Hasil Pencarian  ::  Simpan CSV :: Kembali

"Penelitian ini bertujuan untuk mengevaluasi pengaruh durasi penyinaran menggunakan LED dan pemanasan awal menggunakan Micerium ENA Heat terhadap depth of cure resin komposit bulk-fill. Alat dan bahan: Enam puluh spesimen Filtek Bulk-Fill Posterior Restoratives ketebalan 4 mm dan diameter 3 mm; tanpa dan dengan pemanasan awal pada temperatur 39 C dibagi ke dalam 3 kelompok sesuai dengan durasi penyinaran 5 detik, 10 detik, dan 15 detik. Spesimen dipolimerisasi menggunakan LED Curing Unit 3MTM Elipar, 1.200 mW/cm2 dan diuji kekerasan mikro menggunakan Vickers Microhardness Tester Shimadzu, Japan untuk menghitung nilai depth of cure. Data yang diperoleh dianalisis menggunakan uji statistik Kruskall-Wallis dan Post-Hoc Mann Whitney-U.Hasil: Adanya perbedaan yang tidak bermakna p ge;0,05 untuk nilai depth of cure pada keenam kelompok tanpa dan dengan pemanasan awal. Walaupun nilai depth of cure tersebut tidak bermakna namun telah mencapai nilai minimum yaitu ge; 80. Selain itu terdapat perbedaan yang bermakna p.

---

Aim Evaluate the influence of different exposure time and pre heating on its depth of cure of bulk fill composite. Methods Sixty cylinder shaped specimens of Filtek Bulk Fill Posterior Restoratives 4 mm of thickness x 3 mm of diameter with and without pre heating at 39 C were divided into 3 subgroups according to exposure times 5, 10, and 15. All specimens were polymerized using LED Curing Unit 3MTM Elipar, 1.200 mW cm2 and tested using Vickers Microhardness Tester Shimadzu, Japan to determine its microhardness for calculating its depth of cure. Data were statistically analyzed using Kruskall Wallis and Post Hoc Mann Whitney U test.

Results A no significant differences p ge 0,05 in depth of cure amongst the six groups of non preheated and preheated bulk fill composite. However, all of the groups have reached a minimum value of ge 80 depth of cure. Moreover, there is a significant differences in microhardness in all of the six groups of non preheated and preheated bulk fill composite and between 5 and 15 of exposure times in both groups. Conclusion Exposure times and pre heating at 39 C had an influence on microhardness of bulk fill composite."

"Latar belakang : Resin komposit bulkfill merupakan resin terbaru yang dapat direstorasi dengan kedalaman 4-5 mm dalam sekali penyinaran. Polimerisasi dipengaruhi oleh durasi penyinaran dan besaran irradiansi lightcuring untuk mendapatkan kekerasan permukaan dan depth of cure yang optimal. Tujuan: Penelitian ini bertujuan untuk mengetahui perbedaan nilai kekerasan resin komposit dan depth of cure resin komposit Tetric® N- Ceram bulk-fill yang disinari lightcure dengan durasi 5 detik, 10 detik dan 15 detik. Metode Penelitian: Dalam penelitian ini digunakan 24 spesimen resin komposit Tetric® N-Ceram bulk-fill berbentuk silinder dengan ukuran diameter 6 mm dan tebal 4 mm. Selembar mylar strip diletakkan diatas permukaan resin komposit sebelum dilakukan proses curing. Polimerisasi dilakukan menggunakan Light Curing Unit (LED DBA iLed) selama 5 detik, 10 detik dan 15 detik dengan irradiansi 1100 mW/cm2. Setelah polimerisasi, spesimen direndam dalam akuades pada suhu 37oC selama 24 jam. Spesimen dibagi menjadi tiga kelompok (n=8) yaitu; kelompok resin komposit dengan penyinaran 5 detik, penyinaran 10 detik dan penyinaran 15 detik. Spesimen diuji menggunakan HMV-G Series Micro Vickers Hardness Tester (Shimadzu, Jepang) dengan beban 100 gram selama 10 detik untuk mendapatkan nilai kekerasan. Data dianalisis dengan uji statistik Kruskall Wallis dan Post-Hoc Mann Whitney. Hasil Penelitian: Hasil uji statistik menunjukkan kenaikan bermakna nilai kekerasan permukaan dan depth of cure pada resin komposit Tetric® N-Ceram bulk-fill. Nilai kekerasan dan depth of cure tertinggi terlihat pada resin komposit Tetric® N-Ceram bulk-fill pada kelompok penyinaran 15 detik, yaitu sebesar 41,61 ± 1,25 KHN dan 72,71 ± 1,88. Kesimpulan: Disimpulkan bahwa semakin bertambah durasi penyinaran lightcure yang disinari, semakin bertambah nilai kekerasan permukaan dan depth of cure resin komposit Tetric® N-Ceram bulk-fill.

