TENSILE STRENGTH TESTS IN POLYESTER COMPOSITES WITH HIGH INCORPORATION OF MALVA FIBERS

The article presents results of strength tests of bismuth telluride prismatic samples obtained by growing crystals. These crystals have semiconductor properties and are used in the heat machines, the run-ability of which largely depends on the strength of crystals. Data available in the literature are significantly different from each other. It has been shown that, the most consistent strength tests results are obtained in case of bend testing. The measurement results of the elasticity modulus and tensile strength are given. For tests, an INSTRON testing machine with maximum direct stress of the 1000 H was used.

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Surface Treatment of Fly Ash for Improving the Tensile Strength of Fly Ash/Unsaturated Polyester Composites

MAKARA of Technology Series ◽

10.7454/mst.v17i3.2932 ◽

2014 ◽

Vol 17 (3) ◽

Cited By ~ 1

Author(s):

Sugiman . ◽

Paryanto Dwi Setyawan

Keyword(s):

Tensile Strength ◽

Fly Ash ◽

Surface Treatment ◽

Unsaturated Polyester ◽

Polyester Composites

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The effect of liquid nitrogen cooling on coal cracking and mechanical properties

Energy Exploration & Exploitation ◽

10.1177/0144598718766630 ◽

2018 ◽

Vol 36 (6) ◽

pp. 1609-1628 ◽

Cited By ~ 3

Author(s):

Chengzheng Cai ◽

Feng Gao ◽

Yugui Yang

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Acoustic Emission ◽

Liquid Nitrogen ◽

Wave Velocity ◽

Count Rate ◽

Initial State ◽

Nitrogen Injection ◽

Strength Tests ◽

Liquid Nitrogen Cooling

Liquid nitrogen is a type of super-cryogenic fluid, which can cause the reservoir temperature to decrease significantly and thereby induce formation rock damage and cracking when it is injected into the wellbore as fracturing fluid. An experimental set-up was designed to monitor the acoustic emission signals of coal during its contact with cryogenic liquid nitrogen. Ultrasonic and tensile strength tests were then performed to investigate the effect of liquid nitrogen cooling on coal cracking and the changes in mechanical properties thereof. The results showed that acoustic emission phenomena occurred immediately as the coal sample came into contact with liquid nitrogen. This indicated that evident damage and cracking were induced by liquid nitrogen cooling. During liquid nitrogen injection, the ring-down count rate was high, and the cumulative ring-down counts also increased rapidly. Both the ring-down count rate and the cumulative ring-down counts during liquid nitrogen injection were much greater than those in the post-injection period. Liquid nitrogen cooling caused the micro-fissures inside the coal to expand, leading to a decrease in wave velocity and the deterioration in mechanical strength. The wave velocity, which was measured as soon as the sample was removed from the liquid nitrogen (i.e. the wave velocity was recorded in the cooling state), decreased by 14.46% on average. As the cryogenic samples recovered to room temperature, this value increased to 18.69%. In tensile strength tests, the tensile strengths of samples in cooling and cool-treated states were (on average) 17.39 and 31.43% less than those in initial state. These indicated that both during the cooling and heating processes, damage and cracking were generated within these coal samples, resulting in the acoustic emission phenomenon as well as the decrease in wave velocity and tensile strength.

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Assessment of the mechanical properties of glass ionomer cements for orthodontic cementation

Dental Press Journal of Orthodontics ◽

10.1590/s2176-94512012000600027 ◽

2012 ◽

Vol 17 (6) ◽

pp. 154-159 ◽

Cited By ~ 1

Author(s):

Marcel M. Farret ◽

Eduardo Martinelli de Lima ◽

Eduardo Gonçalves Mota ◽

Hugo Mitsuo S. Oshima ◽

Gabriela Maguilnik ◽

...

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Compressive Strength ◽

Bond Strength ◽

Shear Bond Strength ◽

Glass Ionomer Cements ◽

Glass Ionomer ◽

Resin Modified Glass Ionomer ◽

Strength Tests ◽

Diametral Tensile Strength

OBJECTIVE: To evaluate the mechanical properties of three glass ionomers cements (GICs) used for band cementation in Orthodontics. METHODS: Two conventional glass ionomers (Ketac Cem Easy mix/3M-ESPE and Meron/Voco) and one resin modified glass ionomer (Multi-cure Glass ionomer/3M-Unitek) were selected. For the compressive strength and diametral tensile strength tests, 12 specimens were made of each material. For the microhardness test 15 specimens were made of each material and for the shear bond strength tests 45 bovine permanent incisors were used mounted in a self-cure acrylic resin. Then, band segments with a welded bracket were cemented on the buccal surface of the crowns. For the mechanical tests of compressive and diametral tensile strength and shear bond strength a universal testing machine was used with a crosshead speed of 1,0 mm/min and for the Vickers microhardness analysis tests a Microdurometer was used with 200 g of load during 15 seconds. The results were submitted to statistical analysis through ANOVA complemented by Tukey's test at a significance level of 5%. RESULTS: The results shown that the Multi-Cure Glass Ionomer presented higher diametral tensile strength (p < 0.01) and compressive strength greater than conventional GICs (p = 0.08). Moreover, Ketac Cem showed significant less microhardness (p < 0.01). CONCLUSION: The resin-modified glass ionomer cement showed high mechanical properties, compared to the conventional glass ionomer cements, which had few differences between them.

