StudentShare
Contact Us
Sign In / Sign Up for FREE
Search
Go to advanced search...
Free

Pavement Design - Term Paper Example

Cite this document
Summary
A critical element of the flexible pavement equation is the Structural Number, which represents the overall structural requirement needed to sustain the traffic loads anticipated in the design. The required Structural Number depends on a combination of existing soil support,…
Download full paper File format: .doc, available for editing
GRAB THE BEST PAPER93.7% of users find it useful
Pavement Design
Read Text Preview

Extract of sample "Pavement Design"

Proposal to Perform Geotechnical Engineering Services for the Construction Flexible Pavements for a parking area Function of a Structural Number A critical element of the flexible pavement equation is the Structural Number, which represents the overall structural requirement needed to sustain the traffic loads anticipated in the design. The required Structural Number depends on a combination of existing soil support, total traffic loads, pavement serviceability, and environmental conditions.

AASHTO design equation for flexible pavements. The Structural Number is indicated as SN.Although design equations can be used in different ways depending on the inputs available, one of their most common applications is effectively to solve for the Structural Number. Once the value of the Structural Number is defined, this can then be used to determine appropriate thicknesses for each of the pavement layers.Relationship to Pavement LayersThe Structural Number is a value that applies to the overall pavement structure, but for a complete design it is a prerequisite to get from this value to the individual layer thicknesses.

This is handled using an equation of the type shown:SN = a1D1 + a2D2M2 + a3D3M3 + …This formula is indicating the relationship of the structural number to pavement layer characteristics,and can be adapted to any number of pavement layers, since each expression (such as a2D2M2) in the formula corresponds to a single layer, so that the variables in the expression correspond to the characteristics of that layer. The subscript number used in the expression simply indicates which layer is meant, with the numbering beginning at the top of the pavement structure.

The variables represent the following:a = a layer coefficient that represents the relative strength of the materialD = layer thickness in inches, M = a drainage coefficientThe layer and drainage coefficients are values that should reflect characteristics of the material used to construct that pavement layer. The thicknesses of the individual layers are effectively what is used to design equation, and the Structural Number, to figure out.Layer CoefficientSince the layer coefficient represents the strength of the material, this is the primary variable that factors in the type of material to use for each layer.

For design purposes, layer coefficients are typically determined empirically based on the performance of the material. Agencies often set specific layer coefficient values for commonly used materials as a standard design policy. Some typical layer coefficient values are:Hot mix asphalt – 0.44, road mix (low stability) – 0.20, aggregate base – 0.13, engineered fill – 0.10Since the layer coefficient can be affected by material properties as well as the position of the layer in which the material will be used, in some cases different values might be appropriate for local conditions.

Drainage CoefficientA drainage coefficient is a value assigned to a pavement layer that represents its relative loss of strength due to drainage characteristics and exposure to moisture saturation. Layers that drain slowly or are often saturated would have a lower drainage coefficient, while layers that drain quickly and almost never become saturated would have a higher drainage coefficient. For most pavement designs, it is probably simplest and best to set the drainage coefficient equal to 1, which indicates normal drainage characteristics.

A permeable base layer placed with a geotextile barrier to improve drainage.Another point to keep in mind is that because the Structural Number is being used to solve for layer thickness, changing a drainage coefficient will only have an impact on the thickness of the pavement layers. It will not make any layer denser or otherwise address a fundamental drainage problem that would significantly impact the service life of the pavement. If there is an actual drainage problem with one of the layers, it is better to tackle that directly by designing a drainage system, or by increasing layer density to minimize water infiltration.

ThicknessOnce appropriate layer and drainage coefficients are plugged in, one can then work out suitable thicknesses for each of the pavement layers. Using the AASHTO method for evaluating existing pavements as well as the design of new pavement structures. For example, when considering a pavement in need of rehabilitation, the existing layer thicknesses could be plugged in to determine a Structural Number for the pavement in place; comparing this with the Structural Number required for the updated design would give an indication of the type and thickness of rehabilitation treatment needed.

