Dequan Kong scite author profile

Dequan Kong

4Publications

17Citation Statements Received

11Citation Statements Given

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Affiliations

Xi'an University of Architecture and Technology, Chang'an University, Xi'an University of Science and Technology

Publications

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Study on Restoration Materials for Historical Silty Earthen Sites Based on Lime and Starch Ether

Kong

Chen

Wan

et al. 2020

Advances in Materials Science and Engineering

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The relics built with soil are called earthen archaeological sites. Many silt earthen sites exposed to natural environment get seriously damaged and thus require urgent restoration with suitable materials. Previously, lime and glutinous rice slurry were used in the construction of earthen sites. However, lime is usually used in clay, and glutinous rice pulp is difficult to prepare and use on a large scale. Therefore, in this study, starch ether was selected to replace glutinous rice pulp. Lime and starch ether were added to silt as single or double additives, respectively, to prepare the corresponding single-mixed and multiple-mixed modified soil samples. Furthermore, the direct shear test and compression test were carried out and the optimum content was determined. The strength and durability of optimum modified materials were compared with those of the original site soil. When the lime content was 9% or the concentration of starch ether solution was 5%, the shear strength and compression resistance ability of single-mixed modified soil were improved significantly. When lime content was 6% and starch ether solution was 5%, the strength of multiple-mixed modified soil was the best, and the maximum cohesion and internal friction angle were 51.1 and 3.37% higher than those of single-mixed soil, respectively. The strength and durability of the optimum modified soil were similar to or higher than those of the site soil. Thus, it is feasible and effective to use lime together with starch ether as restoration material for silty earthen sites.

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Effect of gradation on the thermal conductivities of backfill materials of ground source heat pump based on loess and iron tailings

Kong

Wan

Chen

et al. 2020

Applied Thermal Engineering

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The study on engineering characteristics and compression mechanisms of typical historical earthen site soil

Kong

Wan

Chen

et al. 2019

Construction and Building Materials

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Analysis on Influencing Factors of Indoor Air Quality and Measures of Improvement on Modern Buildings

Kong

2008

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Dequan Kong

Study on Restoration Materials for Historical Silty Earthen Sites Based on Lime and Starch Ether

Effect of gradation on the thermal conductivities of backfill materials of ground source heat pump based on loess and iron tailings

The study on engineering characteristics and compression mechanisms of typical historical earthen site soil

Analysis on Influencing Factors of Indoor Air Quality and Measures of Improvement on Modern Buildings

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