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Relations between indirect tensile and flexural strengths for dry and plastic concretes

Revista IBRACON de Estruturas e Materiais ◽

10.1590/s1983-41952013000600003 ◽

2013 ◽

Vol 6 (6) ◽

pp. 854-874 ◽

Cited By ~ 12

Author(s):

J. T. Balbo

Keyword(s):

Tensile Strength ◽

Concrete Slab ◽

Plane Stress State ◽

Concrete Mixtures ◽

Technological Control ◽

Strength Tests ◽

Indirect Tensile ◽

Actual Strength ◽

Basic Concepts ◽

Set Up

Indirect tensile strength is not usually used for concrete mixtures proportioning and its technological control; flexural strength tests under third point loads arrangement are the pattern for such goals. Indeed, neither of such tests have the capability to set up the actual strength of a concrete slab since its response is under plane stress state. A critical review of the basic concepts on both kinds of tests allows foreseeing its limitations as well as how to overcome such shortcomings. At last correlations between the two kinds of tensile strength are presented considering dry and plastic concretes typically applied on paving, corroborating to former results achieved for plastic concretes.

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LUMB6 Diagonal tensile strength tests of small wall specimens

RILEM Technical Recommendations for the testing and use of construction materials ◽

10.1201/9781482271362-309 ◽

1994 ◽

pp. 1314-1315

Keyword(s):

Tensile Strength ◽

Strength Tests

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An Experimental Study on a Composite Bonding Structure for Steel Bridge Deck Pavements

Advances in Civil Engineering ◽

10.1155/2021/5685710 ◽

2021 ◽

Vol 2021 ◽

pp. 1-14

Author(s):

Xiaoguang Zheng ◽

Qi Ren ◽

Huan Xiong ◽

Xiaoming Song

Keyword(s):

Tensile Strength ◽

Shear Strength ◽

Epoxy Resin ◽

Bonding Strength ◽

Bridge Deck ◽

Steel Bridge ◽

Shear Tests ◽

Bonding Structure ◽

Asphalt Overlay ◽

Strength Tests

As one of the major contributors to the early failures of steel bridge deck pavements, the bonding between steel and asphalt overlay has long been a troublesome issue. In this paper, a novel composite bonding structure was introduced consisting of epoxy resin micaceous iron oxide (EMIO) primer, solvent-free epoxy resin waterproof layer, and ethylene-vinyl acetate (EVA) hot melt pellets. A series of strength tests were performed to study its mechanical properties, including pull-off strength tests, dumbbell tensile tests, lap shear tests, direct tension tests, and 45°-inclined shear tests. The results suggested that the bonding structure exhibited fair bonding strength, tensile strength, and shear strength. Anisotropic behaviour was also observed at high temperatures. For epoxy resin waterproof layer, the loss of bonding strength, tensile strength, and shear strength at 60°C was 70%, 35%, and 39%, respectively. Subsequent pavement performance-oriented tests included five-point bending tests and accelerated wheel tracking tests. The impacts of bonding on fatigue resistance and rutting propagation were studied. It was found that the proposed bonding structure could provide a durable and well-bonded interface and was thus beneficial to prolong the fatigue lives of asphalt overlay. The choice of bonding materials was found irrelevant to the ultimate rutting depth of pavements. But the bonding combination of epoxy resin waterproof and EVA pellets could delay the early-stage rutting propagation.

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Effect of Gamma Radiation on the Mechanical Properties of Natural Fabric Reinforced Polyester Composites

Fibres and Textiles in Eastern Europe ◽

10.5604/01.3001.0013.1824 ◽

2019 ◽

Vol 27 (4(136)) ◽

pp. 88-93

Author(s):

K.Z.M. Abdul Motaleb ◽

Md Shariful Islam ◽

Rimvydas Milašius

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Impact Strength ◽

Gamma Radiation ◽

Bending Strength ◽

Polyester Resin ◽

Radiation Doses ◽

Elongation At Break ◽

Bending Modulus ◽

Polyester Composites

Two types of composites:(1) pineapple fabric reinforced polyester resin (Pineapple/PR) and (2) jute fabric reinforced polyester resin (Jute/PR) were prepared and the mechanical properties investigated for various gamma radiation doses ranging from 100-500 krad. Properties like tensile strength, Young’s modulus, elongation-at-break, bending strength, bending modulus and impact strength were increased significantly by 19%, 32%, 45%, 32%, 47% and 20%, respectively, at a dose of 300 krad for Pineapple/PR, and by 47%, 49%, 42%, 45%, 52% and 65%, respectively, at a dose of 200 krad for the Jute/PR composite in comparison to the non-irradiated composite. Gamma radiation improved the mechanical properties, but overdoses of radiation even caused a reduction in them.

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