Further, It is worth noting that determining the Structural Number, does not automatically dictates a single correct answer for pavement layer thickness. Assuming there is more than one structural layer, there will normally be different combinations of layer thickness that could achieve the required Structural Number. However, based on the relative costs of materials for different layers, along with practical construction considerations (such as not making any one layer excessively thick or thin), it is likely that defining the Structural Number will steer the work to a particular combination of layer thicknessesTable 1: THE LOG OF TEST BORINGClient: ______________________________________________________ Architecture: _________________________________________________Project Name: ________________________________________________Project Location: ______________________________________________Boring: ________________________________ Job: _______________________________________Drawn By: _____________________________ Approved By: _______________________________Date started: ___________________________ Completion Date: _____________________________Drill Foreman: _________________________ Inspector: ___________________________________ Boring method: _________________________ Hammer weight: _____________________________Hammer Drop: _________________________ Spoon Sampler O.D. __________________________Rock Core Distance: ____________________ Shelby Tube O.D. ____________________________SOIL CLASSIFICATIONStratum depthDepth ScaleLithologySample number Standard penetration test ()Blows/ft)Unconfined Compression strength (T/ft2)Pocket penetrator (T/ft2)Natural Dry Penalty (lbs/ft3)Water content (%)After-bury Limit LL-Liquid limit PL-Plastic LimitSURFACE ELEVATION – 535.

0Top Soil0.7----5in.----10in.----15in.--12345SSSSSSSSSS5669822.323.625.928.941.8LL=46 PL=24Reddish Brown and brown Silty clay, moist, softReddish Brown silty clay, with trace fine sand, moist, medium stiffWith Limestone rock fragments in Sample number 53.015.0Test boring discontinued at 15.0 ftThe Non-cohesive soils (Silt, Sand, Gravel and Combinations)DENSITYVery loose – 5blows/ft or lessLoose – 6 to 10 blows/ftMedium Dense – 31 to 51blows/ftVery dense – 51blows/ft or morePARTICULAR SIZE IDENTIFICATIONBoulders – 8 inch diameter or moreCobbles – 3 to 8 inch diameterGravel – Coarse (1 to 3inches), Medium (1/2 to 1inch) and Fine (1/4 to 1/2inch)Sand – Coarse (0.

6mm to 1/4inch), medium (0.2mm to 0.6mm) and Fine (0.05 to 0.2mm)Silt – 0.06mm to 0.002mmRELATIVE PROPORTIONSDescriptive TermPercentage (%)Trace1 - 10Little11 – 20Some21 – 35 And36 – 50 COHESIVE SOILS (Clay, Silt and Combinations)ConsistencyVery Soft – 3blows/ft or lessSoft – 4 to 5 blows/ftMedium Stiff – 6 – 10blows/ftVery Stiff – 16 – 30blows/ftHard – 31blows/ft or morePlasticityDegree of PlasticityPlasticity IndexLow0 -7 Medium8 – 22High Over 22Classification: Based on the logs made by the visual inspection in accordance with United ClassificationStandard Penetration Test: Driving a 2.0’ O.D.

13/8’ I.D., Sampler a distance of 1 foot in to the undisturbed soil with a 140 pound hammer free falling adistance of 30.0 inches. Ground Water – Porosity of the soil strata, site topology, weather conditions among other factors may cause alterations in the water levels recorded in the logs. ReferenceHandy R. L, (n.d.), Geotechnical engineering Soil and Foundation Principles, ed. 5. Retrieved from: www.geotechnical info.com, on retrieved May 6, 2015

Read More
Cite this document
  • APA
  • MLA
  • CHICAGO
(“Pavement Design Term Paper Example | Topics and Well Written Essays - 500 words”, n.d.)
Retrieved de https://studentshare.org/engineering-and-construction/1693345-pavement-design
(Pavement Design Term Paper Example | Topics and Well Written Essays - 500 Words)
https://studentshare.org/engineering-and-construction/1693345-pavement-design.
“Pavement Design Term Paper Example | Topics and Well Written Essays - 500 Words”, n.d. https://studentshare.org/engineering-and-construction/1693345-pavement-design.
  • Cited: 0 times