---

Background : Bulkfill composite resin is the newest resin that can be restored to a depth of 4-5 mm in one step. Polymerization is determined by the irradiation time and the amount of light curing irradiance to obtain optimal microhardness and depth of cure. Objective: The aim of this study was to determine the difference in the value of the microhardness of the composite resin and the depth of cure of the Tetric® N-Ceram bulk- fill composite resin irradiated by lightcure with a duration of 5 seconds, 10 seconds and 15 seconds. Method: Twenty four specimens of Tetric® N-Ceram bulk-fill Composite Resin were used in this study. All materials were prepared into disk-shaped specimens of 6 mm in diameter and 4 mm in thickness. A piece of mylar strip was placed on the top of the specimens just before the polymerization.. Polymerization was carried out using a Light Curing Unit (LED DBA iLed) for 5 seconds, 10 seconds and 15 seconds with an irradiance of 1100 mW/cm2. After polymerization, specimens were immersed in 37 aquadest solution for 24 hours. Specimens were divided into three groups (n=8) that is; composite resin group with 5 seconds of irradiation, 10 seconds of irradiation and 15 seconds of irradiation. Specimens were tested with HMV-G Series Micro Vickers Hardness Tester (Shimadzu, Jepang) with 100 gram indentation in 10 seconds. Data were analyzed using Kruskall Wallis and Post-Hoc Mann Whitney to assess the significant differences among groups Result: The results of statistical tests showed a significant increase in the value of microharhardness and depth of cure on Tetric® N-Ceram bulk- fill composite resin. The highest microhardness and depth of cure values were seen in the Tetric® N-Ceram bulk-fill composite resin in the 15 second irradiation group, namely 41.61 ± 1.25 KHN and 72.71 ± 1.88. Conclusion: It was concluded that the longer the duration of irradiation of the irradiated lightcure, the higher the microhardness value and depth of cure of the Tetric® N-Ceram bulk-fill composite resin."

"Tujuan penelitian ini adalah untuk mengetahui pengaruh jarak sumber sinar Light Emitting Diode (LED) terhadap kekuatan tarik diametral resin komposit bulk-fill. Resin komposit bulk-fill Tetric® N-Ceram Bulk-Fill, shade IVA (setara dengan warna VITA A2-A3) dibuat menjadi 30 spesimen berbentuk silinder dengan ukuran tebal 3 mm dan diameter 6 mm. Spesimen dibagi menjadi 3 kelompok variasi jarak penyinaran, yaitu 0 mm, 3 mm dan 5 mm. Penyinaran menggunakan LED Light Curing Unit Bluephase® Style (Ivoclar-Vivadent, Liechtenstein) dengan durasi penyinaran selama 10 detik sesuai instruksi pabrik. Data dianalisis secara statistik menggunakan metode ANOVA satu arah. Hasil analisis tidak menunjukkan perbedaan bermakna (p>0,05) pada semua kelompok. Jarak sumber sinar LED ≤ 5 mm tidak memberikan pengaruh yang signifikan terhadap kekuatan tarik diametral resin komposit bulk-fill.

---

This study aimed to evaluate the effect of LED light source distance on diametral tensile strength of bulk-fill composite restorative material. Bulk-fill composite Tetric® N-Ceram Bulk-Fill, shade IVA (equal to VITA shade A2-A3) was formed into 30 cylindrical specimens with 3 mm in thickness and 6 mm in diameter. Specimens were divided into 3 groups with various curing distance: 0 mm, 3 mm and 5 mm. All groups were polymerized by LED Light Curing Unit Bluephase® Style (Ivoclar-Vivadent, Liechtenstein) for 10 seconds based on manufacturer’s instruction. Data were statistically analyzed by one-way ANOVA The result showed insignificant differences in all groups (p>0,05). LED light source distance ≤ 5 mm was not significantly affected the diametral tensile strength of bulk-fill composite."

