Basic Studies of Plastic Working with Vibration : 3rd Report, Hardness Testing of Specimen with Induced Ultrasonic Vibration Using a Specially-Made Universal Hardness Tester

Abstract Tests have been made on numerous rubbers with the R.A.B.R.M. hardness gauge, the Strachan piezomicrometer, and the Pusey and Jones plastometer (using in each case ¼-in. and ⅛-in. diameter balls) and with the Shore durometer and Schopper hardness tester, to determine the relationships between the readings given by these instruments. The results are tabulated and represented graphically as correlation curves. A conversion chart is given by which the reading obtained with any one instrument or size of ball can readily be converted into the corresponding reading for any of the other instruments or sizes of ball.

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Basic Studies of Plastic Working with Vibration : 1st Report, Ultrasonic Vibro-Indentation Hardness of Carbon Steels

Bulletin of JSME ◽

10.1299/jsme1958.16.40 ◽

1973 ◽

Vol 16 (91) ◽

pp. 40-48 ◽

Cited By ~ 1

Author(s):

Masao MIZUNO ◽

Takahiko KUNO

Keyword(s):

Carbon Steels ◽

Indentation Hardness ◽

Plastic Working ◽

Basic Studies

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Comparison of Hardness and Surface Roughness of Two Denture bases Polymerized by Different Methods

World Journal of Dentistry ◽

10.5005/jp-journals-10015-1151 ◽

2012 ◽

Vol 3 (2) ◽

pp. 171-175 ◽

Cited By ~ 13

Author(s):

Farideh Bahrani ◽

Mahroo Vojdani ◽

Anahita Safari ◽

Ghasem Karampoor

Keyword(s):

Mechanical Property ◽

Surface Roughness ◽

Injection Molding ◽

Vickers Hardness ◽

T Test ◽

Hardness Testing ◽

Denture Base ◽

Hardness Tester ◽

Base Materials ◽

Acrylic Resins

ABSTRACT Purpose The aim of this study was to evaluate mechanical property hardness and surface roughness (Ra) of different polymerization acrylic resins used for denture bases. Materials and methods A total of 30 specimens were prepared and divided in two groups. A total of 15 samples were processed by the compression molding technique using Meliodent (heatcured). Another 15 samples were processed with cold-cured resin Futura Gen via the injection molding technique. Hardness testing was conducted using a Vickers hardness tester. The Ra test was performed by a profilometer. Data were analyzed using the independent sample t-test and differences were statistically significant at the 0.05 level. Results The Vickers hardness numbers (VHN) were 20.8 ± 2.39 for Meliodent and 21.18 ± 1.42 for FuturaGen, which was not significantly different (p > 0.05). The Ra of Meliodent was 0.92 ± 0.23 µm and for FuturaGen it was 0.84 ± 0.37 µm. There were no significant changes in roughness. Conclusion The hardness and Ra of Meliodent and FuturaGen were not significantly different. Therefore, we recommend the use of FuturaGen for manufacturing denture base materials. How to cite this article Bahrani F, Safari A, Vojdani M, Karampoor G. Comparison of Hardness and Surface Roughness of Two Denture bases Polymerized by Different Methods. World J Dent 2012;3(2):171-175.

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Effect of CeO2 on Microstructure and Hardness of Roller Surface Alloyed by Laser

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.155-156.877 ◽

2012 ◽

Vol 155-156 ◽

pp. 877-880

Author(s):

Huai Jun Yue ◽

Qi Bin Liu

Keyword(s):

Co2 Laser ◽

Testing Machine ◽

Surface Hardness ◽

Service Performance ◽

Micro Hardness ◽

Rockwell Hardness ◽

Hardness Testing ◽

Coating Materials ◽

Hardness Tester ◽

Molten Liquid

To improve the service performance of roller. The surface of roller was alloyed by a 5kW CO2 laser. The effect of CeO2 on microstructure and hardness was studied by means of OM, Micro-hardness Testing Machine and Rockwell hardness tester. The results indicate that addition of CeO2 into coating materials can enhance the fluidity of molten liquid, refine and purify microstructure and increase microhardness and surface hardness of alloying coating.

