different proportions. Material Res 2009; 12 (4) : 417.

34. Tuna SH, Keyf F, Gumus HA, Uzun C. The evaluation of water sorption/ solubility on various acrylic resins. European J of Dentistry 2008; 2: 191-7. 35. Vojdani M, Khaledi AAR. Transverse strength of reinforced denture

base resin with metal wire and e-glass fibers. J Dent 2006; 3 (4): 167-72.

36. Alla RK, Sajjan S, Alluri VR, Ginjupalli K, Upadhya N. Influence of fiber reinforcement on the properties of denture base resins. J Biomaterial and Nanobiotechnology 2013; 4: 91-7.

37. Yu SH, Lee Y, Oh SH, Cho HW, Oda Y, Bae JM. Reinforcing effects of different fibers on denture base resin based on the fiber type, concentration, and combination. J Dent Material 2012; 31 (6): 1039-46.

38. Belli S, Eskitascioglu G. Biomechanical properties and clinical use of a polyethylene fibre post-core material. Int Dent South Africa 2006; 8 (3): 20-6. 39. Sharma KG. Easily processable ultra high molecular weight

polyethylene with narrow molecular weight distribution. Thesis. Belanda: Universiteit Eindhoven, 2005: 1-33.

40. Ghani F, Moosa R. Effect of curing methods and temperature on porosity in acrylic resin denture bases. J Pak Dent Assoc 2012; 21 (03) : 127-35.

41. Ester AS. Pengaruh penambahan serat kaca pada bahan basis gigitiruan resin akrilik polimerisasi panas terhadap kekasaran permukaan dan penyerapan air. Skripsi. Medan : Fakultas Kedokteran Gigi Universitas Sumatera Utara, 2012 : 3, 42, 56.

42. Cheng JJ. Mechanical and chemical properties of high density polyethylene: effects of microstructure on creep characteristics. Thesis. University of Waterloo, 2008: 1-43.

44. Takabayashi Y. Characteristics of denture thermoplastic resins for non-metal clasp dentures. J Dent Material 2010; 29 (4): 353-61.

45. Hanafiah KA. Rancangan percobaan: percobaan dan aplikasi. Edisi ketiga. Jakarta : PT Rajagranfindo Perkasa, 2003: 9.

46. Notoatmodjo S. Metodologi penelitian kesehatan. Jakarta: Rineka Cipta, 2005: 156.

47. Rizzatti-Barbosa CM, Gabriotti MN, Silva-Concilio LR, Joia FA, Machado C, Ribeiro MC. Surface roughness of acrylic resins processed by microwave energy and polished by mechanical and chemical process. Braz J Oral Sci 2006; 5 (16) : 977-81.

48. Arici N, Ural C. The effects of a denture cleanser on the surface rouhgness of heat-cured and cold-cured acrylic resins.Turkish J Orthod 2013; 26:92–97.

49. Silva AMJD, Guerrero JG, Pinto LDR, Carvalho RM, Porto VC. Evaluation of surface roughness and color change of a light-cured and a heat-cured acrylic resins employed for fabrication of prosthetic bases after exposure to different types of disinfectants. J Research Dent2013; 1: 199-209.

50. Srividya S, Chandrasekharan K Nair, Jayakar Shetty. Effect of different polishing agents on surface finish and hardness of denture base acrylic resins: a comparative study. Int J Pros and Rest Dent 2011; 1 (1) : 7-11.

51. Polat TN, Karacaer O, Tezvergil A, Lassila LVJ, Vallittu PK. Water sorption, solubility and dimensional changes of danture base polymers reinforced with short glass fibers. J Biomaterials Applications 2003; 17: 321-335.

52. Cheng YY, Chow TW, Ladizesky NH. Denture base resin reinforced with high-performance polyethylene fiber: water sorption and dimensional changes during immersion. J Macromol Sci-Phys 1993; 32 (4): 433-81.