scholarly journals Comparison of Microleakage and Compressive Strength of Different Base Materials

2021 ◽  
Vol 48 (2) ◽  
pp. 168-175
Author(s):  
Eunyeong Jang ◽  
Jaesik Lee ◽  
Soonhyeun Nam ◽  
Taeyub Kwon ◽  
Hyunjung Kim
Keyword(s):  
Methylene Blue ◽  
Compressive Strength ◽  
Composite Resin ◽  
Testing Machine ◽  
Base Material ◽  
Methylene Blue Solution ◽  
Universal Testing Machine ◽  
Base Materials ◽  
Universal Testing ◽  
Blue Solution

This study compared the microleakages and compressive strengths of various base materials.<br/>To evaluate microleakages, 50 extracted permanent premolars were prepared. The teeth divided into 5 groups of 10 each according to the base materials. Cavities with a 5.0 mm width, 3.0 mm length, and 3.0 mm depth were formed on the buccal surfaces of the teeth. After filling the cavities with different base materials, a composite resin was used for final restoration. Each specimen was immersed in 2% methylene blue solution and then observed under a stereoscopic microscope (× 30). To evaluate the compressive strength, 5 cylindrical specimens were prepared for each base material. A universal testing machine was used to measure the compressive strength.<br/>The microleakage was highest in the Riva light cure<sup>TM</sup> group and lowest in the Biodentine<sup>TM</sup> and Well-Root<sup>TM</sup> PT groups. For the compressive strengths, in all groups, acceptable strength values for base materials were found. The highest compressive strength was observed in the Fuji II LC<sup>TM</sup> group and the lowest strength in the Well-Root<sup>TM</sup> PT group.

scholarly journals Pengaruh penambahan aluminium oksida terhadap kekuatan tarik dan tekan basis gigi tiruan resin akrilik polimerisasi panasThe effect of addition of aluminium oxide on the tensile and compressive strength of a heat-polymerised acrylic resin denture base

2018 ◽  
Vol 30 (3) ◽  
pp. 189
Author(s):  
Actara Rahmadita ◽  
Dwi Tjahyaning Putranti
Keyword(s):  
Tensile Strength ◽  
Compressive Strength ◽  
Testing Machine ◽  
Base Material ◽  
Aluminium Oxide ◽  
Acrylic Resin ◽  
Strength Test ◽  
Denture Base ◽  
Universal Testing Machine ◽  
Universal Testing

