effects of rate of loading for compression test|Evaluation of stress path and load rate effects on rock strength : importing Hakas PRAYUDA, Associate Professor | Cited by 256 | of Universitas . 10 de out. de 2017 · Vale aclarar que el Vick VapoRub es un medicamento seguro tanto para los niños mayores de dos años como para los .
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This research conducted 5 different concrete mixes to study the effect of loading rate on compressive strength of concrete.This research conducted 5 different concrete mixes to study the effect of .© 2008-2024 ResearchGate GmbH. All rights reserved. Terms; Privacy; IP .Hakas PRAYUDA, Associate Professor | Cited by 256 | of Universitas .
As there is variation in rate of loading on compression testing machine on concrete specimen, the compression strength varies proportionately. As higher the rate of loading, the .
Concrete compression is complex. Yet, understanding this behavior is indispensable for design. There are three main factors that affect concrete compression results: the . The strain‐rate effect is inversely proportional to the strength of concrete. As rate of loading increases, compressive strength, modulus of elasticity, and the slope of the . Deeper understanding on how concrete behaves to different modes of loading needs to be assessed, particularly the rate; and to study its effects, a property of concrete .
Results obtained to date show significant differences in the compressive strength results due to specimen size and minor differences due to different loading rates. The .
Based on comparison of load-controlled and strain-controlled standard compression tests, it is concluded that strain-controlled tests produce appreciably lower peak strength .Experimental techniques commonly used for high strain-rate testing of concrete in compression, together with the methods used for measurement and recording of stress and strain, are . The mechanical response of granular materials is influenced significantly by both the magnitude and strain rate. While traditionally considered rate-independent in the quasi-static regime, granular media can exhibit rate . As rate of loading increases, concrete compressive strength, steel yield strength, and flexural capacity of reinforced concrete member also increase.
Loading rate effects on the global stress-strain behavior of sand were investigated by performing triaxial compression tests on air-dried sand specimens. The effects of loading rate, test temperature and specimen dimensions on the fracture-toughness value of polycrystalline ice, such as columnar-grained ice and coarse-grained ice are examined in . During a standard compression test, say, according to ASTM C39 [120], frictional forces are generated between the contact surfaces of the concrete and the loading plates. This results in a non-axial loading. It could be said that the measured strength is not the real strength of the concrete specimen, and there is no practical pure compression . In order to quantify and compare the strain-rate effects in all five materials, we defined a specific strain rate normalization in which the stress at the nominal compressive strain of 0.40 during loading was normalized to the stress at the same strain but at the strain rate of 0.001 s −1 (during loading). This normalized stress is like the .
Rockburst is a kind of rock failure phenomenon during which the internal elastic strain energy of surrounding rock mass is released dynamically under external load, and the loading rate is an essential influencing factor of potential for bursting. To investigate the effects of loading rate on rockburst proneness from energy storage and surplus perspectives, .
Review of Effects of Loading Rate on Reinforced Concrete
Review of Effects of Loading Rate on Concrete in Compression
The loading rate is a parameter with a wide range of value, so we only discuss the issue in the quasi-static strain rate (10 –5 –10 –1 s −1) here, which is the rigid servo test machine can .
Analysing the strain rate effect, an important increment of the apparent strength with the increment of the strain rate could be observed. These results are in accordance with other authors using similar material systems in woven fabric structure under dynamic compression loading [19], [38], [39], [40]. With respect to the stiffness, no clear .
Shear strength, Mohr’s circles, and Hoek-Brown failure envelopes at the three loading rates: (a) Displacement rate of 0.5 mm/s in the shear and Brazilian tension tests, and strain rate of 10 −2 s −1 in the triaxial compression tests; (b) Displacement rate of 0.005 mm/s in the shear and Brazilian tension tests, and strain rate of 10 −4 s .
The effects of loading rate and loading direction on the compression failure behavior of a typical 0°/±60° two-dimensional triaxially braided composite (2DTBC) were studied by compressing brick .
It should be noted that while the equivalent strain rate for the specimen can be constrained strictly at the two lowest strain rate levels (0.01/s and 0.0001/s) by using the displacement-controlled loading mode of the universal test machine, the loading rates are slightly dispersed when the strain rate reaches about 200/s in the dynamic tests. Unconsolidated undrained (UU) triaxial tests were performed at increased loading rates to investigate the effects of strain rate on the undrained shear strength quantified using the maximum principal stress difference (σ 1 –σ 3) f of a low plasticity clay at different initial compaction water contents. The following specific conclusions can . Loading rate is an important factor in the UCS of rocks; brittle rocks typically exhibit a pseudo-viscous effect which is reflected in a strength increase with increasing strain rate (Lockner 1995). According to ASTM ( 2000 ), loading rate should be selected at a value which will produce failure in a test time between 2 and 15 min. ISRM ( 2007 . To study the influence of the loading rate on the failure process of coal, uniaxial compression tests were performed with various axial strain rates of 0.83 × 10–5 to 6.66 × 10–5 s−1 on .
