Concrete Pavement Design and Materials Selection

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Concrete Pavement Design and Materials Selection Hua Chen, P.E. (512) 506-5846 Rigid Pavement and Concrete Materials Branch, TxDOT 2011 Short Course

Overview I. Current Design Guides II. Concrete Pavement Details

I. Current Design Guides David B. Casteel, P.E. Memorandum November 2, 2009 Changes to the Texas Department of Transportation s (TxDOT) Rigid Pavement Design Procedure

Design Parameters 28-day Concrete Modulus of Rupture, psi 620 psi - no changes However, each district should consider a higher value if their flexural strengths have historical been higher than 620 psi.

Design Parameters TxDOT requires one of the following base layer combinations for concrete slab support: 4 in. of asphaltic concrete pavement (ACP) or asphalt stabilized base (ASB) or a minimum 1 in. asphalt concrete bond breaker over 6 in. of a cement stabilized base.

Design Parameters Effective Modulus of Subgrade Reaction, K 300 pci Changed to 300-800 pci A k-value of 300 psi/in. should be used in the rigid pavement design procedure with one of the stabilized base layer combinations. The designer may use a higher k-value up to 800 psi/in, with the requirement of field verification tests during the construction.

Design Parameters Reliability % 95% changed to 90% when ESALs <=5 million 95% when ESALS >5 million

Design Parameters Load Transfer Coefficient, J With Tied PCC Shoulders, or Tied Curb and Gutter J = 2.9 changed to J = 2.6 for CRCP J = 2.9 for JCP

Design Parameters 28-day Concrete Elastic Modulus, psi Serviceability Indices Drainage Coefficient Overall Standard Deviation No changes

Maximum Slab Thickness Is reduced from 15 to 13. District should submit designs thicker than 13, including the justification for doing so, to the District Engineer for approval.

Minimum Slab Thickness Is reduced from 8 to 6. Utilizing thickened base/subbase layers will help ensure the structural adequacy for the pavement system.

Thickness Rounding Changed from Round the thickness up to the next higher whole inch. to Round the design thickness to the nearest full or half-in. Computed Thickness (in) Old Rounding (in) New Rounding (in) 11.40 12 11.5 9.24 10 9.0 14.50 15 13 6.28 8 6.5

Reduction in thickness will increase the risk of potential distresses at earlier age and should be mitigated by proper maintenance.

II. Concrete Pavement Details

Two types of concrete pavements commonly used in Texas are contnuously reinforced concreted pavement (CRCP) and jointed concrete pavement (JCP).

Selection of Rigid Pavement Type CRCP provides excellent long-term performance requiring very low maintenance. The Department policy is to utilize CRCP for new or reconstructed rigid pavements in Texas. There are situations where jointed pavement may be desirable. If jointed pavement is to be utilized, its use must meet one of the following criteria:

for roadways controlled and maintained by another government entity for parking areas or roadways with crosswalks, adjacent parking, or sidewalks for railroad crossings, approaches to structures or to widen existing jointed pavement

for intersections and approaches in flexible pavement roadways that are associated with vehicle braking and acceleration which could cause shoving and rutting of an asphalt pavement for other situations approved by the Administration, after submittal of request and justification to the Materials & Pavements Section of the Construction Division (CST-M&P).

CRCP Standards CRCP contains both longitudinal and transverse steel. CRCP does not contain transverse joints except at construction joints.

Longitudinal Joint 11 CRCP TieBars Transverse Steel 4 ACP Base Longitudinal Steel

In CRCP, maintaining steel continuity in the longitudinal direction is important in ensuring good performance of the pavement. The length of the reinforcing steel bars is 60 ft. The continuity of the longitudinal steel is achieved by overlapping individual steel bars. Extensive testing shows that as long as the overlapping is more than 33 times bar diameter, stresses in one steel is effectively transferred to the next steel via surrounding concrete. For example, No. 6 bars would need a 25-in. splice for effective stress transfer.

Splice Locations If all the splices occur at the same longitudinal location, transverse cracks that occur at the location could cause steel bonding failure, resulting in wide cracks and performance problems. To make sure that all the splices do not occur at the same transverse location, Item 360 requires staggering splices to avoid having more than 1/3 of the splices within a 2-ft. longitudinal length of each lane of the pavement.

Check Steel height

At Transverse Construction Joint

When two adjoining lanes are placed with separate concrete placements, the joint between the two placements is called a longitudinal construction joint. Across longitudinal construction joints are short pieces of reinforcing steel called tie bars. The tie bars keep the two adjoining slabs from pulling away from each other and keep the surface across the joints flat.

Multiple piece tie bars are threaded in the middle to allow the two halves of the tie bar to be separated and then reconnected only prior to the casting of the second pavement.

Preventing curing compounds from dropping on tie bars

Terminal Anchors Anchor lugs Expansion joints Wide Flange joints

Expansion Joint (FTW)

Wide Flange Joints

Research project 0-6326 Rational Use of Terminal Anchorages in Portland Cement Concrete Pavement Start Date - 10/01/2008 End Date - 08/31/2011 Project Director : Tomas Saenz, ELP Project Advisors: Brian Merrill, BRG, Hua Chen, CST Rashidah Dyer, DAL, Stacey Young, LBB Research Supervisor: Moon Won, TECHMRT

CRCP End Movement

CPCD-94 Concrete Pavement Details, Contraction Design has details for Jointed Concrete Pavement (JCP) JCP has transverse joints spaced at regular intervals. The transverse joints are used to control temperature and moisture induced contraction and expansion in the concrete. Smooth dowels are used at the transverse joints for load transfer.

JCP has transverse joints spaced at regular intervals. The transverse joints are used to control temperature induced contraction and expansion in the concrete. Smooth dowel bars are used at the transverse joints for load transfer. The transverse joints are spaced at 15 ft. Longitudinal joints are used to control random longitudinal cracking. Longitudinal joints are tied together with tie bars.

Jointed Concrete Pavement

Jointed Concrete Pavement

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