Pendahuluan: Resin akrilik polimerisasi panas (RAPP) merupakan bahan basis gigi tiruan yang paling banyak digunakan, namun memiliki sifat kekuatan tarik dan tekan yang rendah, sehingga diperlukan modifikasi dengan penambahan bahan penguat pada RAPP berupa aluminium oksida (Al2O3) atau alumina. Tujuan penelitian untuk menganalisi pengaruh penambahan aluminium oksida pada bahan basis gigi tiruan RAPP terhadap kekuatan tarik dan tekan. Metode: Jenis penelitian eksperimental laboratoris. Sebanyak 25 sampel berbentuk flat dumbbell shaped berukuran 60x12x3,9 (mm) untuk uji kekuatan tarik dan 25 sampel  berbentuk balok dengan ukuran 10x10x4 (mm) untuk uji kekuatan tekan. Pencampuran bubuk resin-aluminium oksida konsentasi 0,5%, 1,5%, 2,5% dan 3,5% dengan cairan resin dilakukan secara manual. Sampel direndam dalam air dan dimasukkan ke dalam inkubator. Uji dilakukan menggunakan universal testing machine dengan beban 1000N dan kecepatan crosshead 1mm/menit. Data dianalisis dengan uji ANOVA satu arah dan uji LSD. Hasil: Nilai kekuatan tarik kelompok kontrol dan keempat kelompok perlakuan penambahan aluminium oksida 0,5%, 1,5%, 2,5 %, 3,5% berturut turut adalah 50,867 MPa, 47,895 MPa, 45,107 MPa, 42,476 MPa, dan 39,753 MPa; sedangkan nilai kekuatan tekan kelompok kontrol dan keempat kelompok perlakuan penambahan aluminium oksida 0,5%, 1,5%, 2,5%, 3,5% berturut turut adalah 88,267 MPa, 106,085 MPa, 122,283 MPa, 135,367 MPa, dan 156,571 MPa. Penambahan bubuk aluminium oksida pada RAPP dapat menurunkan kekuatan tarik dan meningkatkan kekuatan tekan secara signifikan (p=0,0001 (p<0,05)), seiring dengan meningkatnya jumlah konsentrasi aluminium oksida yang ditambahkan. Simpulan: Penambahan aluminium oksida pada bahan basis gigi tiruan resin akrilik polimerisasi panas berpengaruh terhadap kekuatan tarik dan tekan.Kata kunci: Resin akrilik polimerisasi panas, aluminium oksida, kekuatan tarik, kekuatan tekan. ABSTRACT            Introduction: Heat-polymerised acrylic resin (HPAR) is the most widely used denture base material but has a low tensile and compressive strength thus modification is needed by adding reinforcement in the form of aluminium oxide (Al2O3) or alumina. The research objective was to analyse the effect of adding aluminium oxide on the tensile and compressive strength of HPAR denture base material. Methods: An experimental laboratory research was conducted towards the total of 25 samples in the form of flat dumbbell shape sized 60 x 12 x 3.9 mm for the tensile strength test, and 25 samples in the form of blocks with the size of 10 x 10 x 4 mm for the compressive strength test. The mixture of powdered aluminium oxide resin with the concentrations of 0.5%, 1.5%, 2.5%, and 3.5% with a liquid resin was carried out manually. The sample was then immersed in the water and put in an incubator. The test was performed using a universal testing machine with 1000 N loads and 1 mm/minute crosshead speed. Data obtained were analysed using the one-way ANOVA and LSD test. Result: The tensile strength values of the control group and all four treatment groups added with 0.5%, 1.5%, 2.5%, and 3.5% aluminum oxide were 50.867 MPa, 47.895 MPa, 45.107 MPa, 42.4476 MPa and 39.753 MPa respectively, while the compressive strength values were 88.267 MPa, 106.085, 122.283 MPa, 135.367 MPa, and 156.571 MPa consecutively. Addition of aluminium oxide powder to the HPAR can significantly reduce the tensile and compressive strength (p = 0.0001 (p < 0.05)) along with increasing concentration. Conclusion: Addition of aluminium oxide towards the HPAR denture base affected its tensile and compressive strength.Keywords: Heat-polymerised acrylic resin, aluminium oxide, tensile strength, compressive strength.

scholarly journals Comparison of Microhardness and Compressive Strength of Alkasite and Conventional Restorative Materials

2020 ◽  
Vol 47 (3) ◽  
pp. 320-326
Author(s):  
Kunho Lee ◽  
Jongsoo Kim ◽  
Jisun Shin ◽  
Miran Han
Keyword(s):  
Compressive Strength ◽  
Vickers Microhardness ◽  
Composite Resin ◽  
Testing Machine ◽  
Glass Ionomer Cement ◽  
Glass Ionomer ◽  
Microhardness Test ◽  
Universal Testing ◽  
Restorative Materials ◽  
Ionomer Cement

The aim of this study was to compare compressive strength and microhardness of recently introduced alkasite restorative materials with glass ionomer cement and flowable composite resin.For each material, 20 samples were prepared respectively for compressive strength and Vickers microhardness test. The compressive strength was measured with universal testing machine at crosshead speed of 1 mm/min. And microhardness was measured using Vickers Micro hardness testing machine under 500 g load and 10 seconds dwelling time at 1 hour, 1 day, 7 days, 14 days, 21 days and 35 days.The compressive strength was highest in composite resin, followed by alkasite, and glass ionomer cement. In microhardness test, composite resin, which had no change throughout experimental periods, showed highest microhardness in 1 hour, 1 day, and 7 days measurement. The glass ionomer cement showed increase in microhardness for 7 days and no difference was found with composite resin after 14 days measurement. For alkasite, maximum microhardness was measured on 14 days, but showed gradual decrease.

