Pengaruh Thermocycling dan Penambahan Serat Polietilen terhadap Kekuatan Impak dan Transversal pada Bahan Basis Gigitiruan Resin Akrilik Polimerisasi Panas
DAFTAR PUSTAKA
Al-Muthaffer AMR, Al-Ameer SS 2012, ‘Effect of thermocycling on
some mechanical properties of polyamide hypoallergenic denture base
material (comparative study)’, J Bagh College Dentistry, vol. 24, no. 2, hal.
25-9.
Alla RK dkk 2013, ‘Influence of fiber reinforcement on the properties
of denture base resins’, JBNB, vol. 4, hal. 91-7.
Anusavice KJ 1996, Phillips buku ajar ilmu bahan kedokteran gigi, 10th ed,
Alih Bahasa: Budiman, EGC, Jakarta, hal. 176-9, 197-207.
Bashi TK & Al-Nema LM 2009, ‘Evaluation of some mechanical properties
of reinforced acrylic resin denture base material (an in vitro study)’, Al–
Rafidain Dent J, vol. 9, no. 1, hal. 57-65.
Belli S & Eskitascioglu G 2006, ‘Biomechanical properties and clinical use of
a polyethylene fibre post-core material’, International Dentistry South Africa,
vol. 8, no. 3, hal. 20-6.
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, hal.
556-603.
Carlton CE & Ferreira PJ 2007, What is behind the inverse Hall- Petch
effect in nanocrystalline materials?, Elsevier, Acta Materialia Inc, hal. 374956.
Carr AB, McGivney GP & Brown DT 2005, McCrackens’s removable
partial prosthodontics, Edisi 11, Elsevier Mosby, Philadelphia.
Chhnoeum T 2008, ‘Effect of denture cleanser on the surface
roughness and hardness of denture base material’ Thesis, Mahidol University,
hal. 8-15.
Dogan O dkk. 2008, ‘The evaluation of some flexural properties of a
denture base resin reinforced with various aesthetic fibers’, J Mater Sci, vol.
19, hal. 2343-49.
Dogan OM dkk. 2007, ‘The effect of esthetic fibers on impact
resistance of a conventional heat-cured denture base resin’, DMJ, vol. 26, no.
2, hal. 232-9.
El-Sheikh AM & Al-Zahrani SB 2006, ‘Causes of denture fracture: a
survey’, Saudi Dental Journal, vol. 18, no. 3, hal. 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, hal. 137-143.
Feldman D & Hartomo AJ 1995, Bahan polimer konstruksi bangunan,
Gramedia Pustaka Utama, Jakarta, hal. 22-32.
Gale MS & Darvell BW 1999, ‘Thermal cycling procedures for
laboratory testing of dental restorations’, Journal of Dentistry, vol. 27, hal.
89-99.
Ganesh M & Tandon S 2006, ‘Versatility of ribbond in contemporary
dental practice’, Trends Biomater Artif Organs, vol. 20, no. 1, hal. 53-8.
Girbea C, Antohe ME, Forna D & Forna NC 2010, ‘Aspect in biomaterials
selection for removable dentures- marker of biological integration’, Proc Rom
Acad Series B, vol. 2, hal. 129–32.
Gladwin M & Bagby M 2009, Clinical aspects of dental materials, 3rd
ed, Lihalincott Williams & Wilkins, China, hal. 147-50.
Goiato MC, Zuccolotti BCR, Santos DM, Moreno A & Alves-Rezende
MCR 2009, ‘Effects of thermocycling on mechanical properties of soft lining
materials’, Acta Odontol Latinoam, vol. 22, no. 3, hal. 227-32.
Gunadi A 2012, Ilmu geligi tiruan sebagian lepasan, Hipokrates,
Jakarta, hal. 215-220.
Gurbuz O, Unalan F & Dikbas I 2010, ‘Comparison of the transverse
strength of six acrylic denture resins’, OHDMBSC, vol. 1, no. 9, hal. 21-4.
