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PAVEMENTS CEE 320 Steve Muench.

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Presentation on theme: "PAVEMENTS CEE 320 Steve Muench."— Presentation transcript:

1 PAVEMENTS CEE 320 Steve Muench

2 PAVEMENT : Definition Pavement is the durable surface material laid down on an area intended to sustain vehicular or foot traffic, such as  road or walkway.

3 PAVEMENT : Purpose Load support Smoothness Drainage

4 PAVEMENT : Types FLEXIBLE PAVEMENT RIGID PAVEMENT

5 PAVEMENT : Types Flexible Pavement Hot mix asphalt (HMA) pavements
Called "flexible" since the total pavement structure bends (or flexes) to accommodate traffic loads

6 Flexible Pavement Structure Surface course Base course Subbase course
Subgrade

7 Flexible Pavement Flexible pavements will transmit wheel load stresses to the lower layers by grain-to-grain transfer through the points of contact in the granular structure. The design of flexible pavement uses the concept of layered system. Flexible pavements are constructed using bituminous materials.

8 Typical Cross section of Flexible Pavement
Typical layers of a conventional flexible pavement includes seal coat, surface course, tack coat, binder course, prime coat, base course, sub-base course, compacted sub-grade, and natural sub-grade

9 Typical Cross section of Flexible Pavement
Seal Coat: Seal coat is a thin surface treatment used to water-proof the surface and to provide skid resistance. Tack Coat: Tack coat is a very light application of asphalt, usually asphalt emulsion diluted with water. It provides proper bonding between two layer of binder course and must be thin, uniformly cover the entire surface, and set very fast. Prime Coat: Prime coat is an application of low viscous cutback bitumen to an absorbent surface like granular bases on which binder layer is placed. It provides bonding between two layers. Unlike tack coat, prime coat penetrates into the layer below, plugs the voids, and forms a water tight surface. Surface course Surface course is the layer directly in contact with trac loads and generally contains superior quality materials. They are usually constructed with dense graded asphalt concrete(AC).

10 Typical Cross section of Flexible Pavement
Binder course This layer provides the bulk of the asphalt concrete structure. It's chief purpose is to distribute load to the base course. The binder course generally consists of aggregates having less asphalt and doesn't require quality as high as the surface course, so replacing a part of the surface course by the binder course results in more economical design. Base course The base course is the layer of material immediately beneath the surface of binder course and it provides additional load distribution and contributes to the sub-surface drainage. It may be composed of crushed stone, crushed slag, and other untreated or stabilized materials. Sub-Base course The sub-base course is the layer of material beneath the base course and the primary functions are to provide structural support, improve drainage, and reduce the intrusion of fines from the sub-grade in the pavement structure. If the base course is open graded, then the sub-base course with more fines can serve as a filler between sub-grade and the base course. A sub-base course is not always needed or used.

11 Typical Cross section of Flexible Pavement
For example : A pavement constructed over a high quality, sti sub-grade may not need the additional features offered by a sub-base course. In such situations, sub-base course may not be provided. Sub-grade The top soil or sub-grade is a layer of natural soil prepared to receive the stresses from the layers above. It is essential that at no time soil sub-grade is overstressed. It should be compacted to the desirable density, near the optimum moisture content.

12 PAVEMENT : Types Flexible Pavement Hot mix asphalt (HMA) pavements
Called "flexible" since the total pavement structure bends (or flexes) to accommodate traffic loads

13 Types of Flexible Pavement
Dense-graded Open-graded Gap-graded

14 Flexible Pavement – Construction

15 PAVEMENT : Types Rigid Pavement
Portland cement concrete (PCC) pavements Called “rigid” since PCC’s high modulus of elasticity does not allow them to flex appreciably. Pavements are placed either directly on the prepared sub- grade or on a single layer of granular or stabilized material. Since there is only one layer of material between the concrete and the sub-grade, this layer can be called as base or sub- base course. Rigid pavements have sufficient flexural strength to transmit the wheel load stresses to a wider area below.

16 Rigid Pavement Structure Surface course Base course Subbase course
Subgrade

17 Typical Cross section of Flexible Pavement

18 Types of Rigid Pavement
Jointed Plain Concrete Pavement (JPCP) Jointed reinforced concrete pavement (JRCP)

19 Types of Rigid Pavement
Continuously Reinforced Concrete Pavement (CRCP) Pre-stressed concrete pavement (PCP).

20 Rigid Pavement – Construction
Slipform Fixed form More in pavement guide interactive Stevens Way will be fixed form starting in May

21 Difference between Flexible & Rigid Pavement

22 Difference between Flexible & Rigid Pavement
Flexible Pavement Rigid Pavement 1.Deformation in the sub grade is transferred to the upper layers 1. Deformation in the subgrade is not transferred to subsequent layers 2.Design is based on load distributing characteristics of the component layers 2.Design is based on flexural strength or slab action 3.Have low flexural strength 3.Have high flexural strength 4.Load is transferred by grain to grain contact 4.No such phenomenon of grain to grain load transfer exists 5.Have low completion cost but repairing cost is high 5.Have low repairing cost but completion cost is high 6.Have low life span 6.Life span is more as compare to flexible 7. Surfacing cannot be laid directly on the sub grade but a sub base is needed 7.Surfacing can be directly laid on the sub grade

23 Difference between Flexible & Rigid Pavement
Difference between Flexible & Rigid Pavement Flexible Pavement Rigid Pavement 8.No thermal stresses are induced as the pavement have the ability to contract and expand freely 8.Thermal stresses are more vulnerable to be induced as the ability to contract and expand is very less in concrete 9.Thats why expansion joints are not needed 9.Thats why expansion joints are needed 10.Strength of the  road is highly dependent on the strength of the sub grade 10.Strength of the road is less dependent on the strength of the sub grade 11.Rolling of the surfacing is needed 11.Rolling of the surfacing in not needed 12.Road can be used for traffic within 24 hours 12.Road cannot be used until14 days of curing 13.Force of friction is less 13.Force of friction is high

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