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   Loss due to Elastic Shortening  PDF
Formulas : 22
Size : 377 kb
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Contents of the Loss due to Elastic Shortening PDF

List of 22 Loss due to Elastic Shortening Formulas

Area of Concrete Section given Prestress Drop
​Go
Average Stress for Parabolic Tendons
​Go
Change in Eccentricity of Tendon A due to Parabolic Shape
​Go
Change in Eccentricity of Tendon B due to Parabolic Shape
​Go
Component of Strain at Level of First Tendon due to Bending
​Go
Initial Prestress given Prestress after Immediate Loss
​Go
Initial Strain in Steel for Known Strain due to Elastic Shortening
​Go
Modular Ratio given Prestress after Immediate Loss
​Go
Prestress Drop
​Go
Prestress Drop given Initial Prestress Force
​Go
Prestress Drop given Modular Ratio
​Go
Prestress Drop given Pressure after Immediate Loss
​Go
Prestress Drop given Strain due to Bending and Compression in Two Parabolic Tendons
​Go
Prestress Drop given Stress in concrete at Same Level due to Prestressing Force
​Go
Prestress Drop when Two parabolic Tendons are Incorporated
​Go
Prestressing Force after Immediate Loss given Initial Prestress
​Go
Residual Strain in Steel for Known Strain due to Elastic Shortening
​Go
Strain in Concrete due to Elastic Shortening
​Go
Stress in Concrete given Prestress Drop
​Go
Transformed Area of Prestress Member for Known Pressure Drop
​Go
Variation of Eccentricity of Tendon B
​Go
Variation of Eccentricity on Tendon A
​Go

Variables used in Loss due to Elastic Shortening PDF

  1. Ac Concrete Occupied Area (Square Meter)
  2. APre tension Pre-Tensioned Area of Concrete (Square Millimeter)
  3. APretension Transformed Section Area of Prestress (Square Millimeter)
  4. EA(x) Eccentricity Variation of Tendon A (Millimeter)
  5. eA1 Eccentricity at End for A (Millimeter)
  6. eA2 Eccentricity at Midspan for A (Millimeter)
  7. EB(x) Eccentricity Variation of Tendon B (Millimeter)
  8. eB1 Eccentricity at End for B (Millimeter)
  9. eB2 Eccentricity at Midspan B (Millimeter)
  10. Econcrete Modulus of Elasticity Concrete (Megapascal)
  11. Es Modulus of Elasticity of Steel Reinforcement (Megapascal)
  12. fc,avg Average Stress (Megapascal)
  13. fc1 Stress at End (Megapascal)
  14. fc2 Stress at Midspan (Megapascal)
  15. fconcrete Stress in Concrete Section (Megapascal)
  16. L Length of Beam in Prestress (Meter)
  17. mElastic Modular Ratio for Elastic Shortening
  18. PB Prestress Force (Kilonewton)
  19. Pi Initial Prestress Force (Kilonewton)
  20. Po Prestressing Force after Loss (Kilonewton)
  21. x Distance from Left End (Millimeter)
  22. ΔeA Change in Eccentricity at A (Millimeter)
  23. ΔeB Change in Eccentricity B (Millimeter)
  24. ΔfDrop Drop in Prestress (Megapascal)
  25. Δfp Prestress Drop (Megapascal)
  26. ΔL Change in Length Dimension (Meter)
  27. Δεp Change in Strain
  28. εc Concrete Strain
  29. εc1 Strain due to Compression
  30. εc2 Strain due to Bending
  31. εpi Initial Strain
  32. εpo Residual Strain

Constants, Functions and Measurements used in Loss due to Elastic Shortening PDF

  1. Measurement: Length in Millimeter (mm), Meter (m)
    Length Unit Conversion
  2. Measurement: Area in Square Meter (m²), Square Millimeter (mm²)
    Area Unit Conversion
  3. Measurement: Pressure in Megapascal (MPa)
    Pressure Unit Conversion
  4. Measurement: Force in Kilonewton (kN)
    Force Unit Conversion
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Free Loss due to Elastic Shortening PDF

Get Free Loss due to Elastic Shortening 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 22 calculators from Prestressed Concrete. Inside, you'll discover a list of formulas such as Prestress Drop, Prestress Drop given Modular Ratio and 22 more formulas!. The Variables, Functions and Constants are summarized at the end. Explore and share Loss due to Elastic Shortening PDFs!

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