Compressive Strength of Dental E-Glass Microfiber-Reinforced Composite Resin in Mouthwash Immersion

2020 ◽  
Vol 840 ◽  
pp. 300-304
Author(s):  
Siti Sunarintyas ◽  
Rifqi Fahmi Affandi ◽  
Widjijono Widjijono
Keyword(s):  
Compressive Strength ◽  
Composite Resin ◽  
Testing Machine ◽  
Filling Material ◽  
Dental Filling ◽  
Reinforced Composite ◽  
Universal Testing ◽  
Oral Environment ◽  
Materials Used ◽  
Made In

Fiber-reinforced composite resin (FRC) is gaining popularity as dental filling material. In the oral cavity, it will contact with the oral environment including oral cleansing agents. This research was aimed to determine the effect of mouthwash on the compressive strength of FRC. The materials used were E-glass FRC (EverX Posterior, GC Corp, Japan), alcohol mouthwash (Original Listerine, Johnson&Johnson, Indonesia), alcohol-free mouthwash (Listerine Cool Mint Zero, Johnson&Johnson, Indonesia). Forty-five FRCs were made in cylindrical shapes. Specimens were divided into 2 groups of mouthwash immersion: alcohol and alcohol-free mouthwash. The groups were sub-grouped by 0, 6, 12, and 24 h immersion. Samples were recorded for compressive strength by Universal Testing Machine. The data were analyzed by ANOVA. The result of compressive strength values (MPa) were (alcohol mouthwash): 293.59±30.54 (0 h), 284.43±46.91 (6 h), 268.71±44.66 (12 h), 252.19±31.49 (24 h); (alcohol-free mouthwash): 294.12±28.17 (0 h), 287.30±35.56 (6 h), 273.32±41.94 (12 h), 260.82±40.67 (24 h). Statistical analysis revealed there was no significant influence of mouthwash type (alcohol or alcohol-free mouthwash), immersion duration (0, 6, 12, 24 h), and combination of mouthwash type and immersion duration (p>0.05) to the compressive strength of FRCs. The conclusions were the mouthwash types, immersion duration, and combination of mouthwash type and immersion duration did not influence the compressive strength of E-glass FRC

scholarly journals THE EFFECT OF VOLUME VARIATION OF SILVER NANOPARTICLE SOLUTION TOWARDS THE POROSITY AND COMPRESSIVE STRENGTH OF MORTAR

2016 ◽  
Vol 5 (2) ◽  
pp. 140
Author(s):  
W.S.B. Dwandaru ◽  
H.S.A Tina ◽  
A. Andreyani
Keyword(s):  
Compressive Strength ◽  
Silver Nanoparticle ◽  
Building Materials ◽  
Testing Machine ◽  
X Ray Diffraction ◽  
X Ray ◽  
Universal Testing Machine ◽  
Volume Variation ◽  
Universal Testing ◽  
The World

As the world is growing rapidly, people need better building materials such as mortar. The aim of this research is to determine the effect of adding silver nanoparticle solution towards the porosity and compressive strength of mortar. This research was started by making silver nanoparticle solution from nitrate silver (AgNO3). The solution is then characterized using Uv-Vis spectrophotometer. 5 mM silver nanoparticle is added in the process of mortar production with volume variation of the silver nanoparticle solution. The porosity, compressive strength, and the content of mortar were determined by digital scale, universal testing machine, and X-ray diffraction, respectively. For silver nanoparticle solution volumes of (in mL) 0, 5, 10, 15, 20, and 25 the porosity obtained are (in %) 20.38, 19.48, 19.42, 18.9, 17.8, and 17.5, respectively. The best increase in compressive strength is obtained for (in MPa) 29,068, 29,308, and 31,385, with nanoparticle solution volumes of (in mL) 5, 10, and 15 Keywords: mortar, silver nanoparticle, compressive strength

scholarly journals Pengaruh bahan desensitasi pasca bleaching ekstrakoronal terhadap kekuatan geser pelekatan restorasi resin komposit

2017 ◽  
Vol 2 (1) ◽  
pp. 35
Author(s):  
Ema Mulyawati
Keyword(s):  
Bond Strength ◽  
Shear Bond Strength ◽  
Composite Resin ◽  
Artificial Saliva ◽  
Testing Machine ◽  
Group Iii ◽  
Universal Testing Machine ◽  
Universal Testing ◽  
Group I ◽  
Significant Difference

