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Contents of the General Principles of Prestressed Concrete PDF

List of 19 General Principles of Prestressed Concrete Formulas

Compressive Stress due to External Moment
Creep Coefficient in European Code
Cross Sectional Area given Compressive Stress
Empirical Formula for Secant Modulus Proposed by Hognestad in ACI Code
Empirical Formula for Secant Modulus Proposed by Jensen
Empirical Formula for Secant Modulus using ACI Code Provisions
External Moment with Known Compressive Stress
Instantaneous Strain given Cc
Length of Span given Uniform Load
Prestressing Force given Compressive Stress
Prestressing Force given Uniform Load
Resulting Stress due to Moment and Prestress and Eccentric Strands
Resulting Stress due to Moment and Prestressing Force
Sag of Parabola given Uniform Load
Stress due to Prestress Moment
Total Strain
Total Strain given Creep Coefficient
Uniform Compressive Stress due to Prestress
Upward Uniform Load using Load Balancing Method

Variables used in General Principles of Prestressed Concrete PDF

  1. A Area of Beam Section (Square Millimeter)
  2. e Distance from Centroidal Geometric Axis (Millimeter)
  3. Ec Secant Modulus (Megapascal)
  4. f Bending Stress in Section (Megapascal)
  5. F Prestressing Force (Kilonewton)
  6. fc' Cylinder Strength (Megapascal)
  7. Ia Moment of Inertia of Section (Millimeter⁴)
  8. L Span Length (Meter)
  9. Ls Sag Length of Cable (Meter)
  10. M External Moment (Kilonewton Meter)
  11. Mb Bending Moment in Prestress (Kilonewton Meter)
  12. wb Uniform Load (Kilonewton per Meter)
  13. wm Unit Weight of Material (Kilonewton per Cubic Meter)
  14. y Distance from Centroidal Axis (Millimeter)
  15. δc Creep Strain
  16. δi Instantaneous Strain
  17. δt Total Strain
  18. σc Compressive Stress in Prestress (Pascal)
  19. Φ Creep Coefficient

Constants, Functions and Measurements used in General Principles of Prestressed Concrete PDF

  1. Function: sqrt, sqrt(Number)
    A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.
  2. Measurement: Length in Millimeter (mm), Meter (m)
    Length Unit Conversion
  3. Measurement: Area in Square Millimeter (mm²)
    Area Unit Conversion
  4. Measurement: Pressure in Megapascal (MPa), Pascal (Pa)
    Pressure Unit Conversion
  5. Measurement: Force in Kilonewton (kN)
    Force Unit Conversion
  6. Measurement: Surface Tension in Kilonewton per Meter (kN/m)
    Surface Tension Unit Conversion
  7. Measurement: Moment of Force in Kilonewton Meter (kN*m)
    Moment of Force Unit Conversion
  8. Measurement: Specific Weight in Kilonewton per Cubic Meter (kN/m³)
    Specific Weight Unit Conversion
  9. Measurement: Second Moment of Area in Millimeter⁴ (mm⁴)
    Second Moment of Area Unit Conversion

Free General Principles of Prestressed Concrete PDF

Get Free General Principles of Prestressed Concrete PDF for Download today. Examples are included after each Formula with a link to a live Calculator! All the Formulas and Calculators support Unit Conversion as well. This PDF features 19 calculators from Structural Engineering. Inside, you'll discover a list of formulas such as Uniform Compressive Stress due to Prestress, Prestressing Force given Compressive Stress and 19 more formulas!. The Variables, Functions and Constants are summarized at the end. Explore and share General Principles of Prestressed Concrete PDFs!

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