"Tujuan penelitian ini untuk mengetahui pengaruh penggunaan sumber sinar berbeda terhadap kekuatan tarik diametral resin komposit bulk-fill. Resin komposit bulk-fill Tetric N-Ceram Bulk Fill dibuat sebanyak 20 spesimen berbentuk lempeng dengan diameter 6 mm dan tebal 3 mm. Spesimen dibagi menjadi dua kelompok yaitu kelompok yang disinari dengan sumber sinar QTH dan sumber sinar LED. Uji kekuatan tarik diametral dilakukan dengan menggunakan Universal Testing Machine. Hasil penelitian menunjukkan nilai rerata kekuatan tarik diametral resin komposit bulk-fill yang disinari sumber sinar QTH dan LED sebesar 38.62 2.34 dan 42.02 3.21. Hasil uji independent sample T menunjukkan nilai rerata pada kedua kelompok berbeda bermakna.

---

This study aimed to evaluate the effect of using different light sources on the diametral tensile strength of bulk fill resin composite. Bulk fill resin composite Tetric N Ceram Bulk Fill was used to make of 20 disc shape specimens with 6 mm in diameter and 3 mm in thickness. Specimens were divided into two groups, the two groups were polymerized with using QTH and LED light source curing unit. Diametral tensile strength test was conducted by using a Universal Testing Machine Shimadzu, Japan. The results showed that diametral tensile strength mean value of bulk fill resin composite that were cured with QTH and LED light source were 38.62 2.34 and 42.02 3.21 MPa respectively. Independent sample t test results showed that the mean value of the two groups was significantly different."

"OLED merupakan sebuah divais dioda pemancar cahaya yang menggunakan lapisan emisif berupa material organik. Laboratorium Nano Device Departemen Teknik Elektro Universitas Indonesia telah berhasil membuat divais OLED menggunakan bahan organik poly(9,9-dioctylfluorenyl) (PFO) dengan metode laminasi pada kondisi ruangan non-vakum. Pada teknik laminasi, divais yang sudah disusun dilaminasi menggunakan mesin laminator untuk selanjutnya dipanaskan dan diberi tekanan menggunakan pemanas listrik. Untuk meningkatkan performa dari divais yang difabrikasi, telah dilakukan penelitian terhadap material anoda, material katoda, material dielektrik, material substrat, kecepatan spincoating, suhu laminasi, waktu ultrasonic cleaning, dan tekanan laminasi. Durasi laminasi diprediksi memiliki pengaruh terhadap karakteristik OLED yang difabrikasi, namun belum dilakukan pengujian sebelumnya. Oleh sebab itu, pada skripsi kali ini akan dilakukan pengujian mengenai pengaruh durasi laminasi terhadap karakteristik OLED yang difabrikasi. Variasi durasi dari laminasi dengan pemanas listrik dilakukan untuk mengetahui pengaruh durasi laminasi terhadap karakteristik I-V dari OLED yang difabrikasi dan mencari durasi optimal. Selain itu, pada skripsi ini juga diujikan penggunaan lapisan emisif Alq₃ pertama kali dengan fabrikasi teknik laminasi. Pengujian fabrikasi dilakukan dengan kecepatan spincoating lapisan emisif yang berbeda untuk mengetahui pengaruh kecepatan spincoating terhadap karakteristik OLED yang dihasilkan dan mencari kecepatan spincoating yang lebih baik. Hasil pengujian terhadap divais yang difabrikasi dengan lapisan emisif PFO menunjukkan bahwa durasi laminasi mempengaruhi besar arus yang dihasilkan oleh divais. Durasi laminasi 30 detik pada sampel dengan lapisan emisif PFO menghasilkan nilai rata-rata arus paling tinggi sebesar 26.1 µA jika dibandingkan dengan durasi laminasi 60 detik dan 90 detik. Hasil pengujian sampel dengan lapisan emisif Alq₃ menunjukkan divais OLED menghasilkan rata-rata arus paling tinggi sebesar 3.4 µA jika difabrikasi dengan kecepatan spincoating lapisan emisif 1300 rpm.

