岩土工程技术

Engineering Characteristics of Jiu Wei Ling Fault and Its Influence on Shenzhen Metro Line 5

Li Xinyuan

2019, 33(3): 125-129. doi: 10.3969/j.issn.1007-2993.2019.03.001

[Abstract](39) [PDF 2044KB](12)

Abstract:
Shenzhen Metro Line 5 passed through Jiu Wei Ling fault,which is one of the main faults of the northeast trerd at Shenzhen,there are multiple secondary faults and conjugate faults in the footwall of the main fault。The faults stability、the fault zone and the engineering geology and hydrogeological properties of the influence zone are the key factors for the selection and influence of the subway line。In this paper,the influence of the faults are analyzed in terms of its own stability,geostress,regional tectonic activity and the hydrologic characteristics of the faults zone on the Shenzhen Metro Line 5。It is provided that the fracture is stable,but rock masses break,joint fractures develop and permeability coefficient is large in the influence area,metro construction is liable to cause problems such as falling blocks,collapsing and water gushing,we should attach a great importance to it。This paper can be reference in similar engineering investigation and design。

Investigation and Design of Intake Field for Large Water Source in Lhasa River Basin

An Haitang, Yan Bo, Li Sanming

2019, 33(3): 130-133,182. doi: 10.3969/j.issn.1007-2993.2019.03.002

[Abstract](47) [PDF 1116KB](11)

Abstract:
In order to solve the problem of water supply in the Lhasa New District,it is necessary to set up a large riverside groundwater field in the Lhasa River.According to the regional hydrogeological conditions and the location of the proposed water source,hydrogeological survey,hydrogeological drilling,single hole and group hole pumping tests and other related tests work were carried out,and the hydrogeological parameters of the water source were obtained.According to the obtained parameters,the scheme of the water supply was arranged in a plane and space,and the water intake structures was designed.In the process of survey and design,the spatial layout of water intake structures,the problems in design and construction,and the protection of water source areas were analyzed and discussed,which provided some practical experiences for the construction of large water source areas in the Lhasa River Basin.

Discuss of Improved Technology of Anti-floaty Anchor Construction in Red-mudstone area

Jia Xinyuan, Yue Dachang, Li Ming, Tang Yangui

2019, 33(3): 134-137. doi: 10.3969/j.issn.1007-2993.2019.03.003

[Abstract](61) [PDF 6525KB](9)

Abstract:
Red-Mudstone is a special aggregation of rock and soil,during the construction of anti-floaty anchor in this kind of stratum,the red-mudstone has some bad characteristics,such as softening strength in water,forming plastic soil with high water content in the anchor hole after crushing,attaching mud to the hole wall and influencing the strength of anchor,forming dust polluted environment when entering the atmosphere,which often leads to disturbance of the bearing capacity of foundation soil,insufficient uplift bearing capacity of anchor rod and the industry environment is bad and so on.In view of the above problems,this paper improves the construction technology according to local conditions and the principles of green environmental protection,and verifies the feasibility of the improved technology through application examples.The improved antifloaty anchor construction technology has excellent popularization value,and can provide a certain reference for the construction of similar projects in the future.

Comprehensive Application of Various Methods in Quality Inspection of PHC pipe pile

Yang Chunliu

2019, 33(3): 138-142. doi: 10.3969/j.issn.1007-2993.2019.03.004

[Abstract](55) [PDF 1363KB](9)

Abstract:
low strain measurement method,static load test and intra-hole imaging method are briefly introduced about The principle、advantages and disadvantages.When the static load bearing capacity of multi-section PHC pipe piles differs greatly from the prediction results of survey parameters and there are doubts about the deep defects of the pipe pile,the lowstrain method cannot be clarified,and the intra-hole imaging method can be used to understand the depth and extent of defects to improve the reliability of the test results and explained them through engineering examples.Hope to provide reference for the design and defect processing of similar projects.