Hamza TA, Rosenstiel SF, Elhosary MM & Ibraheem RM 2004, ‘The
effect of fiber reinforcement on the fracture toughness and flexural strength of
provisional restorative resins’, J Prosthet Dent, vol. 91, hal. 258-64.
Hamza T, Wee AG, Alapati S & Schricker SR 2004, ‘The fracture
toughness of denture base material reinforced with different concentrations of
poss’, Journal of Macromolecular Science, vol. 41, no. 8, hal. 897–906.
Hanafiah KA 2003, Rancangan percobaan: teori dan aplikasi, Edisi 3.
PT Raja Grafindo Persada, Jakarta.
Hussein YA & Al-Ameer SS 2012, ‘The influence of different pH of
saliva and thermal cycling on the adaptation of different denture base
materials’, J Bagh College Dentistry, vol. 24, no. 3, hal. 47-53.
Hyer MW 1998, Stress analysis of fiber-reinforced composite
materials, McGraw-Hill, Singapore, hal. 9-32.
International Standart 2013, ‘Dentistry- base polymers- part 1: denture
base polymers’, ISO 20795-1.
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, hal. 26-32.
Jagger DC, Harrison A & Jandt KD 1999, ‘Review- the reinforcement
of dentures’, Journal of Oral Rehabilitation, vol. 26, hal. 185–194.
Kanie T, Fujii K, Arikawa H & Inoue K 2000, ‘Flexural properties and
impact strength of denture base polymer reinforced with woven glass fibers’,
Dental Materials, vol. 16, hal. 150–8.
Khalid H 2011, ‘Causes and types of complete denture fracture’,
Zanco J Med Sci, vol. 15, no. 3, hal. 36-40.
Khasawneh SF & Arab JM 2002, ‘A clinical study of complete denture
fractures at four military hospitals in Jordan’, JRMS, vol. 10, no. 2, hal. 27-31.
Lončar A, Vojvodić D, Jerolimov V, Komar D & Žabarović D 2008,
‘Fiber reinforced polymers part II: effect on mechanical properties’, Acta
Stomatol Croat, vol. 42, no. 1, hal. 49-63.
Madan N & Datta K 2012, ‘Evaluation of tensile bond strength of heat
cure and autopolimerizing silicone-based resilient denture liners before and
after thermocyling’, Indian Journal od Dental Research, vol. 23, no. 1, hal.
64-8.
Maldonado VM, Torres LSA, Santana FHB, Lancon RDV, Rodrıguez
MEP & Castano VM 2012, ‘Fiber-reinforced nanopigmented poly (methyl
methacrylate) as improved denture base’, Journal of Applied Polymer Science,
hal. 1-8.
Manappallil JJ 2003, Basic Dental Materials, Edisi 2, Jaypee Brothers,
New Delhi, hal. 99-118.
Mancuso DN, Goiato MC, Zuccolotti BCR, Moreno A, Santos DM &
Pesqueira AA 2012, ‘Effect of thermocycling on hardness, absorption
solubility and colour change of soft liners’, The Gerondontology Society and
John Wiley and Sons, vol. 29, hal. 215-9.
Mc Cabe JF & Walls AWG 2007, Applied dental materials, Edisi 9,
Blackwell Munksgaard, London, hal. 110-23.
Mc Cracken’s 2000, Removable Partial Prosthodontics, Edisi 10, CV.
Mosby Company, hal. 127.
Mohammed NZ 2013, ‘The effect of thermal cycling on the fitness of
modified heat cured acrylic resin maxillary denture base’, Al-Rafidain Dent J,
vol. 13, no. 3, hal. 403-13.
Moressi AL, D’Amario M, Capogreco M, Gatto R, Marzo G,
D’Arcangelo C & Monaco A 2014, ‘Thermal cycling for restorative materials:
does a standarized protocol exist in laboratory testing?- a literature review’,
Journal of the Mechanical Behavior of Biomedical Materials, hal. 295-308.
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, hal. 30-6.
Narva KK, Lassila LV & Vallittu PK 2005, ‘The static strength and
modulus of fiber reinforced denture base polymer’, Academy of Dental
Materials Elsevier, vol. 21, hal. 421–8.
