Experimental study of salt-resisting slurry for undersea shield tunnelling

•XG improved the filtration and rheology of seawater mixing slurry.•In 100% seawater condition, the XG content should be controlled at 0.3% in mass.•Seawater slurries with 0.3% XG added have good penetration effects in the strata. For undersea shield tunnelling projects, selection of a suitable slur...

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Veröffentlicht in:	Tunnelling and underground space technology 2020-04, Vol.98, p.103322, Article 103322
Hauptverfasser:	Cui, Wei, Liu, Dong, Song, Hui-fang, Zhang, She-rong, He, Sun-wen
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Sprache:	eng
Schlagworte:	Bentonite Electrolytes Filter cake Laboratory tests Mixing proportion of slurry Penetration test Properties (attributes) Salt-resisting slurry Seabed slurry shield Seawater Slurries Slurry infiltration Strata Tunneling shields Tunnels Underground construction Undersea Water loss Xanthan Xanthan gum
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creator	Cui, Wei Liu, Dong Song, Hui-fang Zhang, She-rong He, Sun-wen
description	•XG improved the filtration and rheology of seawater mixing slurry.•In 100% seawater condition, the XG content should be controlled at 0.3% in mass.•Seawater slurries with 0.3% XG added have good penetration effects in the strata. For undersea shield tunnelling projects, selection of a suitable slurry ingredient is a challenging issue due to the presence of massive ions. As a result it may be adverse for the formation of filter cake at the tunneling face, which would lead to a face instability. Using xanthan gum (XG) as an addictive to traditional sodium bentonite slurries was proposed in this paper. SEM images revealed that XG utilize its ‘wrapping effect’ to effectively alleviate the decrease in the Russian funnel viscosity caused by electrolytes present in seawater and to improve the control of water loss. The influences of XG contents on slurry properties under different salty water conditions were explored through a series of laboratory tests. When the seawater content exceeds 30%, the change in XG content required to maintain the basic properties of the mud is insensitive to increase in seawater content. The quality of filter cake and infiltration features of the developed slurries under medium coarse sand and fully-weathered rock strata conditions were evaluated through slurry infiltration tests. It was found that the bentonite water ratio is mainly related to the properties of the strata, and XG content is determined by the seawater content.
doi_str_mv	10.1016/j.tust.2020.103322
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For undersea shield tunnelling projects, selection of a suitable slurry ingredient is a challenging issue due to the presence of massive ions. As a result it may be adverse for the formation of filter cake at the tunneling face, which would lead to a face instability. Using xanthan gum (XG) as an addictive to traditional sodium bentonite slurries was proposed in this paper. SEM images revealed that XG utilize its ‘wrapping effect’ to effectively alleviate the decrease in the Russian funnel viscosity caused by electrolytes present in seawater and to improve the control of water loss. The influences of XG contents on slurry properties under different salty water conditions were explored through a series of laboratory tests. When the seawater content exceeds 30%, the change in XG content required to maintain the basic properties of the mud is insensitive to increase in seawater content. The quality of filter cake and infiltration features of the developed slurries under medium coarse sand and fully-weathered rock strata conditions were evaluated through slurry infiltration tests. 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For undersea shield tunnelling projects, selection of a suitable slurry ingredient is a challenging issue due to the presence of massive ions. As a result it may be adverse for the formation of filter cake at the tunneling face, which would lead to a face instability. Using xanthan gum (XG) as an addictive to traditional sodium bentonite slurries was proposed in this paper. SEM images revealed that XG utilize its ‘wrapping effect’ to effectively alleviate the decrease in the Russian funnel viscosity caused by electrolytes present in seawater and to improve the control of water loss. The influences of XG contents on slurry properties under different salty water conditions were explored through a series of laboratory tests. When the seawater content exceeds 30%, the change in XG content required to maintain the basic properties of the mud is insensitive to increase in seawater content. The quality of filter cake and infiltration features of the developed slurries under medium coarse sand and fully-weathered rock strata conditions were evaluated through slurry infiltration tests. 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For undersea shield tunnelling projects, selection of a suitable slurry ingredient is a challenging issue due to the presence of massive ions. As a result it may be adverse for the formation of filter cake at the tunneling face, which would lead to a face instability. Using xanthan gum (XG) as an addictive to traditional sodium bentonite slurries was proposed in this paper. SEM images revealed that XG utilize its ‘wrapping effect’ to effectively alleviate the decrease in the Russian funnel viscosity caused by electrolytes present in seawater and to improve the control of water loss. The influences of XG contents on slurry properties under different salty water conditions were explored through a series of laboratory tests. When the seawater content exceeds 30%, the change in XG content required to maintain the basic properties of the mud is insensitive to increase in seawater content. The quality of filter cake and infiltration features of the developed slurries under medium coarse sand and fully-weathered rock strata conditions were evaluated through slurry infiltration tests. It was found that the bentonite water ratio is mainly related to the properties of the strata, and XG content is determined by the seawater content.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.tust.2020.103322</doi></addata></record>
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subjects	Bentonite Electrolytes Filter cake Laboratory tests Mixing proportion of slurry Penetration test Properties (attributes) Salt-resisting slurry Seabed slurry shield Seawater Slurries Slurry infiltration Strata Tunneling shields Tunnels Underground construction Undersea Water loss Xanthan Xanthan gum
title	Experimental study of salt-resisting slurry for undersea shield tunnelling
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