MindTap Engineering for Garber/Hoel's Traffic and Highway Engineering, 5th Edition, [Instant Access], 1 term (6 months)
MindTap Engineering for Garber/Hoel's Traffic and Highway Engineering, 5th Edition, [Instant Access], 1 term (6 months)
5th Edition
ISBN: 9781305577398
Author: Nicholas J. Garber; Lester A. Hoel
Publisher: Cengage Learning US
bartleby

Concept explainers

Question
Book Icon
Chapter 20, Problem 20P
To determine

A suitable thickness of the concrete pavement if the working stress of the concrete is 650lb/in2.

Expert Solution & Answer
Check Mark

Answer to Problem 20P

The suitable depth of concrete pavement is 7inches.

Explanation of Solution

Given:

Design life is 20 years.

Annual rate of traffic growth is 3.5%.

Sub grade k value is 50lb/in2.

Stabilized sub-base is of 6in.

Modulus of rupture of the concrete is 600lb/in2.

  Pi=4.5Pt=2.5Sc=650lb/in2Ec=5×106lb/in2

  J=3.2Cd=1.0Sa=0.3R=9.5%

Traffic volume data on the highway indicate that the AADT during the first year of operation is 24,000 with the following vehicle mix and axle loads.

  Passenger cars=50 percent

  2-axle single-unit trucks (12,000lb/axle)=40 percent

  3-axle single-unit trucks (16,000lb/axle)=10 percent

The pavement has aggregate interlock joints (no dowels) and a concrete shoulder.

Formula used:

The design equivalent single axle load is given by,

  ESAL=Gjt×AADTi×365×Ni×FEi ....... (I)

Here, Gjt is the growth factor for a given growth rate r and design period n, AADT is the first annual average daily traffic for axle category i, Ni is the number of axles on each vehicle in category i and FEi is the load equivalency factor for axle category i.

The total ESAL is given by,

  ESAL=ESAL1+ESAL2 ....... (II)

Here, ESAL1 is the equivalent single axle load for 2-axle single-unit trucks and ESAL2 is the 3-axle single-unit trucks.

The stress ratio is given by,

  Stressratio=EquivalentstressSc ....... (III)

Here, Sc is the working stress of the concrete.

The damage percent is given by,

  Damagepercent=ESAL2N ...... (IV)

Here, N is the number of repetitions of load.

Calculation:

The design equivalent single axle load for 2-axle single-unit trucks is calculated as,

Substitute 28.28 for Gjt, 24,000 for AADT, 2 for Ni and 0.40 for FEi in equation (I).

  ESAL1=28.28×24,000×365×2×0.40=79.27×106

The design equivalent single axle load for 3-axle single-unit trucks is calculated as,

Substitute 28.28 for Gjt, 24,000 for AADT, 3 for Ni and 0.40 for FEi in equation (I).

  ESAL2=28.28×24,000×365×3×0.40=29.73×106

The design headwater depth is calculated as,

Substitute 79.27×106 for ESAL1 and 29.73×106 for ESAL2 in equation (II).

  ESAL=79.27×106+29.73×106=109×106

The sub grade value of k is 167lb/in3.

From table 20.22, "Deign k values for Untreated and Cement-Treated Sub bases" of book "Traffic and highway engineering" equivalent value of k can be obtained by interpolation.

  k=140+(230140100)×(130100)=140+27=167lb/in3

Assume a slab 6in thick with doweled joints and concrete shoulders.

From table 20.24, "Equivalent stress values for single axles and tandem axles" of book "Traffic and highway engineering" equivalent stress values can be obtained and for 6.5inches thick slab by interpolation effective k can be obtained as,

  Equivalentstress=304[(304289)×(200167)(200150)]=3049.9=294.1lb/in2

The stress ratio is calculated as,

Substitute 294.1lb/in3 for equivalent stress and 650lb/in2 for Sc in equation (III).

  Stressratio=294.1lb/in2650lb/in2=0.45

From table 20.27, "Erosion factors for single axles and tandem axles (doweled joint, concrete shoulder" of book "Traffic and highway engineering" for 6.5inches slab the erosion factor is 2.72.

  12,000(1.2)=14,400lb/axle16,000(1.2)=19,200lb/axle

From figure 20.26, "Allowable Load Repetitions for Fatigue Analysis Based on Stress Ratio" of book "Traffic and highway engineering" for 14.4kip single axle load to 0.45 stress ratio factor the allowable load repetitions for fatigue analysis is unlimited.