Narva KK, Vallittu PK, Helenius H & Urpo AY 2001, ‘Clinical survey
of acrylic resin removable denture repairs with glass-fiber reinforcement’, Int
J Prosthodont, vol. 14, no. 3, hal. 219–24.
Nascimento ACS, Muzilli CA, Miranda ME, Florio FM & Basting RT
2013, ‘Evaluation of roughness and micromorphology of epoxy paint on
cobalt-chromium alloy before and after thermal cycling’, Braz Oral Res MarApril, vol. 27, no. 2, hal. 176-82.
Paladugu LS, Sivakumar M & Ganta R 2014, ‘Evaluation of flexural
strength, impact strength and water sorption of various denture base resins- an
in vitro study’, J Res Adv Dent, vol. 3, no. 2s, hal. 94-9.
Powers JM 2008, Dental materials properties and manipulation, 9th,
Elsevier, USA, hal. 24-34, 287-301.
Powers JM & Sakaguchi RL 2006, Craig’s Restorative dental
materials, Ed-12, Mosby Elsevier, St. Louis, Missouri, hal. 514 – 36.
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, hal. 22-4.
Rahamneh A 2009, ‘Impact strength of acrylic resin denture base
material after the addition of different fibres’, Pakistan Oral & Dental
Journal, vol. 29, no. 1, hal. 181-4.
Ramos V, Runyan DA & Christensen LC 1996, ‘The effect of plasmatreated polyethylene fiber on the fracture strength of polymethyl
methacrylate’, J Prost Dent; vol. 76, hal. 94-6.
Raszewski Z & Nowakowska D 2013, ‘Mechanical properties of hot
curing acrylic resin after reinforced with different kinds of fibers’,
International Journal of Biomedical Materials Research, vol. 1, no. 1, hal. 913.
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, hal.
380–7.
Ray S, Ray PK, Makhal M & Sen KS 2014, ‘Incidence and causes of
fracture of acrylic resin complete denture’, J of Evolution of Med and Dent
Sci, vol. 69, no. 3, hal. 14187-91.
Rezvani MB, Atai M & Hamze F 2013, ‘Effect of fiber diameter on
flexural properties of fiber-reinforced composites’, Indian Journal of Dental
Research, vol. 24, no. 2, hal. 237-41.
Sadamori S dkk. 2007, ‘A comparison of three dimensional change in
maxillary complete denture between conventional heat polymerizing and
microwave polymerizing technique’, Dent J, vol. 40, no. 1, hal. 6-10.
Salim S 2010, ‘Various curing methods on transverse strength of
acrylic resin’, Dent J, vol. 43, no. 1, hal. 40-3.
Schricker SR dkk. 2006, ‘Effect of methacrylated hyperbranched
polymers on the fracture properties of denture base materials’, Journal of
Macromolecular Science, vol. 43, hal. 205-12.
Sitorus Z & Dahar E 2012, ‘Perbaikan sifat fisis dan mekanis resin
akrilik polimerisasi panas dengan penambahan serat kaca’, Dentika, vol. 17,
no. 1, hal. 24-9.
Soygun K dkk. 2013, ‘Mechanical and thermal properties of
polyamide versus reinforced PMMA denture base materials’, J Adv
Prosthodont, vol. 5, no. 2, hal. 153-60.
Strassler HE & Brown C 2001, ‘Periodontal splinting with a thinhigh-modulus polyethylene ribbon’, Compendium August, vol. 22, no. 8, hal.
610-20.
Tandon R, Gupta S & Agarwal SK 2010, ‘Denture base materials:
from past to future’, Indian Journal of Dental Sciences, vol. 2, no. 2, hal. 339.
Unalan F, Dikbas I & Gurbuz O 2010, ‘Transverse strength of
polymethylmethacrylate reinforced with different forms and concentrations of
e-glass fibres’, OHDMBSC, vol. 9, no. 3, hal. 144-7.
Vallittu PK, Lassila VP & Lappalainen R 1994, ‘Acrylic resin-fiber
composite-part I: the effect of fiber concentration on fracture resistance’, J
Prost Dent; vol. 71, no. 6, hal. 607-12.
