Fiber Reinforced Composite (FRC) merupakan material sintetik yang banyak diaplikasikan secara klinis di kedokteran gigi seperti pada bidang prostodonti, konservasi gigi, implantologi, periodonti, ortodonti dan kedokteran gigi anak. E-glass fiber merupakan tipe fiber yang sering digunakan di Kedokteran Gigi. Penggunaaannya lebih dari 50% dibandingkan tipe lain. Ketersediaan E glass fiber dental di Indonesia cukup terbatas dengan harga relatif mahal namun tersedia glass fiber non dental dalam jumlah yang banyak dengan harga terjangkau. Salah satu tipe yang banyak digunakan adalah tipe E glass. E glass fiber non dental telah banyak digunakan sebagai material substitusi pada otomotif dan aplikasi kedirgantaraan karena karakteristiknya ringan dan sifat mekanik yang lebih baik. Tujuan dari penelitian ini adalah untuk menganalisis komposisi dari E-glass Fiber Non Dental menggunakan teknik XRF.  Sampel terdiri dari 10 gram E glass fiber non dental. Sampel dipotong dan dihaluskan dengan cara ditumbuk dan diayak. Selanjutnya dianalisis menggunakan X-Ray Fluorescence Spectrometer (XRF). Selanjutnya hasil analisis ditampilkan dalam bentuk tabel deskriptif. Hasil analisis menunjukkan kandungan oksida terbesar SiO₂ (39,53%), CaO (46,31%), Al₂O₃ (8,17%) dan K₂O (0,64%) tanpa kandungan B₂O₃. Berdasarkan analisis XRF disimpulkan bahwa E-glass fiber non dental memiliki komposisi dan konsentrasi yang hampir sama dengan E-glass fiber dental, dan diharapkan dapat menjadi alternatif material di Kedokteran Gigi.

Kata Kunci: Glass fiber, E glass fiber dental, E glass fiber non dental, X-Ray Fluorescence Spectrometer (XRF)

ayab T., Shetty A., dan Kayalvizhi G. 2015. The Clinical Applications of Fiber Reinforced Composites in All Specialties of Dentistry an Overview. International J of Composite Material. 5(1); 18-24.

Brozek R., Koczorowski R., dan Bobkowska B.D. 2019. Laboratory and Clinical Evaluation of Polymer Material Reinforced By Fiber used in Dentistry. European Review for Medical and Pharmacological Science.23; 1855-1863.

Scribante A., Vallittu P.K., Ozcan M. 2018. Fiber Reinforced Composites for Dental Applications. Biomed Research International Hindawi. 1-2.

Kumar A., Tekriwal S., Rajkumar B., Gupta V., dan Rastogi R. 2016. A Review on Fibre Reinforced Composite Resin. Annals of Prosthodontics and Restorative Dentistry . 2(1); 11-16.

Vallitu P.K. 2018. An overview of Development and Status of Fiber-Reinforced Composites as Dental and Medical Biomaterials. Acta Biomateriala Odontologica Scandinavia. 4(1); 44-55.

Khan A.S., Azam M.T., Khan M., Mian S.A., dan Rehman I.U. 2015. An Update on Glass Fiber Dental Restorative Composites: A Systematic review. Material Science and Engineering C. 47; 26-39.

Mangous E., Sailynoja E., Prinssi R., Lassila L., Valittu P.K., dan Garoushi S. 2017. Comparative Evaluation between Glass and Polyethylene Fiber Reinforced Composite: A Review of the Current Literature. J Clin Exp Dent . 9 (12); e1408-17

Amer A.A.R., Abdullah M.M.A.B., Ming L.Y., Tahir M.F.M. Performance and Properties of Glass Fiber and its Utilization in Concrete – A Review. AIP Conference Proceeding. 20 November 2018. 020296-10.

Gokul S., Ahila SC., dan Muthu Kumar B. 2018. Effect of E-glass Fibers with Conventional Heat Activated PMMA Resin Flexural Strength and Fracture Toughness of Heat Activated PMMA Resin. Annals of Medical & Health Science Research. 8(3); 189-192.

