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Preventative Maintenance of Asphalt Pavements

Learn about the concept of preventative maintenance (PM) for asphalt pavements, including its benefits, barriers, and steps for implementation. Explore the importance of PM in preserving and improving roadway systems. Taught by Murat Ergun and Sukriye İyinam from the Civil Engineering and Transportation Engineering Department's Transportation Infrastructure Section.

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Preventative Maintenance of Asphalt Pavements

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  1. ULS 502E PREVENTATIVE MAINTENANCE OF ASPHALT PAVEMENTS

  2. INSTRUCTOR • MURAT ERGUN • SUKRİYE İYİNAM • Civil Engineering • Transportation Engineering Department • Transportation Infrastructure Section

  3. GRADING • Homeworks ( % 30 ) • Mid-term Exam ( % 30 ) • Final Exam ( % 40 )

  4. PREVENTATIVE MAINTENANCEOF ASPHALT PAVEMENTS • What is pavement preventative maintenance (PM)? • Why become involved with PM? • What are the benefits of PM? • What are the barriers and/or potential pitfalls to the development of a PM program? • What are the steps necessary to implement a PM program?

  5. What is PM? • Preventive maintenance is a relatively new concept for most highway agencies. • Therefore, not surprisingly, there has been widespread misunderstanding and confusion throughout the transportation community over what preventive maintenance is and what it isn’t. • This has led, in some cases, to lack of agency and public support for Preventive Maintenance. • As practitioners become more familiar with the concepts and tools of PM, the definition offered by the AASHTO Standing Committee of Highways is gaining acceptance.

  6. What is PM? • PM is the planned strategy of cost-effective treatments to an existing roadway system and its appurtenances that preserves the system, retards future deterioration, and maintains or improves the functional condition of the system (without substantially increasing structural capacity).

  7. What is PM? • Pavement preventive maintenance narrows that focus to the application of one or more treatments, generally to the surface of a structurally sound roadway. • It can be summed things up quite nicely by defining pavement preventive maintenance as, Applying the right treatment to the right pavement at the right time.

  8. Why Become Involved with PM? • Traditionally, highway agencies have allowed the ride quality and structural condition of a pavement to deteriorate to fair to poor condition before taking steps to rehabilitate the pavement. • The aim of rehabilitation is to repair structural damage and restore measurable pavement conditions such as ride, rutting and cracking. • This is costly and time consuming activity with associated traffic disruptions and inconvenience to adjacent businesses and residences. • This “worst-first” scenario came about for many reasons, including the requirements for Government-aid funding, the maximization of capitol growth, and a long-standing philosophy of, “If it ain’t broke, don’t fix it.”

  9. Why Become Involved with PM? • Highway agencies have found that applying a series of low-cost preventive treatments can extend the service lives of their pavements. • This translates into a better investment, better ride quality, and increased customer satisfaction and support. • The experience with pavement preventive maintenance in a number of agencies demonstrates this success – each money spent now has been estimated to save up to six times money in the future.

  10. What Are the Benefits of PM? • The benefits associated with pavement preventive maintenance, both perceived and documented, vary from agency to agency depending not only upon a particular agency’s strategic objectives, but also on what stakeholder is promoting the concept. • For example, the traveling public will be most attracted to improved ride, while the pavement management engineer will find value in the fact that overall condition of the network will improve over time, and the executive management of an agency will be drawn to the reported cost savings.

  11. What Are the Benefits of PM? • The benefits most often associated with successful pavement preventive management programs are listed below. • Although not all these benefits are currently being measured, they are the ones that appear repeatedly in the literature and practitioner discussions:

  12. What Are the Benefits of PM? • Higher Customer Satisfaction • Better Informed Decisions • Improved Strategies and Techniques • Improved Pavement Condition • Cost Savings • Increased Safety

  13. What are the Barriers and/or Potential Pitfalls to the Development of a PM Program? • Public Perception • Management Perceptions • Research Needs • Training • Data Management • Dedicated Funding Challenges • Crew Acceptance

  14. What are the Steps necessary to implement a PM program? • Adequate/Dedicated Funds • Top Management Support Commitment • Data Collection and Management • Crew Acceptance • Training • Improved Models/Project Selection

  15. Legislative Support • Publicity

  16. Adequate/Dedicated Funds • Agencies that have succeeded in implementing PM programs recognize the importance of obtaining an adequate, secure, and ongoing source of funds. • The establishment of dedicated funds helps to ensure that a stable flow of funding is provided to enable the agency to apply the necessary techniques in a timely manner.

  17. Top Management Support Commitment • Establishment of an effective pavement preventive maintenance program requires top management commitment and support. • There are many demands on agency resources and those programs supported at the highest levels have the best chance of succeeding.

  18. Data Collection and Management • Objective, accurate, repeatable measurements are critical to the success of PM programs. • Most agencies rely on their PMS to provide the needed information. In most cases, modifications to the PMS are required to capture the information necessary to fully support the PPM program.