Van noort R 2007, Introduction to dental materials, 3rd ed, Elsevier,
London, hal. 216-23.
Vojdani M & Khaledi AAR 2006, ‘Transverse strength of reinforced
denture base resin with metal wire and e-glass fibers’, Journal of
Dentistry,vol. 3, no. 4, hal. 167-172.
Vojvodić D, Komar D, Schauper Z, Čelebić A, Mehulić K &
Žabarović D 2009, ‘Influence of different glass fiber reinforcements on
denture base polymer strength (fiber reinforcements of dental polymer)’,
Medicinski Glasnik, vol. 6, no. 2, hal. 227-33.
Watri D 2010, ‘Pengaruh penambahan serat kaca pada bahan basis
gigitiruan resin akrilik polimerisasi panas terhadap kekuatan impak dan
transversal’ Skripsi, Universitas Sumatera Utara, hal. 1-56.
Wikipedia,
Polyethylene,
http://en.wikipedia.org/wiki/Polyethylene
(24
Januari
2015),
Wikipedia,
Polyethylene
UHMWPE,
(24
Januari
2015),
http://en.wikipedia.org/wiki/Ultra-high-molecular-weight_polyethylene
Yöndem I, Yücel M, Aykent F & Öztürk AN 2011, ‘Flexural strength
of denture base resin reinforced with different fibers’, SÜ Dişhek Fak Derg,
vol. 20, hal. 15-20.
Yu HS dkk. 2013, ‘Comparison of denture base resin reinforced with
polyaromatic polyamide fibers of different orientations’, DMJ, vol. 32, no. 2,
hal. 332-40.
Yu HS, Lee Y, Oh S, Cho WH, Oda Y & Bae MJ 2012, ‘Reinforcing
effects of different fibers on denture base resin based on the fiber type,
concentration, and combination’, Dental Materials Journal, vol. 31, no. 6, hal.
1039–46.
Zarb dkk. 2012, Prosthodontic treatment for edentulous patients, 13th,
Elsevier, Singapore, hal. 133-141.
Al-Muthaffer AMR, Al-Ameer SS 2012, ‘Effect of thermocycling on
some mechanical properties of polyamide hypoallergenic denture base
material (comparative study)’, J Bagh College Dentistry, vol. 24, no. 2, hal.
25-9.
Alla RK dkk 2013, ‘Influence of fiber reinforcement on the properties
of denture base resins’, JBNB, vol. 4, hal. 91-7.
Anusavice KJ 1996, Phillips buku ajar ilmu bahan kedokteran gigi, 10th ed,
Alih Bahasa: Budiman, EGC, Jakarta, hal. 176-9, 197-207.
Bashi TK & Al-Nema LM 2009, ‘Evaluation of some mechanical properties
of reinforced acrylic resin denture base material (an in vitro study)’, Al–
Rafidain Dent J, vol. 9, no. 1, hal. 57-65.
Belli S & Eskitascioglu G 2006, ‘Biomechanical properties and clinical use of
a polyethylene fibre post-core material’, International Dentistry South Africa,
vol. 8, no. 3, hal. 20-6.
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, hal.
556-603.
Carlton CE & Ferreira PJ 2007, What is behind the inverse Hall- Petch
effect in nanocrystalline materials?, Elsevier, Acta Materialia Inc, hal. 374956.
Carr AB, McGivney GP & Brown DT 2005, McCrackens’s removable
partial prosthodontics, Edisi 11, Elsevier Mosby, Philadelphia.
Chhnoeum T 2008, ‘Effect of denture cleanser on the surface
roughness and hardness of denture base material’ Thesis, Mahidol University,
hal. 8-15.
Dogan O dkk. 2008, ‘The evaluation of some flexural properties of a
denture base resin reinforced with various aesthetic fibers’, J Mater Sci, vol.
19, hal. 2343-49.
Dogan OM dkk. 2007, ‘The effect of esthetic fibers on impact
resistance of a conventional heat-cured denture base resin’, DMJ, vol. 26, no.