Thus, the Fatigue analysis for 14,400lb/axle is unlimited.

From figure 20.27, "Allowable Load Repetitions for Erosion Analysis Based on erosion factors" of book "Traffic and highway engineering" for 14.4kip single axle load to 2.72 erosion factor the allowable load repetitions for erosion analysis is unlimited.

From figure 20.26, "Allowable Load Repetitions for Fatigue Analysis Based on Stress Ratio" of book "Traffic and highway engineering" for 19.2kip single axle load to 0.45 stress ratio factor the allowable load repetitions for fatigue analysis is 7×105.

From figure 20.27, "Allowable Load Repetitions for Erosion Analysis Based on erosion factors" of book "Traffic and highway engineering" for 14.4kip single axle load to 2.72 erosion factor the allowable load repetitions for erosion analysis is 2.6×106.

The table showing the allowable repetitions for 6inches slab is given below.

Load Fatigue analysis Erosion analysis
14,400lb/axle UnlimitedUnlimited
19,200lb/axle 7×105 2.6×106

Table (1)

So the 6inches slab is inadequate since the allowable ESALs are less than the expected ESALs.

Assume a slab 7in thick with doweled joints and concrete shoulders.

Calculate the equivalent stress.

From table 20.24, "Equivalent stress values for single axles and tandem axles" of book "Traffic and highway engineering" equivalent stress values can be obtained and for 6.5inches thick slab by interpolation effective k can be obtained as,

  Equivalentstress=248[(248236)×(200167)(200150)]=2487.92=240.08lb/in2

The stress ratio is calculated as,

Substitute 240.08lb/in2 for equivalent stress and 650lb/in2 for Sc in equation (III).

  Stressratio=240.08650=0.37

From table 20.27, "Erosion factors for single axles and tandem axles (doweled joint, concrete shoulder" of book "Traffic and highway engineering" for 7inches slab the erosion factor is 2.54.

  12,000(1.2)=14,400lb/axle16,000(1.2)=19,200lb/axle

From figure 20.26, "Allowable Load Repetitions for Fatigue Analysis Based on Stress Ratio" of book "Traffic and highway engineering" for 14.4kip single axle load to 0.37 stress ratio factor the allowable load repetitions for fatigue analysis is unlimited.

Thus, the Fatigue analysis for 14,400lb/axle is unlimited.

From figure 20.27, "Allowable Load Repetitions for Erosion Analysis Based on erosion factors" of book "Traffic and highway engineering" for 14.4kip single axle load to 2.54 erosion factor the allowable load repetitions for erosion analysis is unlimited.

From figure 20.26, "Allowable Load Repetitions for Fatigue Analysis Based on Stress Ratio" of book "Traffic and highway engineering" for 19.2kip single axle load to 0.37 stress ratio factor the allowable load repetitions for fatigue analysis is unlimited.

From figure 20.27, "Allowable Load Repetitions for Erosion Analysis Based on erosion factors" of book "Traffic and highway engineering" for 19.2kip single axle load to 2.54 erosion factor the allowable load repetitions for erosion analysis is 100×106.

The table showing the allowable repetitions for 6inches slab is given below.

Load Fatigue analysis Erosion analysis
14,400lb/axle UnlimitedUnlimited
19,200lb/axle unlimited 100×106

Therefore, the 7in slab is adequate. Use a 7in slab depth.

Conclusion:

Therefore, the suitable depth of concrete pavement is 7inches.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!
Students have asked these similar questions
need help. explain plz
-Design the traffic signal intersection using all red 2 second, for all phase the truck percent 5% for all movement, and PHF -0.95 Check for capacity only Approach Through volume Right volume Left volume Lane width Number of lane Veh/hr Veh/hr Veh/hr m North 700 100 150 3.0 3 south 600 75 160 3.0 3 East 300 80 50 4.0 R west 400 50 55 4.0 2
need help
Knowledge Booster
Background pattern image
Civil Engineering
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, civil-engineering and related others by exploring similar questions and additional content below.
Similar questions
SEE MORE QUESTIONS
Recommended textbooks for you
Text book image
Traffic and Highway Engineering
Civil Engineering
ISBN:9781305156241
Author:Garber, Nicholas J.
Publisher:Cengage Learning