  19. Crew Acceptance • In order for a PM program to be successful, those responsible for performing and monitoring the work must buy-in to the philosophies and concepts of PM. • If those people doing the work do not support it, the chances of success are unlikely.

  20. Training • The concepts and philosophies of PM are new to most agencies. • In fact, PM is a major shift in direction, requiring not only knowledge of the technical and mechanical aspects of the work, but also an understanding and appreciation of the overall purpose of PM as well.

  21. Improved Models/Project Selection • There are numerous PM treatment options available for both asphalt concrete and Portland cement concrete pavements. • Some of the options are appropriate, others are not. • In order to choose “the right treatment at the right time,” agencies need to develop a treatment selection process based on performance and life cycle costs. • In most cases, this is much easier said than done.

  22. Legislative Support • Most agency budgets and major fund requests are touched in some way by the Legislative process. • Therefore, Legislative support is a critical element in the success of an agency’s PM program. • If a program isn’t funded to an adequate and consistent level, it won’t happen.

  23. Publicity • PM does not make news; there are no ribbon cuttings or groundbreaking ceremonies. • In fact, many people question the wisdom/rational of a program that devotes resources to well-performing pavements, while pavements clearly in need of repair are ignored. • The public is interested in sound fiscal practices. • With proper information and education, this interest can be channeled into support of a PM program.

  24. Summary of Outline • Background and Objectives • Establishing a Preventive Maintenance Program • Framework for Treatment Selection and • Timing • Analysis to Determine the Most Effective Treatment

  25. Background • Pavement Management Systems • Most Agencies have one • Usually contain maintenance component • Limitations • Models to determine cost effective treatment • Most don’t contain proper treatment timing

  26. Types of Pavement Maintenance • Preventative (Proactive) • Arrest light deterioration • Retard progressive failures • Reduce need for corrective maintenance • “Right” treatment at the “right” time!

  27. Corrective (Reactive) • After deficiency occurs • More expensive • Emergency

  28. Study Objectives • Review existing practices related to selection of appropriate PM strategies • Develop a framework for selection of the most appropriate PM treatments • Prepare Summary Report

  29. Establishing a Preventative Maintenance Program • Number of Technical Components BUT! • Two most important are non-technical 1) Agency Top Management Commitment 2) Customer Education Program

  30. 1 2 3 4 5

  31. 1. Establish Program Guidelines • “Policy Manual” • Contains overall strategies and goals • Safety issues • Environmental issues • Program coordinator named • Technical elements • Feedback loop

  32. 2. Determine Maintenance Needs • Condition Survey • Trained observers • Automated vehicles • Non-destructive testing (FWD, Friction) • Cores, slabs • Project data • Location, ADT, % trucks, environment, etc.

  33. 3. Framework for Treatment Selection • The “right” treatment at the “right” time on the “right” project • Amen ( İnşallah )

  34. 4. Develop Analysis Proceduresfor the Most Effective Treatment • A number of procedures for determining cost effectiveness exist and should be used • Cost should be part of the decision process but not the only consideration • Use of decision trees is a viable method

  35. 5. Feedback Mechanism • Generally a weakness in many management processes • “The boss doesn’t want to hear bad news” syndrome • Need to know how the system is working • A tool to adjust the program when needed

  36. Preventive MaintenanceTreatments • Can be effective if used under proper conditions to address distress • Types of Flexible Pavement distress include: • Rutting • Cracking (fatigue, block, thermal, etc.) • Bleeding • Raveling

  37. Crack Sealing • Used to prevent water and incompressibles from entering the pavement • Cracks are often routed • Sealants are only effective for a few years

  38. Fog Seal • Application of diluted emulsion to enrich the surface • Primarily used to address raveling, oxidation, and seal minor surface cracks • Expected life not greater than 3 to 4 years

  39. Chip Seal • Used to waterproof the surface, seal small cracks and improve surface friction • Normally used on low-volume roadways, but have been used on high-volume facilities

  40. Thin Cold-Mix Seal • Treatments include • slurry seals, • microsurfacing • cape seals • Used to fill cracks, increase frictional resistance and improve ride quality

  41. Thin Hot-Mix Overlay • Treatments include dense-, open and gapgraded mixes • Used to improve ride quality, • increase frictional resistance and • correct surface irregularities

  42. Framework for TreatmentSelection and Timing • Data/criteria used for developing tools • Decision tools for treatment selection • Decision Trees • Decision Matrices • Benefits/limitations of decision tools • Optimum timing of treatments

  43. Data/Criteria Considered inDeveloping Tools • Pavement type and construction history • Functional classification or traffic level • Pavement condition index ( PCI ) • Specific type of deterioration present • Geometric issues • Environmental conditions • Unit costs ? • Expected life ?

  44. Other Potential Criteria • Availability of qualified contractors • Availability of materials • Time (of year) of construction • Pavement noise • Surface friction

  45. Typical Decision Tools • Decision trees • Decision matrices

  46. Benefits • Works well for local conditions • Good project level tool • Transferability

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