Effect of size distribution on tapping properties of fine powder

Suzuki, Michitaka; Sato, Hayato; Hasegawa, Masami; Hirota, Mitsuaki

doi:10.1016/s0032-5910(01)00294-7

Cited by 51 publications

(28 citation statements)

References 6 publications

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“…This suggests that the thermal conductivities of the composites increase with a smaller amount of filler with matrix particles with high packing ratios. Although the highest value of packing ratio investigated in this study was 0.71, a preparation of higher packing ratio are expected according to literature about the packing ratio of particles [42][43][44]. Therefore, the formation of a percolating network with a smaller filler volume was expected with this higher packing ratio.…”

Section: Discussionmentioning

confidence: 52%

High thermal conductivity phase change composite with percolating carbon fiber network

et al. 2015

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Section: Discussionmentioning

confidence: 52%

High thermal conductivity phase change composite with percolating carbon fiber network

et al. 2015

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“…8,9) For this reason, localised bed voidage values and the averaged value for the entire bed increases. [14][15][16][17] As a result, segregation results in a more permeable green bed, and this has been observed in both laboratory and plant sintering operations. 8,9,11,18) In summary, the size and density of granules determine their movement during charging and this causes the formation of segregated beds.…”

Section: Literature Reviewmentioning

confidence: 99%

Improving Energy Efficiency in Iron Ore Sintering through Segregation: a Theoretical Investigation

Zhao¹,

Loo²,

Ellis

2016

ISIJ International

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“…In earth materials, the specific surface area of the microfine fraction can be modified to influence the void fraction and the capillarity suction of stabilized earth materials [22,23]. Currently, the aggregate industry offers a wide selection of mineral products and by-products that can be used to engineer the soil's finer fraction from 150 microns down to nanoscale.…”

Section: Nanotechnology In Earth Materialsmentioning

confidence: 99%

Earth Masonry Unit: Sustainable Cmu Alternative

Dahmen¹,

Muñoz²

2014

geomate

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This paper provides a justification for a masonry building block fabricated from soil materials that could radically improve the environmental profile of concrete masonry. Conventional concrete masonry units depend on the reaction of ordinary Portland cement to provide strength and durability. While effective at meeting structural requirements, a study has shown that production of ordinary Portland cement causes 6-7% of global greenhouse gas emissions. In contrast, the principal component of stabilized earth mix designs is soil, a ubiquitous, innocuous, and almost unlimited resource that offers the potential of sustainable cradle-to-cradle environmental performance over a full life cycle of products. The paper presents research investigating the characteristics of a range engineered soil blends and natural soil sources. The research is applied toward the production of an environmentally sustainable stabilized earth masonry building block capable of meeting current ASTM concrete block performance specifications while reducing embodied energy by as much as 50% due to the reduction of energy-intensive Portland cement binders, dramatically reducing CO2 emissions of one of the most common construction materials on the planet.

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Effect of size distribution on tapping properties of fine powder

Cited by 51 publications

References 6 publications

High thermal conductivity phase change composite with percolating carbon fiber network

High thermal conductivity phase change composite with percolating carbon fiber network

Improving Energy Efficiency in Iron Ore Sintering through Segregation: a Theoretical Investigation

Earth Masonry Unit: Sustainable Cmu Alternative

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