The Effect of desensitizing agent in post-extracoronal bleaching on shear bond strength of composite resin. The dentinal hypersensitivity is a common condition among patients after extracoronal bleaching treatment that usually needs the application of desensitizing agent. The purpose of this study was to evaluate the composite resin restoration shear bond strength with and without desensitizing application after extracoronal bleaching using 40% of H2O2. Twenty one extracted permanent human incisor teeth were randomly divided into 3 groups of 7 each. Group I was with the application of 40% H2O2 without any desensitizing agent. Group II was with the application of 40% of H2O2 with desensitizing agent and group III served as the control. The teeth were immersed in artificial saliva and stored in 37 °C incubator for 7 days. The teeth were restored using composite resin. After restoring the shear bond strength of composite resin was tested using a universal testing machine. Result and conclusion. there is no significant difference between bleaching group with and without desensitizing agent. The application of desensitizing agent after extracoronal bleaching did not impact the composite resin shear bond strength.ABSTRAKDentin hipersensitif merupakan kondisi yang biasa dialami pasien setelah perawatan bleaching ekstrakoronal yang biasanya memerlukan aplikasi bahan desensitasi. Penelitian ini bertujuan untuk mengetahui pengaruh bahan desensitasi pasca bleaching ekstrakoronal menggunakan H2O2 40% terhadap kekutan geser pelekatan restorasi resin komposit. Dua puluh satu gigi permanen insisivus yang telah dicabut dibagi dalam tiga kelompok masing-masing 7 gigi. Kelompok I dilakukan bleaching ekstrakoronal dengan H2O2 tanpa bahan desensitasi. Kelompok II dilakukan bleaching setelah itu diaplikasikan bahan desensitasi dan kelompok III sebagai kelompok kontrol. Semua gigi-gigi tersebut di rendam dalam saliva buatan dan dimasukkan inkubator selama 7 hari pada suhu 37 °C. Selanjutnya seluruh gigi dilakukan restorasi resin komposit menggunakan light cure halogen. Setelah itu dilakukan pengujian kekuatan geser pelekatan menggunakan universal testing machine. Data dianalisis menggunakan uji Kruskal - Wallis. Hasil penelitian menunjukkan bahwa tidak ada perbedaan kekuatan geser pelekatan pada semua kelompok perlakuan (p > 0,05). Dari penelitian ini disimpulkan bahwa tidak terdapat pengaruh aplikasi bahan desensitasi pasca bleaching ekstrakoronal terhadap kekuatan geser pelekatan restorasi resin komposit.

scholarly journals Cuspal deflection of directly or indirectly restored teeth

2013 ◽  
Vol 16 (4) ◽  
pp. 34
Author(s):  
Daniel Maranha da Rocha ◽  
João Maurício Ferraz da Silva ◽  
Liliana Gressler May ◽  
Maria Amélia Máximo Araújo ◽  
Rebeca Di Nicoló ◽  
...  
Keyword(s):  
Composite Resin ◽  
Testing Machine ◽  
Glass Ionomer Cement ◽  
Strain Gauges ◽  
Glass Ionomer ◽  
Flowable Composite ◽  
Base Materials ◽  
Universal Testing ◽  
Direct Restoration ◽  
Ionomer Cement

<p><strong>Objective: </strong>The aim of this study was to evaluatethe cuspal deflection of teeth restored directlyand indirectly. <strong>Material and Methods: </strong>Fortysound maxillary premolar teeth were restoredwith composite and different base materials. Widemesial-occlusal-distal cavity preparations wereperformed, with isthmus width of one third of thedistance between the cuspal tips, 3 mm occlusaland a 5 mm interproximal preparation height. Theteeth were divided into 4 groups (n = 10), accordingto the restoration type: G1) GIC-DCR (1 mm glassionomer cement base and direct restoration usingnanoparticulate composite); G2) FL-DCR (1 mm baseof flowable composite resin and direct restorationusing nanoparticulate composite); G3) GIC-ICR(1 mm glass ionomer cement base and indirectrestoration using nanoparticulate composite GICbase); G4) FL-ICR (1 mm base of flowable compositeresin and indirect restoration using nanoparticulatecomposite). The specimens were submitted tocompressive load of 50 N on the buccal and lingualcusps, in a universal testing machine. The lingualcusp microstrain (με) measurements were executedby strain gauges. <strong>Results: </strong>The Kruskal-Wallis (5%)test was used and showed there were no significantdifferences among the microstrain values for the fourstudy groups (G1 = 1250; G2 = 1075; G3 = 1279;G4 = 937). <strong>Conclusion: </strong>It could be concluded thatthe restorative techniques and the bases employeddid not show any influences in cuspal deflection.</p><p>Keywords<br />Base materials; Cuspal defection; Composite resin; Direct restoration; Indirect restoration.</p>

scholarly journals Kekuatan ikat geser gigi artifisial akrilik dan porselen pada tiga macam basis gigi tiruan nilon termoplastikThe shear bond strength of acrylic and porcelain teeth in three types of thermoplastic nylon denture bases

