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Geographically distributed hybrid testing & collaboration between geotechnical centrifuge and structures laboratories
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作者 Mobin Ojaghi Ignacio Lamata Martínez +6 位作者 Matt S.Dietz Martin S.Williams Anthony Blakeborough Adam J.Crewe Colin A.Taylor S.P.Gopal Madabhushi Stuart K.Haigh 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2018年第1期53-71,共19页
Distributed Hybrid Testing(DHT) is an experimental technique designed to capitalise on advances in modern networking infrastructure to overcome traditional laboratory capacity limitations. By coupling the heterogene... Distributed Hybrid Testing(DHT) is an experimental technique designed to capitalise on advances in modern networking infrastructure to overcome traditional laboratory capacity limitations. By coupling the heterogeneous test apparatus and computational resources of geographically distributed laboratories, DHT provides the means to take on complex, multi-disciplinary challenges with new forms of communication and collaboration. To introduce the opportunity and practicability afforded by DHT, here an exemplar multi-site test is addressed in which a dedicated fibre network and suite of custom software is used to connect the geotechnical centrifuge at the University of Cambridge with a variety of structural dynamics loading apparatus at the University of Oxford and the University of Bristol. While centrifuge time-scaling prevents real-time rates of loading in this test, such experiments may be used to gain valuable insights into physical phenomena, test procedure and accuracy. These and other related experiments have led to the development of the real-time DHT technique and the creation of a flexible framework that aims to facilitate future distributed tests within the UK and beyond. As a further example, a real-time DHT experiment between structural labs using this framework for testing across the Internet is also presented. 展开更多
关键词 centrifuge distributed dynamics geotechnical hardware-in-the-loop real-time hybrid testing
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Geotechnical,Mineralogical and Chemical Characterization of the Missole II Clayey Materials of Douala Sub-Basin(Cameroon)for Construction Materials 被引量:1
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作者 Elisabeth Olivia Logmo Gilbert Francois Ngon Ngon +2 位作者 Williams Samba Michel Bertrand Mbog Jacques Etame 《Open Journal of Civil Engineering》 2013年第2期46-53,共8页
Geotechnical tests conducted on clayey materials of Missole II, Douala sub-basin of Cameroon showed that these materials present: fines particles (55 to 78 wt.%), sand (22 to 44 wt.%), and plasticity index of 13.8 to ... Geotechnical tests conducted on clayey materials of Missole II, Douala sub-basin of Cameroon showed that these materials present: fines particles (55 to 78 wt.%), sand (22 to 44 wt.%), and plasticity index of 13.8 to 21.6%. The X-ray diffraction (XRD) and the chemical analysis revealed a kaolinite amount of 46 to 56 wt.%, 19 to 27 wt.% of illite, 12 to 19 wt.% of quartz, 3 to 5 wt.% of goethite, 2 to 5 wt.% of hematite, 1.5 to 5 wt.% of anatase, 2 to 3 wt.% of feldspar-K with 52.87 to 63.11 wt.% of SiO2, 18.08 to 24.31 wt.% of Al2O3, 3.28 to 11.45 wt.% of Fe2O3 and a small content of bases (<2 wt.%). The results of geotechnical tests combined to those of the XRD and the chemical analysis showed that the Missole II clayey materials are suitable for the manufacture of bricks, tiles and sandstones. 展开更多
关键词 Cameroon Construction Materials geotechnical tests Mineralogical and Chemical Analyses Missole II
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An integrated laboratory experiment of realistic diagenesis,perforation and sand production using a large artificial sandstone specimen
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作者 Ashirgul Kozhagulova Ainash Shabdirova +1 位作者 Nguyen Hop Minh Yong Zhao 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2021年第1期154-166,共13页
Sand production is,a challenging issue in petroleum industry,mainly associated with weak unconsolidated formations.A novel testing procedure and a new apparatus were developed to conduct an integrated experiment of di... Sand production is,a challenging issue in petroleum industry,mainly associated with weak unconsolidated formations.A novel testing procedure and a new apparatus were developed to conduct an integrated experiment of diagenesis,perforation and sand production on a single large cylindrical artificial sandstone specimen,where solid and fluid pressures can be independently controlled such that realistic reservoir historical conditions can be well simulated in the laboratory.Fluid injection can be performed in both radial and vertical directions,where both single-and two-phase flows can be implemented for study of sand production behaviors at different reservoir’s maturity stages.The equipment consists of an intensive instrumentation system to monitor pressures,displacements and material states continuously.The produced sand particles were filtered and monitored in real-time for the study of time-dependent phenomena.The experimental results showed similar patterns to that observed in the field and provided valuable insight for the development of prediction methods for sand production of similar materials. 展开更多
关键词 Sand production Equipment development geotechnical testing Weak sandstone formations New testing procedure
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Properties of Debadib Evaporates (Northern Tunisia) for Potential Use in Industrial Fields
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作者 Imed Ben Salah Moufida M’barek Jemaii +2 位作者 Narjess Karoui-Yaakoub Ali Sdiri Noureddine Ben Ayed 《Open Journal of Geology》 2016年第12期1525-1538,共14页
Gypsum is widely distributed in Tunisia occurring in the formation of Triassic age. The gypsum deposit of Mellegue is the alabastine type with a little of the porphyroblast type and contains traces of clay minerals an... Gypsum is widely distributed in Tunisia occurring in the formation of Triassic age. The gypsum deposit of Mellegue is the alabastine type with a little of the porphyroblast type and contains traces of clay minerals and calcite. It is a moderately strong rock in terms of its unconfined compressive strength of 16 Mpa and tensile strength of 3.35 Mpa. Triaxial testing values indicated an apparent cohesion of 10 Mpa and an angle of friction of 26°. The gypsum studied had a percentage of SO<sub>3</sub> of 41.71% and a percentage of CaO of 32.9%. All the samples had low densities according to the International Association of Engineering Geology (IAEG) classification and exhibited a moderate porosity whether effective or absolute. The gypsum proved to be moderately strong when tested in unconfined compression and tensile strength. Thermal analysis indicated a total weight loss of 20.27% and the whiteness index about 90%. This proved a high degree of whiteness. The time of setting can be considered short and medium, which is quite favorable for industrial application compared with other gypsum deposits currently operated. 展开更多
关键词 Triassic Gypsum Deposit Mineralogical Analysis Physicochemical Analysis geotechnical testing Industrial Use
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