Coal Tar Epoxy Coating (High-Solids, Solvent-Free)

Coal Tar Epoxy Coating (High-Solids, Solvent-Free)

Product Manuals
01. Coal Tar Epoxy_Product Manual.xlsx

1. Introduction to Coal Tar Epoxy Technology

Coal tar epoxy coatings are two-component epoxy resin systems extended with pitch that provide a high-build, durable protective layer on concrete and steel surfaces. They are solvent-free or low-solvent, highly chemical resistant, and widely used in below-grade, marine, sewage, and aggressive environments.

Coal tar epoxy is most effective on isolated footings, pile caps, STPs, effluent tanks, and marine splash zones, where resistance to sulfates, sewage, and chemical attack is critical.

2. Advantages

  • High build (≥ 300 μm DFT in 2 coats).
  • Excellent chemical resistance (sewage, effluent, seawater, dilute acids & alkalis).
  • Strong adhesion to concrete and steel (>1.5 MPa, concrete failure).
  • Abrasion resistant (CS17 wheel, <20 mg/1000 cycles).
  • Suitable for damp surfaces (after surface prep).
  • Long service life when properly applied.

3. Limitations

  • Not suitable for potable water or food contact areas.
  • Requires thorough surface preparation (substrate defects visible through coating).
  • Sensitive to application delays — recoat must be done within 12–24 hrs or surface must be abraded.
  • Limited flexibility → not suited for dynamic cracking structures.
  • Requires careful mixing (mechanical mixing mandatory).

4. Performance Table

Property
Requirement / Value
Test Standard
Volume Solids
80%+
Manufacturer spec
Mixed Density
~1.65 kg/L
Datasheet
Pot Life
60 min @ 25°C
Manufacturer spec
DFT
300 μm (2 coats × 150 μm)
Datasheet
Touch Dry
~4 hrs @ 25°C
Manufacturer spec
Final Cure
5 days @ 25°C
Manufacturer spec
Adhesion Strength
≥ 1.5 MPa (concrete failure)
ASTM D4541
Abrasion Resistance
≤ 20 mg/1000 cycles
ASTM D4060
Slant Shear Bond
> 10 MPa
ASTM C882
Resistance to Chemicals
Pass (sewage, effluent, seawater, dilute acids & alkalis)
ASTM C267 / MTS Test
Weathering Resistance
No blistering, cracking, flaking
ASTM D4587

5. Recommended Use Cases

  • Isolated footings with high groundwater table.
  • Sewage treatment tanks, effluent drains, sumps.
  • Marine splash zones (offshore piles, jetty supports).
  • Below-grade concrete and steel in aggressive soils.

6. Application Steps (Standard Method Statement)

Surface Preparation

  • Concrete: ≥ 28 days old, sound, free of laitance, grease, oil.
  • Treat blowholes & pinholes with repair mortar.
  • Substrate moisture < 5% preferred.

Mixing

  • Mix components A & B with a slow-speed drill (300–400 rpm) for 3 minutes until uniform.
  • Do not mix by hand.

Application

  • Apply 2 coats (brush/roller/airless spray).
  • Wet film thickness: 150 μm per coat → 300 μm total DFT.
  • Second coat at right angle to first, after 4–6 hrs (30°C).
  • If recoating delayed, abrade previous coat & solvent wipe.

Curing

  • Touch dry: ~4 hrs at 25°C.
  • Recoatable: 12 hrs.
  • Final cure: 5 days.

Steel Surfaces

  • Blast clean to SA 2½ (bright metal).
  • Coat immediately after blasting.

7. Section Drawings

  • Isolated footing cross-section with external coal tar epoxy coating.
  • STP / sump tank wall detail.

8. Reference Standards

  • ASTM D4541 – Adhesion (Pull-off Test).
  • ASTM D4060 – Abrasion Resistance (Taber Test, CS17).
  • ASTM C882 – Slant Shear Bond.
  • ASTM C267 – Chemical Resistance.
  • ASTM D4587 – Accelerated Weathering.
  • IS 2645 – Waterproofing admixtures (if combined with integral).

9. Documents

Specifications, BOQ, and Checklist

General Spec Document.docx76.3 KB
BOQ with Specs Clause.xlsx19.2 KB
CheckList.xlsx19.2 KB

5. Video Masterclass

SpecX Masterclass: Coal Tar Epoxy Coating — Coming Soon

Disclaimer

SpecX is an industry initiative & a neutral resource, compiled from industry references and best practices. It is not brand-specific. Always cross-check with project requirements and local codes before finalizing specifications.