2019 ◽  
Vol 31 (1) ◽  
Author(s):  
Miftahussakinah Rizani ◽  
Hubban Nasution
Keyword(s):  
Bond Strength ◽  
Shear Bond Strength ◽  
Testing Machine ◽  
Base Material ◽  
Central Incisor ◽  
Denture Base ◽  
Maxillary Central Incisor ◽  
Universal Testing Machine ◽  
Universal Testing ◽  
Artificial Teeth

Pendahuluan: Kekuatan ikat geser adalah kekuatan maksimum suatu material untuk menahan atau menerima gaya geser hingga lepas atau terjadinya fraktur. Ini merupakan salah satu hal yang penting dalam penggunaan gigi tiruan, terutama pada gigi tiruan sebagian lepasan dengan bahan basis nilon termoplastik. Kekurangan bahan basis ini adalah sering terlepasnya gigi artifisial dari basis gigi tiruannya. Tujuan penelitian ini adalah untuk mengetahui perbedaan kekuatan ikat geser antara gigi artifisial akrilik maupun porselen dengan bahan basis gigi tiruan nilon termoplastik Valplast™, TCS™ dan Biotone™.  Metode: Jenis penelitian ini adalah eksperimental laboratoris. Sampel yang digunakan pada penelitian ini terdiri dari 18 gigi artifisial insisivus sentralis rahang atas akrilik dan 18 gigi artifisial insisivus sentralis rahang atas porselen yang dibagi ke dalam 6 kelompok. Tiap sampel ditanamkan pada bahan basis gigi tiruan berbentuk silindris dengan diameter 18 mm dan tinggi 20 mm. Sampel di uji dengan menggunakan alat Universal Testing Machine. Data dianalisis dengan menggunakan uji ANOVA satu arah. Hasil: Terdapat perbedaan kekuatan ikat geser yang signifikan (p<0,05). Pada kedua gigi artifisial kelompok dengan basis Valplast™ memiliki nilai kekuatan ikat geser tertinggi, lalu diikuti dengan kelompok TCS™ dan Biotone™. Simpulan: Nilai kekuatan ikat geser berbeda pada gigi artifisial akrilik maupun porselen pada tiga macam basis gigi tiruan nilon termoplastik.Kata kunci: Kekuatan ikat geser, nilon termoplastik, gigi artifisial akrilik, gigi artifisial porselen. ABSTRACTIntroduction: Shear bond strength is the maximum strength of a material to hold or accept shear forces until detached or fractured. This strength is one of the essential things in the denture usage, especially in removable partial denture with nylon thermoplastic base material. The disadvantage of this material base is the frequent detachment of artificial teeth from the denture base. The purpose of this study was to determine the difference of the shear bond strength between acrylic and porcelain teeth with thermoplastic nylon denture base material of Valplast™, TCS™, and Biotone™. Methods: The type of research was an experimental laboratory. The sample used in this study consisted of 18 acrylic maxillary central incisor artificial teeth and 18 porcelain maxillary central incisor artificial teeth divided into 6 groups. Each sample was implanted in cylindrical denture base material with a diameter of 18 mm and a height of 20 mm. The sample was tested using a Universal Testing Machine. Data were analysed using a one-way ANOVA test. Result: There were significant differences in the shear bond strength (p < 0.05) in both artificial teeth, with the group of Valplast™ base had the highest shear bond strength value, followed by the TCS™ and Biotone™ groups. Conclusion: The shear bond strength values of acrylic and porcelain teeth in three types of thermoplastic nylon denture bases were significantly different.Keywords: Shear bond strength, thermoplastic nylon, acrylic teeth, porcelain teeth.

scholarly journals Utilization of Construction Waste Tiles as a Replacement for Fine Aggregates in Concrete

2017 ◽  
Vol 7 (5) ◽  
pp. 1930-1933 ◽  
Author(s):  
A. A. Adekunle ◽  
K. R. Abimbola ◽  
A. O. Familusi
Keyword(s):  
Compressive Strength ◽  
Testing Machine ◽  
Partial Replacement ◽  
Construction Waste ◽  
Universal Testing Machine ◽  
Coarse Aggregates ◽  
Universal Testing ◽  
Fine Aggregates ◽  
Concrete Production

