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SHEET PILING
SHEET PILING WALLS
Cantilever sheetpiling walls depend on the passive resistingcapacity of the soil below the depth of excavation to prevent
overturning. The depth of sheetpiling walls below the bottom ofthe excavation are determined by using the difference between the passive and active pressures acting on the wall. The theoreticaldepth of pile penetration below the depth of excavation isobtained by equating horizontal forces and by taking momentsabout an assumed bottom of piling. The theoretical depth of
penetration represents the point of rotation of the piling. Additional penetration is needed to obtain some fixity for the piling. Computed piling depths are generally increased 20% to40% to obtain some fixity and to prevent lateral movement at the
bottom of the piling.
It is not within the scope of this text to go into great detail
concerning the design and analysis of sheet piling. A few of the more common situations complete with sample problems are presented on the following pages. A more adequate. and lengthydissertation with example problems can-be found in the USS SteelSheet Piling Design Manual.
The cohesive value of clay adjacent to sheet pile wallsapproaches zero with the passage of time. Design and analysisfor clay soil conditions must generally meet the conditions ofcohesionless soil design if the sheet piling support system is to
be in use for more than a month. For those few cases where aclay analysiswill be appropriate, reference is made to the USSSteel Sheet Piling Design Manual.
It is possible to have negative pressure values with cohesivesoils. Since cohesive soil adjacent to sheet pile walls losesits effective cohesion with the passage of time it is recommendedthat negative values be ignored. Do not use negative pressurevalues for the analysis of sheet piling systems. Any theoreticalnegative values should be converted to zero.
Friction:
The friction value at the soil-wall interface, or adhesion
between the clay and the wall, should be ignored with sheet piling walls when the walls are in close proximity to piledriving or other vibratory operations - including functionalrailroad tracks. Similarly, above the depth of excavation, thecohesive value of the clay of a combined clay-sand soil should beignored under the same circumstances.
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The NAVFAC figures assume that soil will be replaced over thefootings. When such is the case a factor of D/B (bottom offooting distance below ground surface divided by the footingwidth) may be used. When the bottom of footing is at grade no D/Bfactor is to be used. Good judgement will be needed to determine
an effective D/B value based on anticipated construction.The safety factor of 3 for footings recommended by NAVFAC isgenerally considered to be for permanent installations. Forshort term shoring conditions a safety factor of 2 might be used.
A reduced safety factor, however, could allow greater soilsettlement, which in turn would permit additional outward wallrotation. Therefore, when wall deflection or rotation is notdeemed critical a safety factor of 2 may be used for short term conditions.
Tieback Walls:
See the Chapter on TIEBACKS for analysis of any tieback systems.Tieback sheetpiling wall sample problems are included in thetieback chapter.
Sample Problems:
Sample problems are included in this chapter to demonstrate the principles of sheetpiling design for both cohesionless and forcohesive soils. Additional soil pressure diagrams which relateto sheet piling are presented in the section on soldier piles.
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CANTILEVER SHEET PILING - GRANULAR SOIL
FIGURE 8-l
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SHEET PILING
CANTILEVER SHEET PILING - GRANULAR SOIL (CONVENTIONAL METHOD)
Solve the two equations simultaneously for D (or use trial anderror methods).
In most real situations there will be some sort of surcharge present. Simplifying the resulting pressure diagrams (using-sound engineering judgement) should not alter the resultssignificantly and will make the problems much easier to resolve.The surcharge pressures can be added directly to the soil diagram or may be drawn separately. Passive resistance may be initiallyreduced by dividing KP by 1.5 to l.75, which will increase the
moment requirement; or alternatively increase the computed D by20% to 40% to fix the pile tips.
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CALIFORNIA TRENCHING AND SHORING MANUAL
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SHEET PILING
FIGURE 8-4
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SAMPLE PROBLEM 8-1: CANTILEVER SHEET PILING
This problem serves as a comparison between the Simplified Method(after Teng) and the conventional procedure when a surcharge loadis included.
Given:
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SHEET PILING
SIMPLIFIED METHOD
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CALIFORNIA TRENCHING AND SHORING MANUAL
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SHEET PILING
SAMPLE PROBLEM 8-2: STEEL SHEET PILING WITH RAKER
FIGURE 8-9
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Determine d1 by taking moments about T:
Determine T:
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SHEET PILING
Determine Maximum Moment And Section Modulus Required:
SHEAR DIAGRAM
FIGURE 8-10
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CALIFORNIA TRENCHING AND SHORING MANUAL
Check Wales: (WlO X 21)
Check Raker: (12 X 12 @ 6' Spacing)
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SHEET PILING
Check Corbel: (HP10 x 42)
Summary:
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CALIFORNIA TRENCHING AND SHORING MANUAL
CANTILEVER SHEET PILING - COHESIVE SOIL ( = 0 METHOD) *
FIGURE 8-11
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CANTILEVER SHEET PILING - COHESIVE SOIL (ALTERNATE METHOD)
FIGURE 8-12
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SAMPLE PROBLEM 8-3: CANTILEVER SHEET PILE WALL (CLAY)
FIGURE 8-13
FIGURE 8-14
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SHEET PILING
FIGURE 8-15
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Areas:
CALIFORNIA TRENCHING AND SHORING MANUAL
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SHEET PILING
Sample Problems 8-2 and 8-3 were reanalyzed using no surcharge below the excavation depth. A comparison of results for computeddepth and moment are tabulated below. This tabulation may be ofhelp in Checking computer results.
The following tabulation is for comparative purposes only:
Sample Problem 8-2
Sample Problem 8-3
Use Surcharge Below No Surcharge BelowExcavation Depth Excavation Depth
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CALIFORNIA TRENCHING AND SHORING MANUAL
The following tables furnish selected properties for varioussteel sheet piles.
TABLE 8-l
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SHEET PILING
UNITED STATES STEEL SHEET PILING
TABLE 8-l
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TABLE 8-l
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SHEET PILING
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CALIFORNIA TRENCHING AND SHORING MANUAL
ARBED Esch-Belval STEEL SHEET PILING
TABLE 8-l
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SHEET PILING
ARBED STEEL SHEET PILING
TABLE 8-l
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CALIFORNIA TRENCHING AND SHORING MANUAL
HOESCH STEEL SHEET PILING
TABLE 8-l
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FOSTER STEEL SHEET PILING
TABLE 8-l