Mechanical Tests and Numerical Simulations for Mining Seafloor Massive Sulfides

Dai, Yu; Ma, Feiyue; Zhu, Xiang; Li, He; Huang, Zhonghua; Xie, Yi

doi:10.3390/jmse7080252

Cited by 17 publications

(7 citation statements)

References 28 publications

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“…In order to reduce the influence of non-uniformity of material properties on test data, the average value of data under the same confining pressure is used in data fitting. Figure 13a illustrates the growth rate of axial peak stress with confining pressure is somewhat lower than the respective value shown in Figure 13b from the literature [32], although the data in the literature were measured from different single samples. The data in this linear regression analysis only include the triaxial compressive strength under different confining pressures and the uniaxial compressive strength can be predicted by the fitted curve.…”

Section: Internal Friction Angle and Cohesionmentioning

confidence: 68%

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Experimental Study on Failure Mechanical Properties of Two Kinds of Seafloor Massive Sulfides

Dai

2021

Minerals

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Remarkable hydrostatic pressures have a significant effect on the failure mechanical properties of seafloor minerals, which also affects the selection and development of mining excavation tools. In this paper, a Brazilian splitting test and triaxial compression test were adopted to investigate the strength and deformation behavior of two kinds of seafloor massive sulfides (SMS) samples at a small-scale size. Based on the mineralogical characterization of the studied samples, the mechanical properties were preliminarily correlated with their internal structures and mineral compositions. Results indicate that there is a significant difference in the triaxial compression deformation properties between the two kinds of SMS samples and the geotechnical data are controlled by mineral type and composition, including porosity. In general, the triaxial compression process of the two kinds of samples included initial compaction, elastic stage, yield stage, failure stage and residual stage, and shows strain softening characteristics after the peak. With the increase in confining pressure, the strain-softening behavior of the white sample is mitigated and gradually changes into strain-hardening. The peak strength and peak strain of the two samples increased linearly with the increase in confining pressure within the confining pressure range of these tests, and the failure pattern of the specimens also changed from a typical brittle failure to a ductile failure. The results of this study provide data to support further understanding of different kinds of SMS, and are of great significance in the design of efficient SMS exploitation equipment.

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Section: Internal Friction Angle and Cohesionmentioning

confidence: 68%

“…Figure13. Relationship between peak stress and confining pressure of (a) small-scale specimens and (b) standard specimens[32].…”

mentioning

confidence: 99%

Experimental Study on Failure Mechanical Properties of Two Kinds of Seafloor Massive Sulfides

Dai

2021

Minerals

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“…In addition, the changing consumption patterns in the developing world will further impact the global demand for all resources, including minerals. There is a growing demand for strategic metals such as cobalt, nickel, copper, and manganese because their terrestrial reserves are fast depleting [2,3]. Although some lab-based alloys can substitute minerals used by industries, this has limitations regarding capacity and quality, so mining activities will inevitably continue.…”

Section: Introductionmentioning

confidence: 99%

Deep Seabed Mining: A Note on Some Potentials and Risks to the Sustainable Mineral Extraction from the Oceans

Filho

Abubakar

Nunes

et al. 2021

JMSE

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The rapidly increasing global populations and socio-economic development in the Global South have resulted in rising demand for natural resources. There are many plans for harvesting natural resources from the ocean floor, especially rare metals and minerals. However, if proper care is not taken, there is substantial potential for long-lasting and even irreversible physical and environmental impacts on the deep-sea ecosystems, including on biodiversity and ecosystem functioning. This paper reviews the literature on some potentials and risks to deep seabed mining (DSM), outlining its legal aspects and environmental impacts. It presents two case studies that describe the environmental risks related to this exploitative process. They include significant disturbance of the seabed, light and noise pollution, the creation of plumes, and negative impacts on the surface, benthic, and meso- and bathypelagic zones. The study suggests some of the issues interested companies should consider in preventing the potential physical and environmental damages DSM may cause. Sustainable mining and the use of minerals are vital in meeting various industrial demands.

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“…Rock chips and indentation forces, closely relating to indentation e ciency and tool wear, are two critical indexes. For the conical indenter, Dai et al (2019) rst tested the mechanical properties of the sea oor massive sul des and then predicted the indentation force in the mining process. Similar numerical simulations by Li et al (2017) indicated that tensile internal cracks are common in the cutting process.…”

Section: Introductionmentioning

confidence: 99%

Added Cutting Teeth to Promote Surface Crack Incisions for Cutting Sandstone

et al. 2021

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To promote surface crack incisions between indentations, we rst prefabricated CCS (constant cross section) indenters and modi ed indenters by adding cutting teeth on the CCS indenters. The subsequent indentation tests, using the modi ed indenters and the CCS indenters, indicate that the modi ed indenters can effectively promote surface crack incisions, initiating from the contact points between the cutting teeth and the rock. In addition, the promoted surface crack incisions form more thick chips between indentations, whereas the consumed indentation energy of the modi ed indenters is close to that of the CCS indenter. Thus, the modi ed indenter can effectively promote indentation e ciency.

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Mechanical Tests and Numerical Simulations for Mining Seafloor Massive Sulfides

Cited by 17 publications

References 28 publications

Experimental Study on Failure Mechanical Properties of Two Kinds of Seafloor Massive Sulfides

Experimental Study on Failure Mechanical Properties of Two Kinds of Seafloor Massive Sulfides

Deep Seabed Mining: A Note on Some Potentials and Risks to the Sustainable Mineral Extraction from the Oceans

Added Cutting Teeth to Promote Surface Crack Incisions for Cutting Sandstone

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