Ceramic wastes are found to be suitable for usage as substitution for fine and coarse aggregates in concrete production. This study is an investigation into the utilization of waste tiles as partial replacement for fine and coarse aggregates in concrete. The control mix and other mixes containing cement, water, granite and partial replacement for sand with crushed tiles (in 5%, 10%, 15% and 20% proportions) were cast, cubed, cured and crushed. Also, another mix containing cement, water, sand and partial replacement of granite with crushed tiles (in 25%, 50% and 75% proportions) were cast, cubed, cured and crushed. The specimens were tested for their respective compressive strengths using the Universal Testing Machine (UTM) on the 7th, 14th, 21st and 28th days of curing. At 28 days, the compressive strength value of 5% of fine-waste tiles replacement was 20.12 N/mm2 while that of 10%, 15% and 20% were 14.24 N/mm2, 11.04 N/mm2 and 10.12 N/mm2 respectively. Moreover, at 28 days, the compressive strength of 25% of coarse-waste tiles replacement shows an increase to 22.45 N/mm2 while that of 50% and 75% were 18.4 N/mm2 and 12.2 N/mm2 respectively. Thus it can be concluded that fine aggregates can be substituted at 5% waste tiles while coarse aggregates can be substituted at 25% waste tiles.>/p>

scholarly journals Komparasi Pengujian Mutu Beton dengan Menggunakan Metode SNI 03-4430-1997 dan SNI 1974-1990 dalam Kegiatan Pengabdian Masyarakat di Laboratorium Struktur dan Bahan Konstruksi Universitas Brawijaya

2018 ◽  
Vol 2 (1) ◽  
pp. 1
Author(s):  
Sugeng Hendik ◽  
Dhino Teguh
Keyword(s):  
Compressive Strength ◽  
Testing Machine ◽  
Strength Test ◽  
Sample Type ◽  
Destructive Test ◽  
Universal Testing Machine ◽  
Universal Testing ◽  
Compressive Strength Test ◽  
Non Destructive ◽  
Test Result

ABSTRAK Penelitian ini adalah penelitian eksperimental yang dilakukan di laboratorium, untuk mengetahui perbandingan pengukuran kekuatan beton pada kegiatan pengabdian masyarakat di Laboratorium Struktur dan Bahan Konstruksi Fakultas Teknik Universitas Brawijaya. Pengukuran kekuatan beton bisa menggunakan metode merusak dan tidak merusak. Tujuan dari penelitian ini untuk mendapatkan konstanta pengali nilai hasil pengujian Hammer Test, sehingga hasilnya bisa mendekati hasil pengujian dengan menggunakan Mesin Uji Tekan. Adapun variabel penelitian adalah jenis sampel dan metode pengujian. Jumlah sampel untuk setiap umur beton adalah 20 silinder dan 20 kubus, sehingga total adalah 40 buah sampel beton, setelah itu dilakukan pengujian kekuatan dengan menggunakan metode non destruktif dan dengan bahan yang sama dilakukan pengujian kuat tekan dengan metode destruktif. Hasil penelitian ini menunjukkan bahwa pengujian dengan menggunakan hammer test nilainya lebih rendah dibandingkan dengan pengujian dengan Compression Machine dan didapatkannya konstanta pengali sebesar 0,88. Sehingga dengan menggunakan nilai hasil pengujian dengan alat hammer test estimasi kekuatan beton bisa diukur terlebih dahulu tanpa menggunakan metode Destruktif Kata-kata kunci : pengujian merusak dan tidak merusak, mesin uji tekan, uji kekerasan ABSTRACT This research is experimental research conducted at laboratory, to find the comparison of strength measurement of concrete in Community Service Activities at Laboratory of Structures and Construction Materials can use the method of destructive and non-destructive. The main purpose of this research is to get the value of multiplier constant from the test result of Hammer Test, so the result can come near to the test result by using Compression Machine. The research variable are; sample type (cube of 15 x 15 and cylinder of 15 x 30), testing method (hammer test vs Universal testing machine). The number of concrete cylinder sample (Ø 15 cm x 30cm) for each concrete age is 20 of cylinder and 20 of cube, so the total is 40 pcs of concrete sample, after that, compressive strength test is performed by using method of non-destructive and by the same materials, compressive strength test is performed by using method of destructive. The result of this research is prove that value test by using Hammer Test is lower that using Compression Machine and the obtained of multiplier constant is 0.88. So by using value of test result with hammer test, estimation of concrete strength can be measured in advance without using method of destructive. Keywords : destructive test, non-destructive test, universal testing machine, hammer test

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