Addition of Fiber To Solution of Fiber Reinforced Composites In Dental
Keywords:
addition of fiber, solubility, fiber reinforced compositesAbstract
Along with the times, people's knowledge is increasing, to the awareness to do dental care. Dental care has now become a community need, starting from technical advancements in the installation of stirrups to the installation of dentures. Associated with dental care in the installation of dentures, there are several complaints of dentures that are easily soluble so that they are easily removed.Fiber reinforced compositesis a composite resin with added fiber reinforcement. FRC consists of composite, fiber and silane. Silane in the composite functions ascoupling agent. This is because the composite and fiber cannot bond well, so that between the two requires a coupling agent, namely silane. The use of silane in FRC composites is to improve the bond and help the bond between the composite and the fiber. One of the factors that affect the performance of the silane is the time it takes to dry the silane adhesive. The process of adding fiber will reduce the solubility of the material and water absorption. The results of a review of several studies show that there are differences in the mean values of the two sample groups. The difference in the mean value of the two sample groups was analyzed using a review of previous research journals. The conclusion is that the addition of fiber to FRC with silane affects the solubility of fiber reinforced composites.
References
Anggi, & Muttaqin, A. (2017). Pembuatan Material Sensor Kelembaban Relatif Berbasis Film Polianilin-Selulosa Ampas Tebu. Jurnal Fisika Unand, 6(2), 107–112.
Archegas, L. R. P., Caldas, D. B. M., Rached, R., & Vieira, S. (2008). Sorption and Solubility of Composites Cured with Quartz-tunsten Halogen and Light Emitting Diode Light Curing Units. Journal Contemporary Dental Practice, 9(2), 1–9.
Astika, I., Lokantara, I., & Gatot Karohika, I. (2013). Sifat Mekanis Komposit Polyester dengan Penguat Serat Sabut Kelapa. Jurnal Energi Dan Manufaktur.
Dhamayanti, I., & Nugraheni, T. (2013). Restorasi Fiber Reinforced Composite Pada Gigi Premolar Pertama Kanan Mandibula Pasca Perawatan Saluran Akar. Majalah Kedokteran Gigi Indonesia, 20(1), 65–70.
Faizah, A., Widjijono, & Nuryono. (2016). Pengaruh Komposisi Beberapa Glass Fiber Non Dental Terhadap Kelarutan Komponen Fiber Reinforced Composites. Majalah Kedokteran Gigi Indonesia, 2(1), 13–19.
Fu, J., Liu, W., Hao, Z., Wu, X., Yin, J., Panjiyar, A., … Wang, H. (2014). Characterization of a low shrinkage dental composite containing bismethylene spiroorthocarbonate expanding monomer. International Journal of Molecular Sciences.
Hakim, R. (2013). Gambaran tumpatan glass ionomer cement pada mahasiswa akademi keperawatan rumah sakit tingkat III Robert wolter monginsidi. e-GIGI.
Hasanah, P. U., Agustiono, P., & Widjijono. (2014). Perbandingan Kekuatan Tarik antara Stranded Fiber dengan Braided Fiber pada Fiber Reinforced Composite Jenis Ultra High Molecular Weight Polyethylene (UHMWPE). Jurnal Material Kedokteran Gigi2, 3(1), 18–21.
Imam, D. N. A., Sunarintyas, S., & Nuryono. (2015). Pengaruh Komposisi Glass Fiber Non Dental dan Penambahan Silane terhadap Kekuatan Geser Fiber Reinforced Composite sebagai Retainer Ortodonsi. Majalah Kedokteran Gigi Indonesia, 1(1), 53–58.
Jaelani, I. M., Sari, W. P., & Fadriyanti, O. (2019). Pengaruh jumlah glass fiber non dental pada reinforced resin akrilik (polimetil metakrilat) terhadap perlekatan Candida albicans. Jurnal Kedokteran Gigi, 31(2), 155–159.
Kafalia, R. F., Firdausy, M. D., & Nurhapsari, A. (2017). Pengaruh Jus Jeruk Dan Minuman Berkarbonasi Terhadap Kekerasan Permukaan Resin Komposit. Odonto Dental Journal, 4(1), 38–43.
Kosjoko. (2014). Pengaruh Perendaman (NaOH) Terhadap Kekuatan Tarik Dan Bending Bahan Komposit Serat Bambu Tali (Gigantochloa Apus) Bermatriks Polyester. Infoteknik, 5(2), 139–148.
