1 / 39

Roadware MICRODOWELING Technology

Roadware MICRODOWELING Technology. Hybrid Urethane Concrete Repair. Roadware History. Established 1991 in Minnesota Instrumental in Providing Performance Based High-speed Concrete Repair Products Corporately Over 50 Years Product Development and Field Application In: Highway Industrial

naif
Download Presentation

Roadware MICRODOWELING Technology

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Roadware MICRODOWELING Technology Hybrid Urethane Concrete Repair

  2. Roadware History • Established 1991 in Minnesota • Instrumental in Providing Performance Based High-speed Concrete Repair Products • Corporately Over 50 Years Product Development and Field Application In: • Highway • Industrial • Commercial

  3. What is MICRODOWELING?

  4. Technical Data Summary • Hardness @ 72F 72D • Compressive Strength (w/sand) 4500psi • Elongation: 6% • Tensil Strength 4475psi • Bond Strength, Cal-551 1100psi • Viscosity (at application) 9 cps • V.O.C. (Mixed): 5.5 g/l • Solids: 98% • Cured Color (not exposed to sunlight) Gray

  5. Technical Data Summary • Hardness @ 72F 72D • Compressive Strength (w/sand) 4500psi • Elongation: 6% • Tensil Strength 4475psi • Bond Strength, Cal-551 1100psi • Viscosity (at application) 9 cps • V.O.C. (Mixed): 5.5 g/l • Solids: 98% • Cured Color (not exposed to sunlight) Gray

  6. Surface Tension • A measurement of the ability of a liquid to overcome its own internal friction and penetrate into a material like concrete.

  7. Surface Tension • Roadware 10 Minute Concrete Mender™ has a surface tension three times less than water.

  8. Surface Tension

  9. Viscosity of Concrete Mender (Time zero = time of ejection from nozzle)

  10. Viscosity of Concrete Mender (Time zero = time of ejection from nozzle)

  11. Why it Works • Superior Bond Strength • Ease of Application • Shrinkage • Modulus of Elasticity

  12. Superior Bond Strength • Mechanical Interlock with Microstructure of the Substrate • Measured with Scanning Electron Microscope • Concrete Beam Fractured • Realigned with 1/8” Gap • Mender Applied • Specimen Was Sawed to Isolate Small Samples

  13. Superior Bond Strength

  14. Superior Bond Strength

  15. Why it Works • Superior Bond Strength • Ease of Application • Shrinkage • Modulus of Elasticity

  16. Ease of Application • Viscosity • Related to The Ease of Which Individual Molecules of the Liquid Can Move With Respect to Each Other • Measured As a Function of Time • Brookfield Viscometer

  17. Ease of Application (Time zero = time of ejection from nozzle)

  18. Ease of Application • Concrete Mender Easily Wetted the Surface of Concrete • Mender Is Drawn Into the Concrete Pore Structure by Capillary Tension • Significant Penetration Occurs Within Minutes of Contact.

  19. Ease of Application

  20. Why it Works • Superior Bond Strength • Ease of Application • Shrinkage • Modulus of Elasticity

  21. Shrinkage • International Concrete Repair Institute (ICRI) • Guideline No. 03733 • Shrinkage of 0.05% Is Considered “Low”

  22. Shrinkage • 0.10% Between 1 Hour and 7 Days • 0.05% Between 2 Hours and 7 Days Test Was Completed Without Sand Adding Sand Will Proportionately Reduce Overall Shrinkage

  23. Shrinkage

  24. Why it Works • Superior Bond Strength • Ease of Application • Shrinkage • Modulus of Elasticity

  25. Modulus of Elasticity • 3-point Beam Deflection Test • Tested to Fracture • Nearly Linear Load-Deflection Until Fracture • Samples Fractured in a Brittle Manner

  26. Modulus of Elasticity

  27. Concrete Mender: Summary • High Quality Bond Achieved • Low Viscosity • Low Surface Tension • Shrinkage Is Low

  28. Concrete Mender: Conclusion Repairing Cracks With Concrete Mender Largely Restores the Structural Performance of the Original Concrete

  29. Roadware MICRODOWELING Technology Concrete Mender Job Pics

  30. Repairs - Parking Decks Cracks in parking structures and bridge decks can be repaired without destructive cutting and grinding. Only a light scoring with a diamond blade grinder is used to clean out the crack. A wire wheel grinder will work too.

  31. Repairs - Parking Decks Roadware 10 Minute Concrete Mender™ is flooded deep into the crack and self-injects into the concrete like water into a sponge.

  32. Repairs - Parking Decks Roadware 10 Minute Concrete Mender™ is flooded deep into the crack and self-injects into the concrete like water into a sponge. Silica sand is added to the surface and excess material is wiped away with a trowel or even a piece of cardboard. The brushed finish is retained. The repair is fully traffic ready in 10 minutes.

  33. Repairs - Parking Decks A core sample of the concrete reveals the level of free penetration of 10 Minute Concrete Mender™ when photographed under filtered UV light.

  34. Job Pics

  35. Crack Repair Movie

  36. Job Pics Crack is Identified Scored and Cleaned out Mender and Sand is Added

  37. Job Pics Crack Being Repaired at Full Depth, Sand Is Added to Stop Sinkers Additional Material Is Added to Fill the Crack Up Excess Material is Troweled and Scraped

  38. Job Pics After 10 Min. The concrete is ready. A grinding stone is used to blend the repair Mender Blender can be added to cover the repaired slab Completed Repair

  39. Roadware MICRODOWELING Technology Hybrid Urethane Concrete Repair

More Related