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Basic Studies of Plastic Working with Vibration : 1st Report, Ultrasonic Vibro-Indentation Hardness of Carbon Steels

Transactions of the Japan Society of Mechanical Engineers ◽

10.1299/kikai1938.38.977 ◽

1972 ◽

Vol 38 (309) ◽

pp. 977-986

Author(s):

Masao MIZUNo ◽

Takahiko KUNO

Keyword(s):

Carbon Steels ◽

Indentation Hardness ◽

Plastic Working ◽

Basic Studies

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Rationalization of the Hardness Testing of Rubber

Rubber Chemistry and Technology ◽

10.5254/1.3539723 ◽

1936 ◽

Vol 9 (1) ◽

pp. 83-94

Author(s):

J. R. Scott

Keyword(s):

Theoretical Basis ◽

Practical Significance ◽

Reverse Direction ◽

Hardness Testing ◽

Dead Weight ◽

Rubber Industry ◽

Hardness Tester ◽

Vulcanized Rubber ◽

Rubber Surface ◽

Compression Characteristics

Abstract The object of this paper is to draw attention to the present unsatisfactory state of the hardness testing of vulcanized rubber and the need for standardization of this test, and also to present some results of an investigation into the theoretical basis of hardness testing and the practical significance of hardness measurements. In this paper the word “hardness” will be used in the sense generally accepted in the rubber industry, that is, to denote resistance to indentation. The most commonly used types of hardness tester measure hardness in terms of the depth of the indentation made by a rigid ball or blunt pin pressed into the rubber by either a dead weight or a spring. The reading given by such an instrument, usually termed the hardness number, must depend on several variable factors, namely (1) the dimensions of the ball or pin; (2) the weight used to press it into the rubber, or the compression characteristics of the spring in the case of spring-loaded instruments; (3) the direction of the scale of the instrument, i. e., whether the reading increases with the depth of indentation, as in the Pusey-Jones Plastometer, or in the reverse direction, as in the Durometer; (4) the units in which the indentation is measured, i. e., whether in 100ths of a millimeter, 1000ths of an inch, or arbitrary units. In addition to these factors relating to the instrument, the reading must also depend on the dimensions of the rubber test-piece, especially its thickness, the nature of the rubber surface, and the period for which the ball or plunger is pressed on to the rubber before the reading is taken.

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PENGARUH KUAT ARUS PADA PENGELASAN PADUAN ALUMINIUM 6061 DENGAN MENGGUNAKAN METODE LAS TIG TERHADAP KEKERASAN DAN STRUKTUR MIKRO

NOZEL Jurnal Pendidikan Teknik Mesin ◽

10.20961/nozel.v1i1.28484 ◽

2019 ◽

Vol 1 (1) ◽

pp. 37

Author(s):

Rochim Toat Wicaksono ◽

Suharno Suharno ◽

Budi Harjanto

Keyword(s):

Comparative Research ◽

Tig Welding ◽

Raw Material ◽

Hardness Testing ◽

Hardness Level ◽

Hardness Tester ◽

Welding Method ◽

Phase Surface ◽

Alloy 6061 ◽

Phase Width

The objective of research was to find out the effect of current on microstructure and hardness value in Aluminium Alloy 6061 before (raw material) and after welding using Tungsten Inert Gas (TIG) welding method with filler rod ER4043. This research uses experiment methods. Technique of analyzing data used was a descriptive comparative research. The instruments used for testing microstructure and hardness were Olympus Metallurgical Microscope and Vikers Hardness Tester. Base on the result of research, it could be concluded that the result of microstructure testing showed the reduced Mg2Si phase width after welding. In raw material, the Mg2Si phase seemed to diffuse surrounding the α-Al phase surface, but the result of welding using TIG welding method with current of I00 A, 110 A, and 115A showed that Mg2Si phase reduced in each specimen, so that α-Al phase was very dominant. The hardness value of hardness result showed the different hardness level. The specimen with current of 110A had higher hardness level of 65.4 VHN than the specimen with current of 100 A (55.7 VHN) and 115 A (55.9 VHN). The result of hardness testing on raw material was 120.4 VHN. This research showed that the welding using varying current changed microstructure and affected the hardness value of Aluminum Alloy 6061.

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