Martha, M., Herda, E., & Soufyan, A. (2010). Pemilihan resin komposit dan fiber untuk meningkatkan kekuatan fleksural Fiber Reinforced Composite ( FRC ). Pdgi.
Maulida, F., Sari, W. P., & Darmawangsa. (2019). Pengaruh penambahan silane terhadap kekuatan fleksural reinforced composite yang diperkuat dengan glass fiber non-dental (The effect of silane addition on the flexural strength of non-dental glass fiber reinforced composite). Jurnal Kedokteran Gigi, 31(1), 43–46.
Mukuan, T., Abidjulu, J., & Wicaksono, D. A. (2013). Gambaran Kebocoran Tepi Tumpatan Pasca Restorasi Resin Komposit Pada Mahasiswa Program Studi Kedokteran Gigi Angkatan 2005-2007. e-GIGI, 1(2).
Murdiyanto, D. (2017). Potensi Serat Alam Tanaman Indonesia Sebagai Bahan Fiber Reinforced Composite Kedokteran Gigi. Jurnal Material Kedokteran Gigi.
Noviyani, A., N., M. Y. I., & Puspitasari, D. (2018). Perbandingan Jarak Penyinaran dan Ketebalan Bahan Terhadap Kuat Tarik Diametral Resin Komposit Tipe Bul. Dentin Jurnal Kedokteran Gigi.
Pasril, Y., & Pratama, W. A. (2013). Perbandingan Kekuatan Tekan Resin Komposit Hybrid Menggunakan Sinar Halogen Dan LED Comparison of Compressive Strength Hybrid Composite Resin Using Halogen and LED Light. Idj.
Pramudhita, W. Y. P. A., & Hendriani, R. (2016). Review: Teknik Peningkatan Kelarutan Obat. Farmaka, 14(2), 288–297.
Schmalz, G., & Bindslev, D. A. (2009). Biocompatibility of Dental Materials. Germany: Springer.
Septommy, C., Widjijono, W., & Dharmastiti, R. (2014). Pengaruh posisi dan fraksi volumetrik fiber polyethylene terhadap kekuatan fleksural fiber reinforced composite (The effect of position and volumetric fraction polyethylene fiber on the flexural strength of fiber reinforced composite). Dental Journal (Majalah Kedokteran Gigi).
Sharafeddin, F., Alavi, A., & Talei, Z. (2013). Flexural Strength of Glass and Polyethylene Fiber Combined with Three Different Composites. Journal of Dentistry Shiraz University of Medical Sciences, 14(1), 13–19.
Sidiqa, A. N., Soerachman, B., & Putri, M. Y. (2018). Evaluasi Nilai Kekerasan Resin Komposit Bulkfill dengan Variasi Waktu Penyinaran Sinar LED. Jurnal Material Kedokteran Gigi.
Sriwita, D., & Astuti. (2014). Pembuatan Dan Karakterisasi Sifat Mekanik Bahan Komposit Serat Daun Nenas-Polyester Ditinjau Dari Fraksi Massa Dan Orientasi Sera. Jurnal Fisika Unand, 3(1), 30–36.
Wadudah, N., Jekti Nugroho, J., & Sumidarti, A. (2013). Resin komposit silorane sebagai bahan tumpatan gigi posterior 1. Makassar Dental Journal, 2(5), 1–5.
Wibowo, D. A. D., Widjijono, & Siswomihardjo, W. (2018). Pengaruh Lama Perendaman Fiber Reinforced Composite dengan Fiber Sisal (Agave sisalana) Terkalissai dalam Saliva Buatan Terhadap Perubahan Dimensi. Jurnal Material Kedokteran Gigi, 7(1), 22–27.
Widyapramana, Widjijono, & Sunarintyas, S. (2013). Pengaruh Kombinasi Posisi Fiber Terhadap Kekuatan Fleksural dan Ketangguhan Retak Fiber Reinforced Composite Polyethylene. Insisiva Dental Journal, 2(2), 1–8.
Yudith, A., Rusfian, & Illice, C. (2013). Penyerapan Air dan Kelarutan Resin Komposit Mikrohibrid dan Nanohibrid. Makassar Dental Journal, 2(4), 1–5.
Zhang, M., & Matinlinna, J. P. (2011). The Effect of Resin Matrix Composition on Mechanical Properties of E-glass Fiber-Reinforced Composite for Dental Use. Journal of Adhesion Science and Technology, 25(19), 2687–2701.
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