A variety of compression strength testing stress paths are illustrated in Fig. 1 to visualize different testing configurations that can be established. This includes the following basic configurations: 1) standard (conventional) triaxial tests, where axial load increases under constant confinement; 2) diagonal stress path tests, where confinement and axial load are reduced . Four groups (1 × 10–5/s, 1 × 10–4/s, 1 × 10–3/s and 1 × 10–2/s) of triaxial compression tests at a confining pressure of 30 MPa are carried out to clarify the strain rate effect and damage evolution of siltstone. The elastic modulus, peak stress, strain energy evolution and failure modes of siltstone at different strain rates are analyzed, followed by an .
The effects of loading rate, . Confined compression of elastic adhesives at high rates of strain. Int. J. Adhesion Adhes., 18 (1998), pp. 375-383. View PDF View article View in Scopus Google Scholar . Test., 94 (2021), p. 107063. View PDF View article View in Scopus Google Scholar [33] The effect of complex triaxial unloading confining pressure conditions on the mechanical behaviour and fracture mechanism of sandstone is investigated. Constant deviatoric stress direct and cyclic unloading confining pressure tests are carried out under two initial damage states. Based on the evolution law of deformation parameters, the influence of the initial .The effect of rate of loading on soil strength, excluding effects of consolidation, may be significant. In general, the . The unconfined compression test is usually per-formed on a cylindrical sample with a diameter-to-length ratio of 1:2. The sanple is compressed axially [Figure 12-4(a)] until failure occurs; the .
To practically remove the size effect on UCS values, the uniaxial compression test is suggested to perform selecting the loading rate as strain controlled (s −1) and proportional to diameters of specimens with different sizes and same geometry. In addition to the UCS values, Modulus of elasticity values, stress and strain graph shapes and . 2.5. Intermediate Strain Rate Transverse Compression Test Set-Up. Intermediate strain rate transverse compression tests were performed using a custom hydraulic test frame (Figure 4), with a 25,000 lbf (111,206 N) load cell. Compression platens were used to compress the test specimens with a displacement rate of 2 mm/s. An overly torqued fixture can lead to a significant friction effect through a redundant load path, giving excessively high strength results. Due to this, the Boeing procedure recommends that the fasteners should be torqued between 0.68 and 1.13Nm. . DOT/FAA/AR-00/26 Verification of the combined load compression (CLC) test method [9] Adams, D .
To study the influence of the loading rate on the failure process of coal, uniaxial compression tests were performed with various axial strain rates of 0.83 × 10–5 to 6.66 × 10–5 s−1 on coal samples, which were collected from the Shamushu Coal Mine in Sichuan Province. The parameters of stress, strain, and acoustic emission during the failure process were .Compression Test Execution: Initiate the compression test by starting the testing machine according to the predetermined test parameters. Apply a compressive load to the specimen at the specified rate until the desired endpoint is reached (failure, specific deformation, or load).
A series of single particle crushing tests were conducted on 400 coral particles with size ranges of 3–5 mm, 6.5–8.5 mm and 10–12 mm at loading rates of 0.1–50 mm/min. The effects of size and loading rate on the mechanical properties are assessed in terms of the frequency distribution of crushing strength, fragmentation mode, fractal .
To practically remove the size effect on UCS values, the uniaxial compression test is suggested to perform selecting the loading rate as strain controlled (s-1) and proportional to diameters of . This research conducted 5 different concrete mixes to study the effect of loading rate on compressive strength of concrete. Concentric uniaxial loading, in terms of pressure as opposed to displacement, was loaded to the hardened concrete cube specimens at different loading rates increasing constantly at 0.2 MPa/s and 0.4 MPa/s which are within . Dou et al. found that dry eucalyptus exhibited the failure modes of fiber buckling and collapse under impact compression load, while wet eucalyptus fiber bundle showed axial separation and collapse, and the strain rate effect was more obvious. After conducting the transverse compression experiments on pine wood, Gomesa et al. combined SHPB and .
Factors affecting the results of concrete compression testing: A
Evaluation of stress path and load rate effects on rock strength
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effects of rate of loading for compression test|Evaluation of stress path and load rate effects on rock strength