Sari W.P., Sumantri, D., Imam D.N.A. 2014. Pemeriksaan Komposisi Glass Fiber Komersial dengan teknik X-Ray Fluorescence Spectrometer (XRF). J B-Dent. 1(1); 156-162.

Safwat E.M., Khater A.G.A., Elsatar A.G., Khater G.A. 2021. Glass Fiber Reinforced Composites in Dentistry. Bull Nati Res Cent. 45; 1-9.

Zhang M, Matinlinna J.P. 2012. E-Glass fiber Reinforced Composites in Dental Applications. Silicon. 4; 73-78.

Fonseca R.B., Paula M.S., Favarao I.N., Kasuya A.V.B., Carlo H.L. 2014. Reinforcement of Dental Methacrylate with Glass Fiber after Heated Silane Application. Biomed Research International Hindawi. 1:5.

Sari W.P., Sunarintyas S., Nuryono. 2015. Pengaruh Komposisi beberapa Glass Fiber Non Dental terhadap Kekuatan Fleksural Fiber Reinforced Composites. J B-Dent . 2(1); 29-35.

Landesmann A., Seruti C.A., Batista E.M. 2015. Mechanical Properties of Glass Fiber Reinforced Polymers Members for Structural Application. Material Research. 18 (6); 1372-1383.

Kumar M., Ravikiran R., Govindaraju H.K. Development of E-Glass Woven Fabric/ Polyester Resin Polymer Matrix Composite and Study of Mechanical Properties. Science Direct Proceeding. 5 (2018) ; 13367-13374.

Pinto A.H. 2018. Portable X-Ray Fluorescence Spectrometry: Principles and Applications for Analysis of Mineralogical and Enviromental Materials. Aspect Min Miner Sci. 1(2); 1-6.

Bell A.M.T., Backhouse D.J., Deng W., Eales J.D., Kilinc E., Rautiyal P., Rigby J.C., Vaishnav S., Addo G.W., Bingham P.A. 2020. X.Ray Fluorescence Analysis of Feldspars and Silicate Glass: Effect of Melting Time on Fused Bead Consistensi and Volatilisation. Minerals. 10 (422) ; 1-17.

Oyedotun T.D.T.2018. X-Ray Fluorescence (XRF) in the Investigation of the Composition of Earth materials: a review and overview. Geology, Ecology and landscape. 2(2); 148-154.

Wilberforce O. J.O. 2016. Review of Principles and Application of AAS, PIXE and XRF and Their Usefulness in Enviromental Analysis of Heavy Metals. IOSR-JAC. 9(6); 15-17.

Hascke M., Flock J., Haller M. X-Ray Fluorescence Spectroscopy for Laboratory Applications. 1st Ed. Weinheim: WILEY-VCH. 2021. p 31-32.

Jamaludin A dan Adiantoro D. 2012. Analisis Kerusakan X-ray Fluoresence (XRF). Majalah Ilmiah PIN. 9 (5): 19-28.

Munasir., Triwikantoro., Zainuri, M., Darminto. 2012. Uji XRD dan XRF pada Bahan Mineral (Batuan dan Pasir) sebagai Sumber Material Cerdas (CaCO3 dan SiO2). JPFA. 2(1): 20-29.

Hasanuzzaman, M., Rafferty, A., Sajjia, M., & Olabi, A.-G. 2016. Properties of Glass Materials. Reference Module in Materials Science and Materials Engineering. Elsevier. doi:10.1016/b978-0-12-803581-8.03998-9

Thomason J., Jenkins P., Yang L. 2016. Glass Fiber Strength-A Review with Relation to Composite Recycling. MDPI. 4(18): 1-24.

Cevahir, A. 2017. Glass fibers. Fiber Technology for Fiber-Reinforced Composites, 99–121. doi:10.1016/b978-0-08-101871-2.00005-9