---

OLED is a light-emitting diode with organic material as its emissive layer. Nano Device Laboratory of Electrical Engineering Department of Universitas Indonesia is successful in developing a method to fabricate OLED using organic material poly(9,9-dioctylfluorenyl) (PFO) using lamination technique in a non-vacuum room condition. In the lamination technique, device is laminated with a laminator before going through further pressing and heating process with an electric heater. To enhance the performance of the fabricated device, Nano Device Laboratory has scientifically reviewed several fabrication parameters such as the material of anode, cathode, dielectric, substrate, spincoating rate, lamination temperature, duration of ultrasonic cleaning, and lamination pressure. The duration of the lamination process is predicted to have an effect on the characteristic of the fabricated OLED device but the fact is yet to be examined further. Hence, this thesis will conduct an examination on the effect of the duration of lamination to the characteristic of the fabricated OLED device. Variation to the duration of the lamination process with a heater is given to the fabrication process of PFO OLED to analyze the effect of the duration to the resulted I-V characteristic of the fabricated OLED and find the optimum duration. Furthermore, we also tried out the fabrication of OLED with Alq₃ as the emissive layer with different spincoating rotation rate to analyze the effect of spincoating rate to the resulted I-V characteristic of the fabricated OLED and find the better rotation rate. Devices with PFO as emissive layer fabricated with 30 seconds of lamination generated the highest average current of 26.1 µA compared to devices fabricated with 60 seconds and 90 seconds of lamination. Devices with Alq₃ as emissive layer fabricated with spincoating rotation rate of 1300 rpm generated a higher average current of 3.4 µA compared to devices fabricated with spincoating rotation rate of 2000 rpm."

"Penelitian ini bertujuan untuk mengevaluasi pengaruh durasi penyinaran terhadap kekuatan tarik diametral resin komposit bulk-fill. Enam puluh spesimen Tetric N-Ceram Bulk-Fill ketebalan 3 mm dan diameter 6 mm; warna IVA dan IVW dibagi ke dalam 3 kelompok berdasarkan durasi penyinaran 10 detik, 15 detik, dan 20 detik untuk setiap warna. Spesimen dipolimerisasi dengan LED curing unit Bluephase Style, 1.280 mW/cm2 dan diuji kekuatan tarik diametralnya menggunakan uji statistik Universal Testing Machine. Data yang diperoleh dianalisis menggunakan One-Way ANOVA dan Post-Hoc Tukey HSD. Hasil menunjukkan adanya perbedaan bermakna.

---

This study was conducted to evaluate the influence of different exposure time and bulk fill composite shade on its diametral tensile strength. Sixty disc shaped specimens of Tetric N Ceram Bulk Fill 3 mm of thickness x 6 mm of diameter shade IVA and IVW were divided into 3 subgroups for each shade according to exposure times 10 s, 15 s, and 20 s . All specimens were polymerized using LED curing unit Bluephase Style, 1.280 mW cm2 and tested using Universal Testing Machine to determine its diametral tensile strength. Data were statistically analyzed using One Way ANOVA dan Post Hoc Tukey test. The result showed a significant differences in all groups."

"Resin komposit Bulk-Fill merupakan material yang dapat merestorasi kavitas dengan kedalaman 4-5 mm dalam satu kali penyinaran. Polimerisasi resin komposit dipengaruhi oleh durasi penyinaran dan metode penyinaran Light Curing Unit. Polimerisasi adekuat diperlukan untuk mendapatkan kekerasan permukaan dan Depth of Cure yang optimal. Penelitian ini dilakukan untuk mengetahui kekerasan permukaan dan Depth of Cure resin komposit Bulk-Fill yang disinar menggunakan Light Curing Unit penyinaran pulsa selama 5, 10, dan 20 detik. Spesimen berjumlah 30 buah dibagi berdasarkan kelompok perlakuan yaitu kelompok durasi penyinaran (5, 10, dan 20 detik) dan penyinaran (pulsa dan kontinu). Spesimen berdiameter 6 mm dan tebal 4 mm diuji menggunakan Knoop Microhardness Tester dengan beban indentasi 50 g selama 10 detik pada 5 titik berbeda. Hasil penelitian menunjukkan peningkatan kekerasan permukaan yang disinar dengan Light Curing Unit penyinaran pulsa dan kontinu seiring pemanjangan durasi penyinaran. Terdapat perbedaan bermakna (p<0,05) pada kekerasan permukaan di kelompok durasi penyinaran. Pada nilai depth of cure dengan kedua Light Curing Unit tidak terdapat perbedaan bermakna (p>0,05). Sehingga disimpulkan, penyinaran pulsa Light Curing Unit selama 5, 10, dan 20 detik pada resin komposit Bulk-Fill mengalami peningkatan kekerasan permukaan yang signifikan dan penggunaan dua metode penyinaran sama baik pada nilai depth of cure.

