Chapter(16) AASHTO flexible pavement design method

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Presentation transcript:

Chapter(16) AASHTO flexible pavement design method

Determination of the required structural number SN = a1D1 + a2D2m2 + a3D3m3 + … a = layer structural coefficient D layer depth (inches) m layer drainage coefficient

Materials of construction (AC surface), a1 Structural number of the AC surface, a1

Materials of construction (Base course), a2 Use CBR, R-value, or Mr to find a2 values Structural number of the base course, a2

Materials of construction (Subbase), a3 Structural number of the subbase, a3 Use CBR, R-value, or Mr to find a3 values

Definition of drainage quality and finding recommended mi values

Structural Number (SN):

Example :- Design a flexible highway pavement using the AASHTO method of design the traffic is 2x10^6 ESAL in the design lane the asphalt concrete modulus E= 450,000 psi for base and subbase is 25000 psi and 12000 psi , subgrade 6000 . In addition the following information are psi = 4.0 ,Pt =2.5 ,SD = 0.3 , R= 95%

Solution :- Reliability =95% Standard deviation =0.30 = PSI –Pt = 4 – 2.5 =1.5 Layer coefficients(ai): a1 for surface a2 for base a3 for subbase

Calculate a1 (AC surface),: E = 450,000 psi

Calculate a2(Base course), :

Calculate a3(Subbase),:

Definition of drainage quality and finding recommended mi values Assume 1-5% of time pavement structure is exposed to moisture level approaching saturation quality of drainage : good M2 =M3=1.2

SN3= 4.5 SN2= 3.3 SN1= 2.5 Resilient modulus, Mr base course =25000 psi Subbase =12000 psi Subgrade = 6000 psi SN3= 4.5 SN2= 3.3 SN1= 2.5

SN = a1D1 + a2D2m2 + a3D3m3