期刊文献+

Hydraulic and mechanical properties of wax-coated sands

Hydraulic and mechanical properties of wax-coated sands
下载PDF
导出
摘要 Wax-coated sands are a new category of synthetic soils, which are gradually becoming a reliable construction material. Because of their valuable drainage ability and mechanical properties, wax coated sandy soils are specifically applicable to pavement construction of horseracing tracks and sport fields. Although the mechanical and hydraulic properties of these synthetic soils are well-proven, there is still a lack of studies on how the soil samples behave differently when mixing with different wax fractions. Adding the wax affects permeability and compressibility of pure sand. Intensity of influences is a function of weight percentage of wax that has been added, and other physical and environmental factors. The effects of wax content on hydraulic properties(permeability), and mechanical properties(stress strain behavior, compressibility) of sandy soils based on a series of experimental efforts were investigated. Obtained experimental results infer that increasing the amount of wax up to 6% causes an about 50% increase in permeability, mainly because of the significant effect of wax in lowering the friction along with covering and filling the angular parts of particles' surfaces and forming rounded particles. In addition, wax-coated sands show a 20% to 60% decrease in confined compression modulus compared to non wax-coated sands. Wax-coated sands are a new category of synthetic soils, which are gradually becoming a reliable construction material. Because of their valuable drainage ability and mechanical properties, wax coated sandy soils are specifically applicable to pavement construction of horseracing tracks and sport fields. Although the mechanical and hydraulic properties of these synthetic soils are well-proven, there is still a lack of studies on how the soil samples behave differently when mixing with different wax fractions. Adding the wax affects permeability and compressibility of pure sand. Intensity of influences is a function of weight percentage of wax that has been added, and other physical and environmental factors. The effects of wax content on hydraulic properties (permeability), and mechanical properties (stress-strain behavior, compressibility) of sandy soils based on a series of experimental efforts were investigated. Obtained experimental results infer that increasing the amount of wax up to 6% causes an about 50% increase in permeability, mainly because of the significant effect of wax in lowering the friction along with covering and filling the angular parts of particles' surfaces and forming rounded particles. In addition, wax-coated sands show a 20% to 60% decrease in confined compression modulus compared to non wax-coated sands.
出处 《Journal of Central South University》 SCIE EI CAS 2013年第12期3667-3675,共9页 中南大学学报(英文版)
关键词 wax-coated sand confined compression coefficient PERMEABILITY COMPRESSIBILITY stress-strain behavior 机械性能 液压性能 涂蜡 覆砂 沙质土壤 压缩弹性模量 可压缩性 实验工作
  • 相关文献

参考文献10

  • 1BARDET J P,BENAZZA C,BRUCHON J F,MISHRA M. Mechanical and hydraulic properties of wax-coated sands for sport surfaces[A].Golden,Colorado:American Institute of Physis,2009.792-795.
  • 2BARDET J P,JESMANI M,JABBARI N. Effects of compaction on shear strength of wax-coated sandy soils[J].Electronic Journal of Geotechnical Engineering,2011,(Bundle D):451-461.
  • 3WILKINSON A,HAQUE A,KODIKARA J,ADAMSON K CHRISTIE D. Improvement of problematic soils by lime slurry pressure injection:case study[J].{H}JOURNAL OF GEOTECHNICAL AND GEOENVIRONMENTAL ENGINEERING,2010,(10):1459-1468.
  • 4BARDET J P. Synthetic surfaces 101[R].Santa Anita Park:California Horse Racing Board Hearing,2008.
  • 5HALLETT P D,GORDON D C,BENGOUGH A G. Plant influence on rhizosphere hydraulic properties:Direct measurements using a miniaturised infiltrometer[J].{H}New Phytologist,2003,(03):597-603.
  • 6HALLETT P D. An introduction to soil water repellency[A].Columbus,Ohio,USA:ISAA,2007.
  • 7TILLMAN R W,SCOTTER D R,WALLIS M G,CLOTHIER B E. Water-repellency and its measurement by using intrinsic sorptivity[J].{H}Australian Journal of Soil Research,1989,(04):637-644.
  • 8VINOGRADOVA O L. Drainage of a thin liquid film confined between hydrophobic surfaces[J].{H}LANGMUIR,1995,(06):2213-2220.
  • 9RITSEMA C J,DEKKER L W,NIEBER J L,STEENHUIS T S. Modeling and field evidence of finger formation and finger recurrence in a water repellent sandy soil[J].{H}Water Resources Research,1998,(04):555-567.doi:10.1029/97WR02407.
  • 10MITTAL B,YI H,PURI V M,McNITT A S MANINO C F. Bulk Mechanical behavior of rootzone sand mixtures as influenced by particle shape,moisture and peat[J].{H}PARTICLE & PARTICLE SYSTEMS CHARACTERIZATION,2004,(04):303-309.

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部