ABSTRACT
A must have reference for any engineer involved with foundations, piers, and retaining walls, this remarkably comprehensive volume illustrates soil characteristic concepts with examples that detail a wealth of practical considerations, It covers the latest developments in the design of drilled pier foundations and mechanically stabilized earth reta
TABLE OF CONTENTS
chapter |2 pages
OF SOILS
APPROXIMATE VALUES CONDUCTIVITY HYDRAULIC CONDUCTIVITY STRATIFIED LAYERS Horizontal Direction (Fig.
chapter |1 pages
direction, determine the equivalent permeability for both the cases by assuming that the thickness of each layer is equal to 150 em. Use Eq. (4.13)
28x500 20 2.3x4x5 28x15 20
chapter |1 pages
Example of of
----;- VERTICAL STRESS BENEATH LOADED AREAS IRREGULAR SHAPE Newmark's Influence Chart
chapter |1 pages
Settlement Calculation from e-Iog
Curve Overconsolidated Clay Soil Settlement Computation, (Fig. 7.9(b)} og-+--
chapter |2 pages
Example
points normally consolidated clay following coordinates. Point 20891b/ft Point Ib/ft average overburden pressure thick layer Ib/ft settlement layer experience induced stress of Ib/ft middepth. (7.4) 0.7-0.6 =0.21 (6266/2089) initial ratio pressure Ib/ft (6266/3133) 0.063
chapter 8|1 pages
10 MOHR CIRCLE OF STRESS WHEN A PRISMATIC ELEMENT IS SUBJECTED TO NORMAL AND SHEAR STRESSES
CIRCLE OF STRESS SUBJECTED SHEAR STRESSES '(:'\ ;"",},;; ~----Ol----~
chapter |6 pages
of of of
Determination Normal Shear Stresses Plane AA [Fig. 8.8(a)] CIRCLE OF STRESS CYLINDRICAL SPECIMEN COMPRESSION
chapter 8|1 pages
34 When a triaxial compression test was conducted on a soil specimen, it failed at axial
Compute strength terms plane within point where normal stress water pressure effective stress parameters effective stress parameters fully saturated clay are known 3151b/ft
chapter |6 pages
SPT VALUES RELATED TO RELATIVE DENSITY OF
VALUES RELATED TO RELATIVE DENSITY COHESIONLESS SOILS (9.8) VALUES RELATED TO CONSISTENCY OF CLAY' SOIL
chapter |1 pages
Extension of the Stability of e'lyH
Bishop Morgenstern Slope Charts Method Determining Example 10.12
chapter |1 pages
From Eq. (11.15) P yH2K xI9x8
x3=1824kN/m -1824 760kN 11.15 PROBLEMS shows a rigid retaining prevented movements. Determine lateral thrust at-rest condition and point resultant force. 11.1, determine active earth pressure distribution following cases:
chapter 13|2 pages
10
ELASTIC SETTLEMENT BENEATH THE CORNER OF UNIFORMLY LOADED FLEXIBLE AREA BASED ELASTICITY
chapter 13|1 pages
11
JANBU, BJERRUM AND KJAERNSLI'S METHOD DETERMINING ELASTIC SETTLEMENT UNDER UNDRAINED CONDITIONS ----r-----r------.
chapter |1 pages
Problems be Considered in the Design a Floating Foundation of
Considered Design Floating Foundation
chapter 15|1 pages
22 to uplift r---.....--_r---_r-------,,-------,------,
t----t__--t__-_I------II------If-----=-...
part |1 pages
PART B-PILE
chapter |5 pages
Fixed-head Pile > <
(16.18) Ultimate Lateral Resistance Piles in Saturated Cohesive Soils .....-- ---,..
chapter 17|2 pages
9 t/ft
BEARING CAPACITY EQUATIONS FOR THE BASE IN COHESIVE SOIL Undrained Shear Strength,
chapter |4 pages
'd¢'
0.045...------.,..----...,..--- 0.015...-----,,----.,..--- t---I----t------iIo'''"''------t
chapter 70|1 pages
,---,.------,r------,----,.--....,.----t'"'----.-----.-----,----
t----+-----1t---I----1----+---f-----+---+----+-----I----I
part |1 pages
PART B-MECHANICALLY
chapter |2 pages
2x30x5.3m-40
=4.63m ANCHORED BULKHEAD: FREE-EARTH SUPPORT DEPTH EMBEDMENT ANCHORED SHEET PILES IN GRANULAR SOILS
chapter |3 pages
,...---..,....--....,..----..-------
...-----+----+---____4-------::::j 1-----+-----+---____4--_____1 ,.----...,.---....,..-----r---....---
chapter |1 pages
Ultimate Lateral Resistance of Vertical Anchor Plates in Sand of of
0-+-------+-------+-------+-------+----
chapter 20|4 pages
13 Solve the 20.12 with the following data: = 24 ft, = ft, and Soil properties: = 32°, Y = Ib/ft The soil above the water table is also saturated.
properties: Ib/ft The water table 20.14 Figure 20.14 gives penetrating clay. backfill sand. following given: sand· Ib/ft
chapter 0|1 pages
method 380
Morgenstern method slices method, conventional Unconfined aquifer Spencer method Unconfined compressive strength Taylor's stability number related consistency Standard penetration Uplift pressure