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Foundations Excavations

Foundations Excavations. ARCH 330 Fall 2008. Yes, I was a stud. The Function of a Foundation. Foundations.

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Foundations Excavations

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  1. FoundationsExcavations ARCH 330 Fall 2008

  2. Yes, I was a stud.

  3. The Function of a Foundation

  4. Foundations Foundation Engineering- Evaluating the ability to support a given structural load and designing the substructure or transition member needed to support the construction. To transfer the structural loads safely into the ground. This means dealing with forces and soil pressures. The need for deep excavations.

  5. Foundations • Spread Footings • Proper compaction under the footing • Driven Piles • Types of piles • Wood • Concrete • Steel • Composite -Pile Drivers • Drop Hammer • Mechanical- Hydraulic, diesel, steam • Vibratory • Caissons or Drilled Shafts • Cofferdams

  6. Review Plans & Specifications • Consistency with geotechnical report • Reduce confusion during construction • Without Differing Site Conditions clause contractor responsible • Read the report in response to what is underground. • Understand prescribed method, consistency with soils report • Site Investigations • Environmental restrictions • Site conditions at each and every location • The report has pertinent information- follow it. • Compaction testing • Understanding moisture content • Proper proctor

  7. Geotechnical StudiesSoils Report • Buildings • Retaining Walls • Bridges • Roadways • Landslides • Forensic Investigations

  8. Importance of Geotechnical Studies • Provide efficient foundations systems • Improve bid accuracy • Reduce change orders • Reduce long term problems

  9. Geotechnical/Soils ReportsRecommendations • Suitability of on site soil for structural fill • Bearing capacity • Foundation type • Lateral earth pressures • Pavements • Drainage • Seismic

  10. Steps for Geotechnical Study • Explore site conditions • Perform lab testing • Perform engineering analysis • Prepare report • Assist with plans and specifications • Construction observations

  11. Soil Report • Borings or test pits • To lab for: • Moisture content • Gradations • Proctor test • Consolidation, direct shear, triaxial

  12. Pile & Pile Driving • Site Investigation • Type & weight of structure • Soil properties • Depth of stratum • Variations of stratum depth • Availability of piling type • Availability of pile driver • Availability of experience in driving pile

  13. Pile & Pile Driving (Site Investigation cont) • Comparative placement cost • EPA & OSHA regulations • Depth of excavation for placement of equipment ie building footing • Location of piling ie river, lake, ocean • Noise & Vibration • Adjacent structures

  14. Pile & Pile Driving Piling Types Wood Pile Precast Concrete Pile Steel H-Pile Steel Pipe Pile Composite Piles (Please review page 571-594)

  15. Pile & Pile Driving • Pile Caps & Grade Beams • Piles are clustered then caped • Number of piles per cap are determined by the load bearing capacity of the soil. • From the cap comes a column or bent. • Piles can be connected by grade beams

  16. Pile & Pile Driving Pile Drivers • Drop Hammers • Single/Double-Acting Steam • Hydraulic • Diesel Hammers • Vibratory Pile Drivers

  17. Caisson or CofferdamWhat’s the difference? • Caisson- Boring or drilling a hole and filling with concrete. • Cofferdam- A temporary boxlike structure used to hold back water or earth while work is being done inside it.

  18. EXCAVATION • HORIZONTAL & VERTICAL LAYOUT • BEGIN EXCAVATION • SWELL AND SOIL TYPES • UNSUITABLE SOIL • STRUCTURAL FILL • SITE DRAINAGE • DEWATERING • COMPACTION • BACKFILL • SAFETY • MECHANICAL & ELECTRICAL

  19. Excavation Wall Bracing No matter what restraining system is used to stabilize the sides of an excavation, the walls will have to be braced against lateral pressures exerted by the surrounding soil and water. • Shoring for trenches (trench boxes) • Lateral forces surrounding the structure • Slope back • Different shoring systems • Tiebacks (rock and earth)

  20. Protection of ExcavationsLateral ForcesDeep Excavations • Slope Back-Usually 2:1, The angle of repose at which a soil material will stand without moving • Interlocking Sheet Piling • Steel Soldier Piles-H beam with lagging • Concrete Slurry walls-Shotcrete (pneumatically projected at high velocity onto a surface)

  21. Other piling terminology Battered pile- A pile driven somewhat at an angle so as to resist horizontal forces. Kelly bar- The equipment on the pile driver that determines the height of the pile to drive.

  22. EXCAVATION

  23. Terminology In the industry terms can mean different things. Toe- (1) Any protection from the base of a construction or object to give it increased bearing and stability. (2)That portion of sheeting below the excavated material. (3) To drive a nail at an oblique angle. (4) The junction between the base metal and the face of a filled weld. (5) The part of the base of a retaining wall that projects beyond the face away from the retained material.

  24. Excavation • Need for Deep Foundations • Removing ground water or dewatering • Amount of material to be removed • Soil swell percentage • For removal and replace • Tons to cubic yards • Protection of Excavation • Sheet Piling • Soldier Piles • Concrete Slurry Walls • Excavation Wall Bracing • Slope back • Shoring • Tiebacks

  25. Foundation Sequencing Drive Piling- Excavate> >[Slope protection/shoring system]> Layout Piles>Drive Piles>Cut off piles>Fine grade/Compact>Structural Fill>Backfill to follow foundation system Drilled Piling (concrete)- Excavate> >[Slope protection/shoring system]> Layout Piles>Auger piling>Fabricate Cage>Set reinforcing cage>Pour concrete pile>Fine grade/Compact>Structural Fill>Backfill to follow foundation system Spread Footings-Excavate>[Slope protection/shoring system]>Layout>Fine grade/Compact>Structural Fill>Backfill to follow foundation system

  26. EXCAVATION

  27. EXCAVATION • TABLE V:2-1. ALLOWABLE SLOPES.Soil typeHeight/Depth ratioSlope angle Stable RockVertical90°Type A¾:153°Type B1:145°Type C1½:134°Type A (short-term)½:163°(For a maximum excavation depth of 12 ft)

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