CHECK THESE SAMPLES OF Pavement Design

Geology Of The Area. Sources Of Natural Materials and Construction Problems

According to Amelin et al.... (2002), geology is the science comprising of the study of solid earth, the rocks of which it is composed of, and the processes by which they change.... The area given on the map consists of three different rock layers including sandstone, mudstone and limestone.... hellip; Sandstone - This majorly lies on the eastern side of the maps covering both low and high altitude area....
8 Pages (2000 words) Essay

Discovering Art, Design and Cultural Movement

Name: Course: Instructor: Date: Discovering Art, design and Cultural Movement Culture refers to a definitive people's way of life; this implies the mannerism in the people's behavior and their social values.... Culture thus influences such fundamental human activities as their attire, religious beliefs, dietary and interaction with each other....
3 Pages (750 words) Essay

Site Analysis on The Piazza de Campidoglio

his was due to Farnese Pope Paul 111 who acknowledged his talent by requesting him to design and… Michelangelo, therefore, revived Capitoline through creation of piazza de Campidoglio with a complete redesign of the piazza and other buildings that surround it.... He came up with a design relevant to the original trapezoidal for the squire that had intriguing oval shaped at the center.... The design brought a new dimension in urban planning, and it was seen as a touch of brilliance from Michelangelo to revive the place that was already in ruins and made it the Roman social and political events....
7 Pages (1750 words) Research Paper

Parking Lot Design

The paper "Parking Lot design" tells that While looking for a convenient design for a car park, one has to consider factors such as reduced maintenance and running expenses, a long term and improved facility appearance, and an environment that is attractive and inviting… Implementation of these designs would help the establishment of a suitable Car park facility that supports all users and fulfills the aspired needs.... The design of the facility fulfills the specific car parking standards like a good indication of requirements of the parking provision which include the required parking and turning space for cars and coaches....
8 Pages (2000 words) Case Study

Principles of Highway and Railway Planning

n the overall scheme of the engineering process, planning is the initial stage of the project, the design is in the middle, and operation and maintenance takes place after highway or railway construction has been completed.... Major highways or railways are likely to involve planning at several levels of government and take longer to reach a consensus for its design.... The decisions made during the planning stage are so important that they can affect the rest of the entire project and they limit the design options....
9 Pages (2250 words) Term Paper

Effects of Moisture on Flexible Pavement

They are infiltration factors, which for Pavement Design purposes, are multiplied by the mean intensity of rain experienced in two successive years, one-hour rainfall to determine the infiltration rates, i.... … The paper “Effects of Moisture on Flexible pavement» is a  comprehensive variant of case study on engineering and construction.... Moisture conditions in pavement change at different times of the year.... The paper “Effects of Moisture on Flexible pavement» is a  comprehensive variant of case study on engineering and construction....
11 Pages (2750 words) Case Study

The Role of California Bearing Ratio in Road Design

This case study "The Role of California Bearing Ratio in Road design" discusses the CBR test that plays a great role in the road design that extends to affecting issues to road design architecture.... nother role that the CBR plays in road design is to help prevent risks that occur due to the soil structure of the ground.... Another role that CBR plays in road designing is that it helps the engineers identify the soil conditions at the time of construction since they are different layers of the ground structure upon which you based your design....
7 Pages (1750 words) Case Study

Advanced Technology: Planning & Production

… Task1 Ground ImprovementPurposes of ground improvement methodsGround improvement is the alteration that is controlled by nature or depending on the behaviour of the materials on the field, and it is intended to meet the projected engineering and Task1 Ground ImprovementPurposes of ground improvement methodsGround improvement is the alteration that is controlled by nature or depending on the behaviour of the materials on the field, and it is intended to meet the projected engineering and environmental actions....
7 Pages (1750 words) Essay
sponsored ads
We use cookies to create the best experience for you. Keep on browsing if you are OK with that, or find out how to manage cookies.
Contact Us