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Polyurea Application for Excessively Cracked Concrete

Polyurea Application for Excessively Cracked Concrete. Presented by: Kristin Leonard, SSPC Protective Coating Inspector, SSPC Concrete Coating Inspector, Bechtel Materials Engineering Technology. Introduction.

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Polyurea Application for Excessively Cracked Concrete

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  1. Polyurea Application for Excessively Cracked Concrete Presented by: Kristin Leonard, SSPC Protective Coating Inspector, SSPC Concrete Coating Inspector, Bechtel Materials Engineering Technology

  2. Introduction Upon installation of a typical thin film coating system, extensive dynamic cracking was discovered in concrete chemical secondary containment structures. After multiple failed attempts to repair cracks using standard coating products, the decision was made to proceed with equipment installation in hopes of maintaining schedule while the coating details could be evaluated. With this additional hurdle, the challenge was made to develop a coating system that delivered chemical resistance while acting as a “band aid” over the damaged concrete to provide 100% containment. After evaluating various options, a polyurea/ geotextile liner was selected on a trial basis due to the system’s flexible and chemical resistant properties as well as the relatively swift installation time.

  3. Challenge: Excessive dynamic cracking Outdoor, uncovered service Average temperature swings of 40°F (4.4°C) depending on time of year No moisture barrier under concrete Lining must provide 100% containment Must pass rigorous chemical resistance qualifications

  4. Initial Application The initial application included the thin film epoxy novalac system applied direct to prepared concrete prior to installation of equipment. After coating application, cracks were noticed propagating through the coating system. Multiple repair attempts were made using standard coating products with no success. Coatings work was stopped and a concrete specialist was brought in to evaluate the defects.

  5. Dynamic Cracking Crack in concrete surface that changes in width as the concrete moves

  6. Typical Crack Repair: Chemical resistant Coating (2 layers) Primer Bond breaker tape Fiberglass matt reinforcement Elastomeric caulk Backer Rod Routed Crack

  7. Repair Decision • Two options: • 1. Revise existing thin film system to include rigorous, multi-step crack repair or • 2. Choose a completely new coating system • The decision was to choose a completely new coating system • A loose line comprising of a geotextile fabric coated with a polyurea

  8. Polyurea “Loose Liner” System • Polyurea applied over geotextile to form a loose, semi-floating liner • Geotextile- synthetic fibers manufactured in a woven or loose non-woven manner • Polyurea-a type of elastomer that is derived from the reaction product of an isocyanate component and a synthetic resin blend • The isocyanate can be aromatic or aliphatic in nature.

  9. Plural Component Application Paint equipment that uses multiple positive displacement pumps to achieve a desired mix ratio Mixes paint at correct ratio within mixing block or at gun by use of a static mixer to a single homogenous blend For viscous paint, heated lines can be used

  10. Mechanical Proportioning of Components A and B

  11. Manifold Mixer

  12. Mixing Block (isolated)

  13. Cut-away of Plural Component Impingement Gun with Component Hoses Joined at the Tip

  14. Liner Details • Liner consists of the following components: • 12 oz. (0.3 L) geotextile fabric with a 6 inch (15.24 cm) overlap at seams • Mechanical anchor with 2 inch (5 cm) washers • Stainless steel batten strips • 80-180 mils (2032-4572 microns) polyurea • Slow setting polyurea formulation

  15. Polyurea Slow Set vs. Fast Set • Slow Set • To touch- 20 min. • Light traffic- 4 hrs. • To cure- 36 hrs. • Potlife- 8-10 min. • Fast Set • To touch- 20 min. • Light traffic- 1 hr. • To cure- 24 hrs. • Potlife- 3-5 min.

  16. Mock-up It is a good idea to perform a full scale mock-up over a representative area prior to applying full system

  17. Loose Liner Pro’s • No direct adhesion to concrete required • Minimal surface preparation required only for metallic protrusions • High film build material permits adequate coating of crevices • Low film build is anything below 25 mils (635 microns) • High film build is anything over 25 mils (635 microns) • Contours around protrusions • Relatively swift installation due to fast cure time and plural component equipment use during installation

  18. Loose Liner Con’s Ultrasonic dry film thickness (DFT) gages are not accurate over the polyurea/ geotextile system System highlights all angulations and uneven surfaces

  19. Lessons Learned Observed formation of small voids around the edges of the anchor washers Avoided by sealing around mechanical anchor/ washers and edges of baseplates

  20. Measuring DFT • The following method was used to determine DFT: • 3” x 5” steel panels placed within coating area prior to application • Once coated, panels were removed from liner using razor blades and patch was recoated • Number of panels determined in accordance with SSPC-PA2 frequencies, with each panel representing one spot measurement • Panels were measured using a magnetic thickness gage, labeled on back, and kept as part of inspection records. • Patch area was easily repaired leaving minimal physical evidence

  21. SSPC-PA 2 • Procedure for Determining Conformance to Dry Coating Thickness Requirements • Describes a procedure for determining shop or field conformance to a specified coating dry film thickness (DFT) range on ferrous and non-ferrous metal substrates using nondestructive coating thickness gages (magnetic and eddy current) • A minimum of 3 gage reading = 1 spot measurement • An area measurement = 5 spot measurements

  22. SSPC-PA 2 • For areas not exceeding 300 ft2 (30 m2) • Measure each 100 ft2 (10 m2) area • For areas greater than 300 ft2 (30 m2) and not exceeding 1000 ft2 (100 m2) • Select three 100 ft2 (10 m2) areas • For areas exceeding 1000 ft2 (100 m2) • Measure as in second bullet, but for each additional 1000 ft2 (100 m2) area, arbitrarily select and measure one additional 100 ft2 (10 m2) area

  23. Lessons Learned • Development of tie-in and termination details • Distance between anchors • Distance of anchors from grout pads • Terminations over baseplates • Sealing uni-strut supports • Manipulation of geotextile fabric • In corners of concrete curbs • Inside concrete sumps and trenches

  24. Lessons Learned • Formation of “Bird-Mouths” between overlapping seams • Due to heat of the polyurea during application, the top layer of the seam lifted, forming a gap exposing bare concrete • Repaired by sealing the seams using a slow setting brush-grade version of polyurea • A 2 inch (5.08 cm) wide line of polyurea was applied between the layers of geotextile seams, then firmly pressed using a smooth seam roller

  25. Lessons Learned Fabric Tenting- causing the fabric to be pulled taut, increasing stress in the immediate location Repaired by modifying the order in which the anchors are installed, calling for the exterior baton strip to be fully installed prior to any anchor bolts being set in the base mat

  26. Summary Polyurea/ geotextile floating liners are viable solutions for extensively cracked concrete Allow for concrete movement without affecting coating Capable of providing 100% containment Minimizes surface preparation requirements No crack repair required Contours around protrusions

  27. Questions?

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