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Adjusted Design Value for Compression Parallel to Grain Calculator

Category Engineering
Engineering Civil
Civil Timber Engineering
Timber-Engineering Adjustment Factors for Design Values
Adjustment-Factors-For-Design-Values
Design value for compression parallel to grain.Design value for compression [Fc]
+10%
-10%
Load duration factor is based on the ability of wood to recover after a reasonable load has been applied for a given time.Load duration factor [CD]
+10%
-10%
Wet service factor is used to signify wood that will not be used in a dry condition.Wet service factor [CM]
+10%
-10%
Temperature factor is the factor used for wood that is expected to be exposed to high temperatures for long periods of time.Temperature factor [Ct]
+10%
-10%
Size factor is the factors that takes non-homogeneity of wood into account.Size factor [CF]
+10%
-10%
Column stability factor is one of the lumber adjustment factors.Column stability factor [Cp]
+10%
-10%
Adjusted design value for compression parallel to grainAdjusted Design Value for Compression Parallel to Grain [F'c]
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Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
Suraj Kumar has created this Calculator and 500+ more calculators!
Himanshi Sharma
Bhilai Institute of Technology (BIT), Raipur
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11 Other formulas that you can solve using the same Inputs

Adjusted Value for Loading Parallel to Grain for Split Ring and Shear Plate Connectors
Adjusted Value for Loading Parallel to Grain=Nominal Value for Loading Parallel to Grain*Load Duration Factor*Wet service factor*Temperature factor*Group Action Factor*Geometry Factor*Penetration Depth Factor*Metal-side-plate Factor GO
Adjusted Design Value for Lateral Loading for Nails and Spikes
Adjusted Design Value for Lateral Loading=Nominal Design Value for Lateral Loading*Load duration factor*Wet service factor*Temperature factor*End grain factor*Penetration Depth Factor*Diaphragm factor*Toenail factor GO
Adjusted Design Value for Extreme Fiber Bending
Adjusted design value=(Design value*Load duration factor*Wet service factor*Temperature factor*Beam stability factor*Size factor*Volume factor*Flat use factor*Repetitive member factor*Curvature factor*Form factor) GO
Adjusted Value for Loading Normal to Grain for Split Ring and Shear Plate Connectors
Adjusted Value for Loading Normal to Grain=Nominal Value for Loading Normal to Grain*Load Duration Factor*Wet service factor*Temperature factor*Group Action Factor*Geometry Factor*Penetration Depth Factor GO
Adjusted Design Value for Lateral Loading for Bolts
Adjusted Design Value for Lateral Loading=Nominal Design Value for Lateral Loading*Load Duration Factor*Wet service factor*Temperature factor*Group Action Factor*Geometry Factor GO
Adjusted Design Value for Withdrawal for Nails and Spikes
Adjusted design value for withdrawal=Nominal design value for withdrawal*Load duration factor*Wet service factor*Temperature factor*Toenail factor GO
Adjusted Design Value for Shear
Adjusted design value for shear=(Design value for shear*Load duration factor*Wet service factor*Temperature factor*Shear stress factor) GO
Adjusted Design Value for Withdrawal for Wood Screws
Adjusted design value for withdrawal=Nominal design value for withdrawal*Load duration factor*Wet service factor*Temperature factor GO
Adjusted Design Value for Tension
Adjusted design value for tension=(Design value for tension*Load duration factor*Wet service factor*Temperature factor*Size factor) GO
Adjusted Design Value for End Grain in Bearing Parallel to Grain
Adjusted design value for bearing=(Design value for bearing*Load duration factor*Temperature factor) GO
Adjusted Design Value for Compression Perpendicular to Grain
Adjusted design value=(Design value *Wet service factor*Temperature factor*Bearing area factor) GO

Adjusted Design Value for Compression Parallel to Grain Formula

Adjusted design value for compression parallel=(Design value for compression*Load duration factor*Wet service factor*Temperature factor*Size factor*Column stability factor)
F'<sub>c</sub>=(F<sub>c</sub>*C<sub>D</sub>*C<sub>M</sub>*C<sub>t</sub>*C<sub>F</sub>*C<sub>p</sub>)
More formulas
Adjusted Design Value for Extreme Fiber Bending GO
Adjusted Design Value for Tension GO
Adjusted Design Value for Shear GO
Adjusted Design Value for Compression Perpendicular to Grain GO
Adjusted Design Value for End Grain in Bearing Parallel to Grain GO

What is column stability factor ?

The column stability factor is to ensure that weak-axis buckling or torsional buckling does not occur over non-laterally supported lengths. Note that this is similar to the beam stability factor except it deals with columns in compression, vs. beams in flexure.

How to Calculate Adjusted Design Value for Compression Parallel to Grain?

Adjusted Design Value for Compression Parallel to Grain calculator uses Adjusted design value for compression parallel=(Design value for compression*Load duration factor*Wet service factor*Temperature factor*Size factor*Column stability factor) to calculate the Adjusted design value for compression parallel, The Adjusted Design Value for Compression Parallel to Grain formula is defined by using several factors such as column stability factor , load duration factor , temperature factor etc. Adjusted design value for compression parallel and is denoted by F'c symbol.

How to calculate Adjusted Design Value for Compression Parallel to Grain using this online calculator? To use this online calculator for Adjusted Design Value for Compression Parallel to Grain, enter Design value for compression (Fc), Load duration factor (CD), Wet service factor (CM), Temperature factor (Ct), Size factor (CF) and Column stability factor (Cp) and hit the calculate button. Here is how the Adjusted Design Value for Compression Parallel to Grain calculation can be explained with given input values -> 6.3 = (7000000*0.75*0.8*1*1*1.5).

FAQ

What is Adjusted Design Value for Compression Parallel to Grain?
The Adjusted Design Value for Compression Parallel to Grain formula is defined by using several factors such as column stability factor , load duration factor , temperature factor etc and is represented as F'c=(Fc*CD*CM*Ct*CF*Cp) or Adjusted design value for compression parallel=(Design value for compression*Load duration factor*Wet service factor*Temperature factor*Size factor*Column stability factor). Design value for compression parallel to grain, Load duration factor is based on the ability of wood to recover after a reasonable load has been applied for a given time, Wet service factor is used to signify wood that will not be used in a dry condition, Temperature factor is the factor used for wood that is expected to be exposed to high temperatures for long periods of time, Size factor is the factors that takes non-homogeneity of wood into account and Column stability factor is one of the lumber adjustment factors.
How to calculate Adjusted Design Value for Compression Parallel to Grain?
The Adjusted Design Value for Compression Parallel to Grain formula is defined by using several factors such as column stability factor , load duration factor , temperature factor etc is calculated using Adjusted design value for compression parallel=(Design value for compression*Load duration factor*Wet service factor*Temperature factor*Size factor*Column stability factor). To calculate Adjusted Design Value for Compression Parallel to Grain, you need Design value for compression (Fc), Load duration factor (CD), Wet service factor (CM), Temperature factor (Ct), Size factor (CF) and Column stability factor (Cp). With our tool, you need to enter the respective value for Design value for compression, Load duration factor, Wet service factor, Temperature factor, Size factor and Column stability factor and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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