Stress and Deformation Characteristics of Singleuplift Piles in Loess Area

Liu Zengrong, Wang Mengdi, Liu Ming

2019, 33(3): 143-148. doi: 10.3969/j.issn.1007-2993.2019.03.005

[Abstract](48) [PDF 1555KB](9)

Abstract:
Based on field tests of uplift piles in loess area,the bearing characteristics of single section uplift piles were analyzed under vertical uplift loads by numerical simulation.The influence of pile length and pile concrete strength were discussed on Q-S curve,axial force and side friction of single uplift pile.Some references are provided for design and construction of uplift piles in loess area through this paper.

Analysis and Study of Deformation of Foundation Pit Excavation in Soft Soil Considering Time-space Effect

Chen Tao, Song Jing, Zhai Chao

2019, 33(3): 149-153,187. doi: 10.3969/j.issn.1007-2993.2019.03.006

[Abstract](107) [PDF 1542KB](13)

Abstract:
Based on a deep foundation pit project in Tianjin soft soil area,the in-situ monitoring data of deep horizontal displacement and vertical displacement of supporting pile,vertical displacement of the surrounding building and the surrounding ground are summarized in the process of foundation pit excavation,the change rules of them are analysed,the influences of the time-space effect are studied.The study results show that the foundation pit excavation have significant space-time effect on supporting piles and surrounding environment,the displacement occurs mainly in the stage of excavation,especially in the third stage of excavation,the increment of displacement is greater,the rate of change is faster,after the foundation pit floor construction is completed,the displacement tends to be stable;The deep horizontal displacement of the supporting pile shows the trend of “bulging”,the maximum displacement occurs near the excavation surface;The maximum surrounding surface displacement is located at the position of 6 m(0.51H) from the foundation pit,the displacement curve shows a basin shape,when the underground structure of foundation pit is completed,the maximum displacement occurs at the DB2-3 monitoring point,the displacement valueis -22.7 mm(about 0.19 H%);It is suggested that the pile-anchor retaining structure replaced the original design support form in the south and west side of the foundation pit,the research results can provide references for similar projects.

Design and Evaluation of Deep Foundation Pit Supporting Adjacent to the Building

Li Lingfeng, Liu Huancun, Wei Haitao

2019, 33(3): 154-157,172. doi: 10.3969/j.issn.1007-2993.2019.03.007

[Abstract](62) [PDF 2799KB](24)

Abstract:
This paper analyzes and summarizes a successful example of deep foundation pit project near a building in Beijing area.The combined design scheme of composite steel pipe pile and drilling pile is adopted to support the foundation pit,and effectively controls the deformation of the foundation pit and surrounding buildings.At the same time,the permeability of the surface soil of the pit is reduced by means of grouting on the side wall of the pit,which plays a role in preventing water from flowing into the pit.The feasibility of supporting and waterproof method is verified through the data of seepage test and foundation pit monitoring in the later stage,which provides references for similar projects.

Effect of Lateral Displacement of Supporting for Pit in Foundation Pit in Soft Soil Area

Li Lei

2019, 33(3): 158-161. doi: 10.3969/j.issn.1007-2993.2019.03.008

[Abstract](45) [PDF 931KB](8)

Abstract:
Based on the numerical analysis for effect of lateral displacement of supporting for pit in foundation in soft soil area,the influence of the distance is analysis between the inner and outer pits of a large pit on the horizontal deformation of the supporting structure under the two types of pits and gravity dams.The calculated results showed that the distance is the larger between the inner and outer pits,the horizontal displacement is the smaller of the outer pit,when the distance is greater than 2~3 times the pit depth,the horizontal deformation of the supporting structure can’t consider the influence of pit.The distance is the larger between the inner and the outer pits,the horizontal displacement is the smaller of the inner pit;Horizontal deformation of inner pit is affected by the stiffness of outer pit.The lateral displacement of inner supporting structure reduces with the increasing stiffness of outer supporting structure.

