0.05; therefore there is no significant difference in compressive test results between nanohybrid bulk fill (20"), conventional nanohybrid (30”), and nanohybrid conventional (40"). The mean compressive strength of the nanohybrid bulk fill sample group (20") was 391.7 ± 126.3 N; conventional nanohybrid (30") 353.3 ± 83.0 N; conventional nanohybrid (40") 342,5 ± 123,9 N. The conclusion of this research is there are no significant effects on the irradiation times on compressive strength of composites. Increasing the irradiation time does not result in increased of mechanical strength." /> 0.05; therefore there is no significant difference in compressive test results between nanohybrid bulk fill (20"), conventional nanohybrid (30”), and nanohybrid conventional (40"). The mean compressive strength of the nanohybrid bulk fill sample group (20") was 391.7 ± 126.3 N; conventional nanohybrid (30") 353.3 ± 83.0 N; conventional nanohybrid (40") 342,5 ± 123,9 N. The conclusion of this research is there are no significant effects on the irradiation times on compressive strength of composites. Increasing the irradiation time does not result in increased of mechanical strength." /> 0.05; therefore there is no significant difference in compressive test results between nanohybrid bulk fill (20"), conventional nanohybrid (30”), and nanohybrid conventional (40"). The mean compressive strength of the nanohybrid bulk fill sample group (20") was 391.7 ± 126.3 N; conventional nanohybrid (30") 353.3 ± 83.0 N; conventional nanohybrid (40") 342,5 ± 123,9 N. The conclusion of this research is there are no significant effects on the irradiation times on compressive strength of composites. Increasing the irradiation time does not result in increased of mechanical strength." /> 0.05; therefore there is no significant difference in compressive test results between nanohybrid bulk fill (20"), conventional nanohybrid (30”), and nanohybrid conventional (40"). The mean compressive strength of the nanohybrid bulk fill sample group (20") was 391.7 ± 126.3 N; conventional nanohybrid (30") 353.3 ± 83.0 N; conventional nanohybrid (40") 342,5 ± 123,9 N. The conclusion of this research is there are no significant effects on the irradiation times on compressive strength of composites. Increasing the irradiation time does not result in increased of mechanical strength." />

DETAIL KOLEKSI

Pengaruh lama penyinaran terhadap kekuatan tekan resin komposit


Oleh : Joshua Darma

Info Katalog

Nomor Panggil : 617.634 2 JOS p

Penerbit : FKG - Usakti

Kota Terbit : Jakarta

Tahun Terbit : 2018

Pembimbing 1 : Wiena Widyastuti

Subyek : Composite resins;Dentistry

Kata Kunci : nanohybrid composite, irradiation time, compressive strength

Status Posting : Published

Status : Lengkap


File Repositori
No. Nama File Hal. Link
1. 2018_TA_KG_040001400093_Halaman-judul.pdf 24
2. 2018_TA_KG_040001400093_Lembar-pengesahan.pdf
3. 2018_TA_KG_040001400093_Bab-1-Pendahuluan.pdf 12
4. 2018_TA_KG_040001400093_Bab-2-Tinjauan-pustaka.pdf
5. 2018_TA_KG_040001400093_Bab-3-Kerangka-teori,-konsep,-dan-hipotesis.pdf
6. 2018_TA_KG_040001400093_Bab-4-Metode-penelitian.pdf
7. 2018_TA_KG_040001400093_Bab-5-Hasil-penelitian.pdf
8. 2018_TA_KG_040001400093_Bab-6-Pembahasan.pdf
9. 2018_TA_KG_040001400093_Bab-7-Kesimpulan-dan-saran.pdf 2
10. 2018_TA_KG_040001400093_Daftar-pustaka.pdf 8
11. 2018_TA_KG_040001400093_Lampiran.pdf 2

K Komposit nanohybrid memiliki komposisi filler ukuran microfilled (60nm- 1.4pm) yang ditambalikan untuk memperkuat sifat mekanis. Pengaruh lama waktu penyinaran pada reaksi polimerisasi menentukan kekuatan restorasi saat menerima tekanan. Penelitian ini merupakan penelitian eksperimental laboratoris komparatif. Penelitian ini bertujuan mengetahui pengaruh lama waktu penyinaran terhadap kekuatan tekan komposit yang meneliti perbandingan kekuatan tekan 3 kelompok sampel komposit nanohybrid dengan lama waktu penyinaran 20”, 30”, dan 40”. Spesimen setiap kelompok sampel beijumlah 3 sehingga totalnya sebanyak 9 spesimen. Uji tekan dilakukan dengan Universal Testing Machine SHIMADZU. Hasil uji anova satu arah menunjukkan nilai Sig.(p) 0.794 yang berarti nilai p>0,05 sehingga tidak ada perbedaan yang bermakna pada hasil uji tekan antara kelompok nanohybrid bulk fill (20”), nanohybrid konvensional (30”), dan nanohybrid konvensional (40”). Nilai kekuatan tekan rata-rata kelompok sampel nanohybrid bulk fill (20”) adalah 391,7+126,3 N; nanohybrid konvensional (30”) 353,3+83,0 N; nanohybrid konvensional (40”) 342,5±123,9 N. Kesimpulan hasil penelitian ini adalah tidak terdapat pengaruh yang bennakna pada lama waktu penyinaran terhadap kekuatan tekan komposit. Peningkatan lama waktu penyinaran tidak menghasilkan perubahan yang meningkatkan kekuatan mekanis.

N Nanohybrid composite has an additional of microfilled size filler composition (60nm- 1.4pm) to strengthen the mechanical properties. The effect of irradiation time on the polymerization reaction determines the strength of the restoration when receiving pressure. This research is a comparative laboratory experimental research. The objective of this research is to know the effect of irradiation times on the compressive strength of composites, which examines the compressive strength ratio of 3 nanohybrid composite group of samples with the irradiation times 20", 30", and 40". Specimens of each group of samples amounted to 3 to a total of 9 specimens. The compressive test is done with SH1MADZU Universal Testing Machine. The result of one way anova test shows the value of Sig (p) 0,794, which means p> 0.05; therefore there is no significant difference in compressive test results between nanohybrid bulk fill (20"), conventional nanohybrid (30”), and nanohybrid conventional (40"). The mean compressive strength of the nanohybrid bulk fill sample group (20") was 391.7 ± 126.3 N; conventional nanohybrid (30") 353.3 ± 83.0 N; conventional nanohybrid (40") 342,5 ± 123,9 N. The conclusion of this research is there are no significant effects on the irradiation times on compressive strength of composites. Increasing the irradiation time does not result in increased of mechanical strength.

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