2, hal. 232-9.
El-Sheikh AM & Al-Zahrani SB 2006, ‘Causes of denture fracture: a
survey’, Saudi Dental Journal, vol. 18, no. 3, hal. 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, hal. 137-143.
Feldman D & Hartomo AJ 1995, Bahan polimer konstruksi bangunan,
Gramedia Pustaka Utama, Jakarta, hal. 22-32.
Gale MS & Darvell BW 1999, ‘Thermal cycling procedures for
laboratory testing of dental restorations’, Journal of Dentistry, vol. 27, hal.
89-99.
Ganesh M & Tandon S 2006, ‘Versatility of ribbond in contemporary
dental practice’, Trends Biomater Artif Organs, vol. 20, no. 1, hal. 53-8.
Girbea C, Antohe ME, Forna D & Forna NC 2010, ‘Aspect in biomaterials
selection for removable dentures- marker of biological integration’, Proc Rom
Acad Series B, vol. 2, hal. 129–32.
Gladwin M & Bagby M 2009, Clinical aspects of dental materials, 3rd
ed, Lihalincott Williams & Wilkins, China, hal. 147-50.
Goiato MC, Zuccolotti BCR, Santos DM, Moreno A & Alves-Rezende
MCR 2009, ‘Effects of thermocycling on mechanical properties of soft lining
materials’, Acta Odontol Latinoam, vol. 22, no. 3, hal. 227-32.
Gunadi A 2012, Ilmu geligi tiruan sebagian lepasan, Hipokrates,
Jakarta, hal. 215-220.
Gurbuz O, Unalan F & Dikbas I 2010, ‘Comparison of the transverse
strength of six acrylic denture resins’, OHDMBSC, vol. 1, no. 9, hal. 21-4.
Hamza TA, Rosenstiel SF, Elhosary MM & Ibraheem RM 2004, ‘The
effect of fiber reinforcement on the fracture toughness and flexural strength of
provisional restorative resins’, J Prosthet Dent, vol. 91, hal. 258-64.
Hamza T, Wee AG, Alapati S & Schricker SR 2004, ‘The fracture
toughness of denture base material reinforced with different concentrations of
poss’, Journal of Macromolecular Science, vol. 41, no. 8, hal. 897–906.
Hanafiah KA 2003, Rancangan percobaan: teori dan aplikasi, Edisi 3.
PT Raja Grafindo Persada, Jakarta.
Hussein YA & Al-Ameer SS 2012, ‘The influence of different pH of
saliva and thermal cycling on the adaptation of different denture base
materials’, J Bagh College Dentistry, vol. 24, no. 3, hal. 47-53.
Hyer MW 1998, Stress analysis of fiber-reinforced composite
materials, McGraw-Hill, Singapore, hal. 9-32.
International Standart 2013, ‘Dentistry- base polymers- part 1: denture
base polymers’, ISO 20795-1.
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, hal. 26-32.
Jagger DC, Harrison A & Jandt KD 1999, ‘Review- the reinforcement
of dentures’, Journal of Oral Rehabilitation, vol. 26, hal. 185–194.
Kanie T, Fujii K, Arikawa H & Inoue K 2000, ‘Flexural properties and
impact strength of denture base polymer reinforced with woven glass fibers’,
Dental Materials, vol. 16, hal. 150–8.
Khalid H 2011, ‘Causes and types of complete denture fracture’,
Zanco J Med Sci, vol. 15, no. 3, hal. 36-40.
Khasawneh SF & Arab JM 2002, ‘A clinical study of complete denture
fractures at four military hospitals in Jordan’, JRMS, vol. 10, no. 2, hal. 27-31.
Lončar A, Vojvodić D, Jerolimov V, Komar D & Žabarović D 2008,
‘Fiber reinforced polymers part II: effect on mechanical properties’, Acta
Stomatol Croat, vol. 42, no. 1, hal. 49-63.
