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Mechanism of Increase in Strength of Sodium Silicate-bonded Sand by Silica Sand Surface Modified in High Temperature.
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作者 Zhu Yulong Cai Zhensheng Hu Hanqi Material Science and Engineering School, UST Beijing, Beijing 100083, China 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 1998年第2期69-69,共1页
With the aid of XRD, SEM and EDS etc., there is absorbed film on sand grain surface, high temperature modify makes the film sintered firmly on sand grain surface. Thus it changes physical and chemical characteristics ... With the aid of XRD, SEM and EDS etc., there is absorbed film on sand grain surface, high temperature modify makes the film sintered firmly on sand grain surface. Thus it changes physical and chemical characteristics of the film and sand grain surface, improves the wetting properties greatly, makes the fracture features of bonding bridge change from the adhesive to the cohesive and raises the strength of sodium silicate-bonded sand. 展开更多
关键词 foundry silica sand high temperature modify sodium silicate-bonded sand STRENGTH
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Evaluation of soil microbial toxicity of waste foundry sand for soil-related reuse
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作者 Haifeng ZHANG Lu SU +3 位作者 Xiangyu LI Jiane ZUO Guangli LIU Yujue WANG 《Frontiers of Environmental Science & Engineering》 SCIE EI CAS CSCD 2014年第1期89-98,共10页
The relationship between the chemical con- taminants and soil microbial toxicity of waste foundry sand (WFS) was investigated. Five different types of WFS from typical ferrous, aluminum, and steel foundries in China... The relationship between the chemical con- taminants and soil microbial toxicity of waste foundry sand (WFS) was investigated. Five different types of WFS from typical ferrous, aluminum, and steel foundries in China were examined for total metals, leachable metals, and organic contaminants. The soil microbial toxicity of each WFS was evaluated by measuring the dehydrogenase activity (DHA) of a blended soil and WFS mixture and then comparing it to that of unblended soil. The results show that the five WFSs had very different compositions of metal and organic contaminants and thus exhibited very different levels of soil microbial inhibition when blended with soil. For a given WFS blended with soil in the range of 10wt.%-50wt.% WFS, the DHA decreased almost linearly with increased blending ratio. Furthermore, for a given blending ratio, the WFSs with higher concentrations of metal and organic contaminants exhibited greater microbial toxicity. Correlation analysis shows that the relationship between ecotoxicity and metal and organic contaminants of WFSs can be described by an empirical logarithmic linear model. This model may be used to control WFS blending ratios in soil-related applications based on chemical analysis results to prevent significant inhibition of soil microbial activity. 展开更多
关键词 waste foundry sand TOXICITY BIOASSAY soilmicrobial activity waste reuse
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A novel application of fluidization-Integrating three processes in reclaiming foundry sand
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作者 Derek Geldart Jim Lewis 《Particuology》 SCIE EI CAS CSCD 2010年第6期595-598,共4页
Immersion of automotive parts in a fluidized bed of foundry sand is used to both strip the castings free from moulding sand and to heat-treat the castings at 500℃. The fluid bed is heated by hot gases from a burner d... Immersion of automotive parts in a fluidized bed of foundry sand is used to both strip the castings free from moulding sand and to heat-treat the castings at 500℃. The fluid bed is heated by hot gases from a burner directed first into a serpentine heat exchanger located near one side-wall of the rectangular tank, and then into a distributor consisting of horizontal sparger pipes having maintenance standpipes fixed into their upper surfaces. 展开更多
关键词 Removal of moulding sand Castings Fluidized beds Heat transfer Foundries
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