Stress Distribution and all of its mysteries

Stress Distributionand all of its mysteries

I. The Bulb of Pressure Force

I. The Bulb of Pressure Force “what are the stresses at this point?”

(boo-sinn-esk) II. The Boussinesq EquationA. Goal: to determine the vertical and horizontal stresses under a point load in a homogeneous, isotropic medium. “Allows us to determine vertical and horizontal stresses at any point in space”

II. The Boussinesq EquationB. The Equation:

II. The Boussinesq EquationB. The Equation: Where v = Poisson’s Ratio (0.48)

6.71

If Poisson’s ratio is ~0.5, equations simplify to: σx = 3Px2z 2π R5 σy = 3Py2z 2π R5

Your turn: Vertical load of 2500 lb/ft2 Determine horizontal and vertical stresses at X= 5, Y= 2, Z = 6

Borrow & Fill Computations

Cut and Fill Slopes FHWA, 2004 FHWA, 2004

Proper OM & MD at time of compaction???

………………..Progressive Slope Failures Photo: Rick Wooten

Borrow Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Vv Vt

Borrow Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Ws = Dry Density (lbs/ft3) = Wet Density (lbs/ft3) 1 + moisture content (decimalform)

Borrow Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Ws = Dry Density (lbs/ft3) = Wet Density (lbs/ft3) 1 + moisture content (decimalform) Ws = Dry Density (lbs/ft3) = 106 lbs/ft3 1 + 0.15

Borrow Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Ws = Dry Density (lbs/ft3) = Wet Density (lbs/ft3) 1 + moisture content (decimalform) Ws = Dry Density (lbs/ft3) = 106 lbs/ft3 1 + 0.15 Ws = 92 lbs/ft3

Borrow Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Ws = Dry Density (lbs/ft3) = Wet Density (lbs/ft3) 1 + moisture content (decimalform) Ws = Dry Density (lbs/ft3) = 106 lbs/ft3 1 + 0.15 Ws = 92 lbs/ft3 Moisture Content = weight of water *100 weight of soil

Borrow Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Ws = Dry Density (lbs/ft3) = Wet Density (lbs/ft3) 1 + moisture content (decimalform) Ws = Dry Density (lbs/ft3) = 106 lbs/ft3 1 + 0.15 Ws = 92 lbs/ft3 Moisture Content = weight of water *100 weight of dry soil 15 = Ww *100 92 lbs/ft3

Borrow Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Ws = Dry Density (lbs/ft3) = Wet Density (lbs/ft3) 1 + moisture content (decimalform) Ws = Dry Density (lbs/ft3) = 106 lbs/ft3 1 + 0.15 Ws = 92 lbs/ft3 Moisture Content = weight of water *100 weight of soil 15 = Ww *100 92 lbs/ft3 Ww = 14 lbs/ft3

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vol Soil (Vs) = Ws Gs * γw

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vol Soil (Vs) = Ws = 92 lbs/ft3 Gs * γw (2.70)*(62.4 lbs)

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vol Soil (Vs) = Ws = 92 lbs/ft3 Gs * γw (2.70)*(62.4 lbs) Vs = 0.55 ft3

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vol Soil (Vs) = Ws = 92 lbs/ft3 Gs * γw (2.70)*(62.4 lbs) Vs = 0.55 ft3 Vol Voids (Vv) = Vt - Vs

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vol Soil (Vs) = Ws = 92 lbs/ft3 Gs * γw (2.70)*(62.4 lbs) Vs = 0.55 ft3 Vol Voids (Vv) = Vt - Vs Vv = 1 – 0.55 Vv = 0.45 ft3 (we will use this value later…)

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vv = 0.45 ft3 Vw = Ww = 14 lbs/ft3 γw 62.4 lbs

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vw = Ww = 14 lbs/ft3 γw 62.4 lbs Vw = 0.22 ft3

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vv = 0.45 ft3 Vol Air = Va = Vv – Vw

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vv = 0.45 ft3 Vol Air = Va = Vv – Vw Va = 0.45 – 0.22

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vol Air = Va = Vv – Vw Va = 0.45 – 0.22 Va = 0.23 ft3

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Vv = 0.45 ft3 Void Ratio (e) = Vv Vs

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Void Ratio (e) = Vv Vs = 0.45 0.55

Specific Gravity (Gs) = 2.70 (unitless) Unit Weight water (γw) = 62.4 lbs per ft3 Void Ratio (e) = Vv Vs = 0.45 0.55 e = 0.82

Fill Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Specific Gravity = 2.7 Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Vv Vt

Fill Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Specific Gravity = 2.7 Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Vv Vt Moisture Content = weight of water *100 weight of soil

Fill Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Specific Gravity = 2.7 Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Vv Vt Moisture Content = weight of water *100 weight of soil 9 = Ww *100 117 lbs/ft3

Fill Data: Wet density in situ = 106 lbs/ft3 Specific gravity = 2.70 Moisture Content = 15% Specific Gravity = 2.7 Proctor Results: OM = 9% MD = 117 lbs/ft3 (dry) Vv Vt Moisture Content = weight of water *100 weight of soil 9 = Ww *100 117 lbs/ft3 Ww = 10.5 lbs/ft3

Stress Distribution and all of its mysteries