Madan N & Datta K 2012, ‘Evaluation of tensile bond strength of heat
cure and autopolimerizing silicone-based resilient denture liners before and
after thermocyling’, Indian Journal od Dental Research, vol. 23, no. 1, hal.
64-8.
Maldonado VM, Torres LSA, Santana FHB, Lancon RDV, Rodrıguez
MEP & Castano VM 2012, ‘Fiber-reinforced nanopigmented poly (methyl
methacrylate) as improved denture base’, Journal of Applied Polymer Science,
hal. 1-8.
Manappallil JJ 2003, Basic Dental Materials, Edisi 2, Jaypee Brothers,
New Delhi, hal. 99-118.
Mancuso DN, Goiato MC, Zuccolotti BCR, Moreno A, Santos DM &
Pesqueira AA 2012, ‘Effect of thermocycling on hardness, absorption
solubility and colour change of soft liners’, The Gerondontology Society and
John Wiley and Sons, vol. 29, hal. 215-9.
Mc Cabe JF & Walls AWG 2007, Applied dental materials, Edisi 9,
Blackwell Munksgaard, London, hal. 110-23.
Mc Cracken’s 2000, Removable Partial Prosthodontics, Edisi 10, CV.
Mosby Company, hal. 127.
Mohammed NZ 2013, ‘The effect of thermal cycling on the fitness of
modified heat cured acrylic resin maxillary denture base’, Al-Rafidain Dent J,
vol. 13, no. 3, hal. 403-13.
Moressi AL, D’Amario M, Capogreco M, Gatto R, Marzo G,
D’Arcangelo C & Monaco A 2014, ‘Thermal cycling for restorative materials:
does a standarized protocol exist in laboratory testing?- a literature review’,
Journal of the Mechanical Behavior of Biomedical Materials, hal. 295-308.
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, hal. 30-6.
Narva KK, Lassila LV & Vallittu PK 2005, ‘The static strength and
modulus of fiber reinforced denture base polymer’, Academy of Dental
Materials Elsevier, vol. 21, hal. 421–8.
Narva KK, Vallittu PK, Helenius H & Urpo AY 2001, ‘Clinical survey
of acrylic resin removable denture repairs with glass-fiber reinforcement’, Int
J Prosthodont, vol. 14, no. 3, hal. 219–24.
Nascimento ACS, Muzilli CA, Miranda ME, Florio FM & Basting RT
2013, ‘Evaluation of roughness and micromorphology of epoxy paint on
cobalt-chromium alloy before and after thermal cycling’, Braz Oral Res MarApril, vol. 27, no. 2, hal. 176-82.
Paladugu LS, Sivakumar M & Ganta R 2014, ‘Evaluation of flexural
strength, impact strength and water sorption of various denture base resins- an
in vitro study’, J Res Adv Dent, vol. 3, no. 2s, hal. 94-9.
Powers JM 2008, Dental materials properties and manipulation, 9th,
Elsevier, USA, hal. 24-34, 287-301.
Powers JM & Sakaguchi RL 2006, Craig’s Restorative dental
materials, Ed-12, Mosby Elsevier, St. Louis, Missouri, hal. 514 – 36.
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, hal. 22-4.
Rahamneh A 2009, ‘Impact strength of acrylic resin denture base
material after the addition of different fibres’, Pakistan Oral & Dental
Journal, vol. 29, no. 1, hal. 181-4.
Ramos V, Runyan DA & Christensen LC 1996, ‘The effect of plasmatreated polyethylene fiber on the fracture strength of polymethyl
methacrylate’, J Prost Dent; vol. 76, hal. 94-6.
Raszewski Z & Nowakowska D 2013, ‘Mechanical properties of hot
curing acrylic resin after reinforced with different kinds of fibers’,
International Journal of Biomedical Materials Research, vol. 1, no. 1, hal. 913.
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, hal.
380–7.
Ray S, Ray PK, Makhal M & Sen KS 2014, ‘Incidence and causes of
fracture of acrylic resin complete denture’, J of Evolution of Med and Dent
Sci, vol. 69, no. 3, hal. 14187-91.
