01. Basements - Raft

01. Basements - Raft

System Manual
01. BOQ with Specs, Checklists_Basement-Raft.xlsx

1. Introduction

Raft slabs form the lowest structural element in basements and are continuously exposed to groundwater pressure, soil contaminants, and damp construction conditions. Proper waterproofing of the raft is critical to ensure long-term durability, prevent seepage, and protect reinforcement.

Waterproofing solutions must be pre-applied or fully bonded to resist lateral migration of water. Technology choice depends on basement depth, soil type, water table levels, and execution space.

2. Area of Application

  • Below-grade raft slab in basements
  • Areas with high ground water table
  • Structures in aggressive soils or corrosive ground water environments
  • Rafts adjoining retaining walls, lift pits, sump pits, STPs, and UGTs

3. Technologies for Raft Waterproofing

Technology
Advantages
Disadvantages
Recommended Use Case
Read More
HDPE Membrane (Pre-applied, Sanded/Bonded)
Fully bonded to RCC Raft, prevents lateral water migration, unaffected by wet substrate, high chemical resistance, long service life
Requires skilled installation; overlap joints need care
Deep basements, high water table
HDPE Membrane Waterproofing
PVC Membrane (Loose laid)
High flexibility, mechanical resistance, root-resistant, double-weld joints testable, independent of structural movement
Loose laid – requires fail-safe mechanism; potential lateral water migration
Deep basements with high excavation depth
PVC Sheet Membrane Waterproofing
EPDM Membrane
High elasticity, UV and weather resistant
Limited bonding under damp substrate; poor adhesion to PCC
Shallow basements with low water table
Polyurethane Membranes
Liquid Applied Systems (PU/Hybrid)
Becomes integral with concrete, seals cracks up to 0.3mm, reactivates with moisture
Rigid, slow process, not effective under very high pressure
Shallow basements, secondary protection
Crystalline Waterproofing (Integral Powder & Surface-Applied Slurry)
Cementitious Systems
Easy application, compatible with PCC, economical
Rigid, prone to cracking, limited to low pressure
Ancillary structures, lift pits
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Swelling Clay / Bentonite
Self-healing, automatic expansion against leaks
Requires confinement, swelling pressure may damage
Rafts with continuous soil pressure
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Shahabad Stone Tiling (Old method)
Historical method, simple
Prone to joint leakages, not durable
Only for heritage reference, not modern spec
-

4. System Details

  • Surface Preparation: PCC cleaned, free from laitance, sharp edges, voids, and standing water.
  • Membrane Laying
    • HDPE Membrane (Pre-applied, Sanded/Bonded)

      • Applied directly over PCC, adhesive side up; fresh concrete poured on top ensures full bond and eliminates lateral migration.

    • PVC Membrane (Loose laid)

      • Laid loosely over PCC with overlaps heat-welded; requires an additional fail-safe system (like injection hose) for long-term security.

    • EPDM Membrane

      • Sheet membrane applied over PCC; provides high elasticity but requires a dry, prepared substrate for proper adhesion.

    • Modified Bitumen Membrane

      • Torch-applied / cold-applied over PCC substrate with a primer; adhesion is only to PCC, hence surface must be smooth and dry.

    • Crystalline System

      • Applied as a slurry coat on positive side of raft; penetrates concrete pores, grows crystals, and seals hairline cracks up to 0.3 mm by reacting with free lime in concrete.

    • Cementitious Systems

      • Brush/roller applied as slurry coating on PCC; economical for small rafts or as a secondary barrier.

    • Swelling Clay / Bentonite

      • Sheets placed against PCC before pouring raft; swelling action self-heals joints when exposed to water.

    • Box Type Waterproofing (Shahabad Tiles / Old Style)

      • Flat stone tiles (e.g., Shahabad) laid over PCC with cement mortar; joints grouted. Provides rigid physical barrier, but prone to leakage over time.

    • Liquid Applied Systems

      • Spray/roller applied directly over PCC surface; forms seamless monolithic layer, best for small raft areas or detailing around penetrations.

  • Termination Details:
    • Unconfined wall: Terminate 40 mm below raft top.
    • Confined wall: Extend 300–500 mm above raft level, protected by flashing.
  • Raft & Wall Junctions: Provide waterstops (hydrophilic/EPDM) or Re-injectable hose pipes or hydroswelling waterbars at all construction joints.
  • Repairs: Scratches with double-sided adhesive tape; punctures patched with ≥150 mm overlap.

Decision Guide

  • Deep basements or high groundwater table → Prefer fully bonded HDPE pre-applied; PVC with compartmentalization when justified.
  • Shallow basements or ancillary pits → Cementitious or coal tar epoxy for light-duty, not as primary line of defense under high head.
  • Large areas with complex details → 2K PU spray or fully bonded sheet depending on constructability and QA capability.
  • Always provide waterstops at all construction joints; avoid systems that allow lateral water migration.

5. Video Masterclass

SpecX Masterclass: Raft Waterproofing – Choosing the Right Technology → 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.