Junctional Leakages

Accessibility

Only negative side accessible

Application Method Summary

Clean and prime. Seal circumference with PU sealant and bandage with liquid membrane + geotextile. If active flow and top inaccessible, drill NRV grid and inject hydrophilic PU. Verify with water test.

Leakage ID

LQ-JUNCTION

Likely root causes

CracksPoor detailingUV degradation

Location

Junction

Next Steps

QC/Tests

Recommended Technology Tags

Injection GroutPU Membrane

Recommended technologies

Injection Grouting TechnologyPolyurethane MembranesCementitious MembranePolyurea Membranes

Reference Image

Related applications

06. Wet Areas (Bathrooms / Balconies / Kitchens / Refuge Slabs)07. Terraces 05. Swimming Pools

Segment

Junctions

Select

Top

Severity

High

Solution Type

Sealant repairInjection groutingCrack treatment

Specific Area / Component

Top Tech Picks

FPO/ TPE based TapesSealants

Summary

Leakage at junctions occurs where dissimilar materials meet or where penetrations interrupt continuity. Differential movement is the dominant failure driver.

Typical junctions

Pipe penetrations through slabs/walls
Skylight terminations on metal roofs
Parapet-wall to slab, curb-to-deck, sleeve openings

Symptoms

Local dripping during discharge (pipes) or during rains
Wet rings around sleeves; stains at skylight edges

Probable causes

No flexible seal/band allowing movement
Rigid mortar repairs at flexible interfaces
Inadequate priming/compatibility with PVC/metal

Solution paths

Flexible sealant repair with proper primers
Local reinforcement band (geotextile + liquid membrane)
Injection grouting when active flow is present and top is inaccessible

Recommended technologies

PU sealant with epoxy/PVC primer
2K PU or PU liquid membrane bandaging
Hydrophilic PU injection grout for running leaks

Quick SOP

1) Clean and abrade substrate; solvent wipe PVC/metal; apply appropriate primer.

2) Seal circumference with PU sealant; tool to concave profile.

3) Bandage area with 2K PU/liquid membrane and geotextile; ensure overlap.

4) If active flow: drill NRV grid and inject hydrophilic PU; then bandage.

QA / acceptance

Acceptance criteria

Correct primer used on PVC/metal; clean, abraded surfaces.

PU sealant bead continuous with proper profile; no voids.

Bandaging with liquid membrane + geotextile fully bonded and overlapped.

If injected, NRV spacing and grout emergence documented.

Water test around penetration passes within 24–48 hours; photos logged.

Water test around penetration; no damp ring after 24–48 hr

Cross-links

Video Masterclass

SpecX Masterclass: Junctional Leakages Solutions — Coming Soon

Disclaimer

Applications: Wet Areas, Terraces, Pools (penetrations)
Technologies: PU membranes, Injection Grouting, Sealants

Why Junctions Leak

Junctions are interfaces between dissimilar materials — concrete with PVC, metal with concrete, polycarbonate skylight with roofing sheet.

Because these materials expand and contract at different rates (differential thermal movement), rigid detailing fails, cracks open, and water easily finds a path.

1. Pipe Penetrations (Concrete + PVC/Metal Pipes)

Failure: Cracking and debonding at the annular gap where pipe passes through RCC slab. Concrete shrinks/expands differently than PVC/metal, leaving micro gaps.
Where you see it: Bathrooms, kitchens, water tanks, STPs.
Solution:

Pack annulus with polymer-modified non-shrink grout.
Apply epoxy primer + flexible PU sealant/epoxy putty around pipe base.
Reinforce with geotextile + liquid membrane at junction.

2. Skylight Terminations on Industrial Roofs

Failure: Skylight sheets (polycarbonate) expand/contract faster than metal roofing, breaking sealants at the termination detail. Rainwater seeps inside.
Where you see it: Industrial sheds, warehouses, PEB structures.
Solution:

Use high-movement silicone sealants or PU hybrid sealants with UV stability.
Provide flashing overlaps with butyl tapes or preformed bands to absorb movement.
Avoid rigid cementitious patches which will fail under thermal cycling.