Rezvani MB, Atai M & Hamze F 2013, ‘Effect of fiber diameter on
flexural properties of fiber-reinforced composites’, Indian Journal of Dental
Research, vol. 24, no. 2, hal. 237-41.
Sadamori S dkk. 2007, ‘A comparison of three dimensional change in
maxillary complete denture between conventional heat polymerizing and
microwave polymerizing technique’, Dent J, vol. 40, no. 1, hal. 6-10.
Salim S 2010, ‘Various curing methods on transverse strength of
acrylic resin’, Dent J, vol. 43, no. 1, hal. 40-3.
Schricker SR dkk. 2006, ‘Effect of methacrylated hyperbranched
polymers on the fracture properties of denture base materials’, Journal of
Macromolecular Science, vol. 43, hal. 205-12.
Sitorus Z & Dahar E 2012, ‘Perbaikan sifat fisis dan mekanis resin
akrilik polimerisasi panas dengan penambahan serat kaca’, Dentika, vol. 17,
no. 1, hal. 24-9.
Soygun K dkk. 2013, ‘Mechanical and thermal properties of
polyamide versus reinforced PMMA denture base materials’, J Adv
Prosthodont, vol. 5, no. 2, hal. 153-60.
Strassler HE & Brown C 2001, ‘Periodontal splinting with a thinhigh-modulus polyethylene ribbon’, Compendium August, vol. 22, no. 8, hal.
610-20.
Tandon R, Gupta S & Agarwal SK 2010, ‘Denture base materials:
from past to future’, Indian Journal of Dental Sciences, vol. 2, no. 2, hal. 339.
Unalan F, Dikbas I & Gurbuz O 2010, ‘Transverse strength of
polymethylmethacrylate reinforced with different forms and concentrations of
e-glass fibres’, OHDMBSC, vol. 9, no. 3, hal. 144-7.
Vallittu PK, Lassila VP & Lappalainen R 1994, ‘Acrylic resin-fiber
composite-part I: the effect of fiber concentration on fracture resistance’, J
Prost Dent; vol. 71, no. 6, hal. 607-12.
Van noort R 2007, Introduction to dental materials, 3rd ed, Elsevier,
London, hal. 216-23.
Vojdani M & Khaledi AAR 2006, ‘Transverse strength of reinforced
denture base resin with metal wire and e-glass fibers’, Journal of
Dentistry,vol. 3, no. 4, hal. 167-172.
Vojvodić D, Komar D, Schauper Z, Čelebić A, Mehulić K &
Žabarović D 2009, ‘Influence of different glass fiber reinforcements on
denture base polymer strength (fiber reinforcements of dental polymer)’,
Medicinski Glasnik, vol. 6, no. 2, hal. 227-33.
Watri D 2010, ‘Pengaruh penambahan serat kaca pada bahan basis
gigitiruan resin akrilik polimerisasi panas terhadap kekuatan impak dan
transversal’ Skripsi, Universitas Sumatera Utara, hal. 1-56.
Wikipedia,
Polyethylene,
http://en.wikipedia.org/wiki/Polyethylene
(24
Januari
2015),
Wikipedia,
Polyethylene
UHMWPE,
(24
Januari
2015),
http://en.wikipedia.org/wiki/Ultra-high-molecular-weight_polyethylene
Yöndem I, Yücel M, Aykent F & Öztürk AN 2011, ‘Flexural strength
of denture base resin reinforced with different fibers’, SÜ Dişhek Fak Derg,
vol. 20, hal. 15-20.
Yu HS dkk. 2013, ‘Comparison of denture base resin reinforced with
polyaromatic polyamide fibers of different orientations’, DMJ, vol. 32, no. 2,
hal. 332-40.
Yu HS, Lee Y, Oh S, Cho WH, Oda Y & Bae MJ 2012, ‘Reinforcing
effects of different fibers on denture base resin based on the fiber type,
concentration, and combination’, Dental Materials Journal, vol. 31, no. 6, hal.
1039–46.
Zarb dkk. 2012, Prosthodontic treatment for edentulous patients, 13th,
Elsevier, Singapore, hal. 133-141.