---

Bulk-Fill composite resin have been introduced with the purpose of time savings. It can be placed in a 4-5 mm thickness bulks to be photo-cured in one step. Polymerization of composite resins affected by the irradiation time and mode. Adequate polymerization is needed to obtain optimal surface hardness and Depth of Cure. This study aimed to evaluate the influence of different exposure time with pulse-lighting mode on Bulk-Fill composite resin surface microhardness and Depth of Cure. Thirty specimens divided into 3 groups of exposure time (5, 10, and 20 sec) and 2 groups of irradiation mode (pulse and continuous), 6 mm in diameter and 4 mm in thick were prepared. Each specimen was measured using Knoop Microhardness Tester at each surface. The result showed that irradiation of Bulk-Fill composite resin with pulse-lighting mode curing unit for 5, 10, and 20 seconds experienced a significant increase in surface hardness. The depth of cure values shows no significant difference among different irradiation mode. It was concluded that that Bulk-Fill composite resin irradiated at longer exposure time exhibited significantly higher surface microhardness than those irradiated at shorter time. Meanwhile, there was no significant difference between two different irradiation mode for depth of cure."

"Penelitian ini bertujuan untuk menganalisis pengaruh ketebalan komposit resin serat pendek KRSP dan waktu penyinaran terhadap kekerasan dan depth of cure DoC. Dua puluh empat spesimen KRSP EverX PosteriorTM berbentuk silinder berdiameter 6 mm, dibagi menjadi dua kelompok ketebalan: 4 dan 5 mm n=12. Setiap kelompok ketebalan disinar dengan jarak 2 mm, iradiansi 800 mW/cm2 selama 25 dan 30 detik n=6. Nilai kekerasan diukur dengan uji Vickers dan DoC didapatkan dengan menghitung rasio kekerasan permukaan atas dan bawah KRSP. Data dianalisis menggunakan uji One-way ANOVA. Disimpulkan ketebalan dan waktu penyinaran mempengaruhi kekerasan dan DoC KRSP sebagai substruktur.

---

This study aims to analyze the effect of short fibre reinforced resin composite SFRC thickness and curing time on the hardness and depth of cure DoC. Twenty four specimens of SFRC EverX PosteriorTM were made and formed into cylindrical shapes with 6 mm in diameter, divided into two different thickness groups 4 and 5 mm n 12. Each thickness group were cured with 2 mm light curing distance, irradiance 800 mW cm2 for 25 and 30 seconds n 6. The hardness was measured by Vickers test and depth of cure was obtained by calculating the hardness ratio of the bottom to the top surface. Data were analyzed statistically by One Way ANOVA tests. It was concluded that thickness and curing time has significant effect on the hardness and DoC of SFRC as substructure. "

"Latar Belakang: Resin komposit bulk-fill dapat merestorasi kavitas dengan kedalaman 4-5 mm dalam sekali penyinaran sehingga dapat mempersingkat prosedur restorasi, Polimerisasi resin komposit dapat dipengaruhi oleh suhu, termasuk suhu penyimpanan dan preheating resin komposit. Polimerisasi yang adekuat diperlukan untuk mendapatkan kekerasan permukaan yang optimal. Tujuan: Mengetahui pengaruh suhu penyimpanan dan preheating terhadap kekerasan permukaan resin komposit bulk-fill. Metode: Tiga puluh spesimen Tetric® N-Ceram Bulk-Fill shade IVA (diameter 6 mm dan tebal 3 mm) dibuat dari 3 kelompok perlakuan yaitu resin komposit yang disimpan pada suhu ruangan 23±1°C selama 24 jam (kontrol), lemari pendingin 4±1°C selama 24 jam, dan preheating 39°C selama 10 menit. Spesimen dipolimerisasi menggunakan light curing unit LED berintensitas 1100 mW/cm2 selama 10 detik dan disimpan di inkubator pada suhu 37°C selama 24 jam. Uji kekerasan menggunakan Knoop Microhardness Tester. Analisis data dengan uji statistik One-Way ANOVA dan Post Hoc Bonferroni. Hasil: Kekerasan permukaan antara kelompok perlakuan suhu penyimpanan dan preheating menunjukkan terdapat perbedaan bermakna secara statistik (p<0,05). Kesimpulan: Kekerasan permukaan resin komposit bulk-fill pada suhu penyimpanan di lemari pendingin 4±1˚C lebih rendah dibandingkan di ruangan 23±1˚C, sedangkan kekerasan permukaan resin komposit bulk-fill dengan suhu preheating 39˚C lebih tinggi dibandingkan penyimpanan di ruangan 23±1˚C.