Study on Influence Parameters of Embankment Displacement and Stress in Slope Subgrade Slope

Wei Peishun

2019, 33(3): 162-165,177. doi: 10.3969/j.issn.1007-2993.2019.03.009

[Abstract](38) [PDF 993KB](7)

Abstract:
The finite element numerical models of slope embankment slope are established by the analysis software ANSYS,and the influence of different embankment slope,foundation slope,embankment height and embankment width are simulated and analyzed with the displacement and stress of embankment.The results show that:1)the slope gradient of slope embankment has little influence on the displacement and stress of embankment,and it is suggested that the slope gradient of embankment should be chosen in the range of 1:1.3~1:1.7;2)with theincrease of slope,the displacement and shear stress of embankment increase first and then decrease.It is suggested that the slope gradient of slope is less than 1:4.5;3)with the height of embankment increasing,the displacement of embankment increased.The maximum shear stress decreases first and then increases.It is suggested that the height of embankment can be chosen of 18~22 m in actual construction;4)the displacement and stress of the slope embankment increase with the increase of the width of the roadbed,and it is suggested that the width of the embankment should not exceed 20 m in practical engineering.

Comparative Study on Determining Method of Vertical Bearing Capacity of Single Bored Pile in a Project in Wuhan

Liu Tao, Liu Huancun, Sun Fengling

2019, 33(3): 166-172. doi: 10.3969/j.issn.1007-2993.2019.03.010

[Abstract](66) [PDF 1449KB](9)

Abstract:
based on the existing inspection technical specification of building piles and the pile foundation engineering manual,The vertical bearing capacity R_a of single pile of bored pile is determined by vertical ultimate bearing capacity Q_u of pile or settlement of pile top s.The determination method of vertical ultimate bearing capacity Q_u of single pile is mainly based on vertical load-settlement(Q-s) curve,settlement-time logarithm (s-lg t) curve and settlement-vertical load logarithm (s-lgQ) curve.The value of pile top settlement s is determined by pile foundation engineering manual and design requirements.Through these four methods,there are differences in the determination results of vertical bearing capacity of single bored pile.According to the inspection technical specification of building piles and the pile foundation engineering manual,analyzing and comparing the different vertical bearing capacity R_a of single pile determined by four methods,a method is proposed of judging the vertical bearing capacity of single bored pile by using(Q-s) and(s-lg t) curves,which provides a reference method for determining the vertical bearing capacity of similar bored pile in the future.

Discussion on Relevant Problems in Application of TEM in Urban Geological Survey

Liu Yongsheng, Long Taocheng, Liu Renyi

2019, 33(3): 173-177. doi: 10.3969/j.issn.1007-2993.2019.03.011

[Abstract](59) [PDF 1257KB](10)

Abstract:
Urban geology is a basic geological work that serves urban planning,construction and management.Due to time and space conditions,many Geological exploration methods are difficult to take function.TEM has a good application in urban Geological Survey due to its high transverse resolution,strong anti-interference ability,low terrain impact,high efficiency,and large detection depth.The effectiveness of TEM is discussed through the application example.

Construction Technology and Uplift Capacity Test of Anti-floating Anchor in Chengdu Soft Rock Foundation

Tang Yangui, Yue Dachang, Chen Xiaowu, Li Ming

2019, 33(3): 178-182. doi: 10.3969/j.issn.1007-2993.2019.03.012

[Abstract](47) [PDF 7188KB](9)

Abstract:
Anchorage diameter and interface characteristics of soil-anchorage body are critical factors to affect the ultimate bearing capacity of anti-floating anchor.The rotary jet grouting anchors are constructed and the cycle loading pullout tests of anchors are conducted in the layer of soft rock.The test results show that anchors’failure mode has the process of rebar yielded first,then pulled out and anchorage body drawing breakage.The ultimate bearing capacity value of anchors is more than 900k N,which can meet the requirment of practical engineering.

Analysis on Residual Strength of Direct Shear Test of Rock

Liu Jun

2019, 33(3): 183-187. doi: 10.3969/j.issn.1007-2993.2019.03.013

[Abstract](62) [PDF 3409KB](14)

Abstract:
Basis on Tangshan Maastricht iron ore rock tests,rock residual shear strength are analyzed in this paper,the relationship is explored between rock shear peak strength and residual strength,and the influence factors are analysed about rock shear strength of residual,it provides a reference by the residual shear strength of rock.

2019 Vol. 33, No. 3