---

Background: Bulk-fill composite resin could be used in 4-5 mm thickness for each photo-polymerization so that it can shorten the restoration procedure time. Polymerization of composite resin can be affected by temperature, including composite resin’s storage temperature and preheating. Adequate polymerization needed to achieve optimal surface hardness or composite resin. Objective: To evaluate the influence of storage temperature and preheating on surface hardness of Bulk-fill Composite Resin. Methods: Thirty specimens of Tetric® N-Ceram Bulk-Fill shade IVA (6 mm of diameter and 3 mm of thickness) were made from 3 groups according to storage temperature and preheating of the composite: (1) room temperature 23±1°C for 24 hours (control), (2) refrigerator temperature 4±1°C for 24 hours, and (3) preheating 39°C for 10 minutes. Each specimen was polymerized using LED Curing Unit for 10 minutes with 1100 mW/cm2 intensity, then immersed in 5 ml of aquadest and kept in 37°C incubator for 24 hours. urface hardness was measured using Knoop Microhardness Tester at the top surfaces. Data were statistically analyzed using One-Way ANOVA and Post Hoc Bonferroni test. Result: There was a statistically significant difference (p0,05) of surface hardness value between all test groups. Conclusion: Surface hardness of bulk-fill composite resin at refrigerator temperature 4±1˚C are lower than room temperature 23±1˚C, while surface hardness of bulk-fill composite resin with preheating 39°C are higher than room temperature 23±1˚C."

"Penelitian ini bertujuan untuk mengetahui pengaruh perendaman minuman isotonik terhadap kekerasan permukaan resin komposit bulk-fill. Enam puluh spesimen Tetric N-Ceram Bulk-Fill berdiameter 6 mm dan tinggi 3 mm dibagi menjadi 2 kelompok perendaman yaitu dengan akuades (kontrol) dan minuman isotonik. Setiap kelompok direndam dengan lama perendaman 1 hari, 3 hari dan 7 hari. Kekerasan permukaan diuji menggunakan HMV-G Series Micro Vickers Hardness Tester.Hasil menunjukan terdapat perbedaan bermakna (p<0,05) antara perendaman akuades dan minuman isotonik uji Independent T-Test. Hasil menunjukkan bahwa terdapat perbedaan bermakna (p<0,05) antara semua kelompok perendaman minuman isotonik dengan lama perendaman 1 hari, 3 hari dan 7 hari dengan uji statistik One-Way Anova dan PostHoc Tukey HSD. Dapat disimpulkan bahwa minuman isotonik mempengaruhi kekerasan permukaan resin komposit bulk-fill.

---

This study aims to determine the influence of isotonic drink immersion on surface hardness of bulk-fill composite. Sixty specimens of Tetric N-Ceram Bulk-Fill, 6 mm in diameter and 3 mm height were divided into two groups of storage media; deionized water (control) and isotonic drink. Each group was for 1 day, 3 days and 7 days. The surface hardness is measured using a HMV-G Series Micro Vickers Hardness Tester.

The results showed that there were significant differences (p <0.05) between immersion of control and isotonic drink with Independet T-Test. The results showed that there were significant differences (p <0.05) between all isotonic drink immersion groups with immersion duration of 1 day, 3 days and 7 days with One-Way Anova Test and Post Hoc Tukey HSD. It can be concluded that isotonic drinks affect the surface hardness of bulk-fill composite."