Bund Lining Types

Expansion Joint & Detail Treatment

Expansion joint and detail treatment is the specialist work that turns a lined bund into a sealed one. It covers every movement joint, penetration, corner and termination where flexibility, chemical resistance and a pinhole free seal have to co-exist. Across a bund lining system, this is the work that decides whether containment holds.

Definition

What is Expansion Joint & Detail Treatment?

Most bund failures happen at joints and details, not across the main coating. Expansion joints give concrete the movement points it needs, but they also interrupt the containment barrier. Detail treatment seals them with flexible, chemically resistant materials that take the movement while holding containment. To work reliably, those seals and the coatings beside them must stay bonded, resist chemical exposure and form a continuous, leak free barrier across the design life.

When is Expansion Joint & Detail Treatment Required?

  • Expansion joint and detail treatment is required wherever a lined bund has a movement joint, a penetration, a re-entrant corner or an edge termination. It is needed when a sealant reaches the end of its service life, or when a new detail is introduced.
  • Joint-specific triggers include perished or torn sealants, debonded flanks, hardened material that no longer accommodates movement, new penetrations from plant changes, and details exposed during integrity testing. New builds and refurbishments alike benefit from specialist detailing.
  • This work falls under the regulations COMAH, the Oil Storage Regulations, Environment Agency PPGs and CIRIA C736.

Common Expansion Joint & Detail Treatment Structures

Formed and saw-cut expansion joints in concrete slabs and bund floors

Construction and day joints between consecutive concrete pours

Isolation joints separating slabs from walls, columns or plinths

Kicker joints at the base of bund walls

Wall-to-floor coved fillets tying floor lining into wall lining

Wall-to-wall internal corners and re-entrant details

Top-of-wall terminations and external drip edges

Penetrations around pipework, supports, drains, anchors and cable trays

Sump and catchpot transitions

Precast panel joints and modular bund interfaces

Crack repair and injection details within otherwise sound concrete

Expansion Joint & Detail Treatment Performance Requirements

  • Chemical resistance: the sealant and primer must resist the stored media at realistic concentrations and temperatures, not just the field chemistry.
  • Movement accommodation: each joint has a movement class. The sealant’s modulus, elongation at break and cyclic fatigue must match the design joint movement.
  • Adhesion: the sealant must bond to both primed flanks and stay bonded under movement, which makes substrate preparation and primer selection critical.
  • Impermeability: the finished detail must form a continuous, pinhole free seal. Every transition between sealant and field lining is a potential leak path.
  • Joint geometry: depth to width ratio (typically 1:2 for most elastomeric sealants), correct backer rod sizing and a clean bond breaker are non negotiable.
  • Thickness and profile: the sealant must finish flush or slightly recessed, never proud, to avoid shear damage under foot or wheel traffic.
  • Durability: the detail must survive thermal cycling, UV exposure where relevant, cleaning regimes and incidental damage across the service life.
  • Fire performance: for hydrocarbon duty, fire resistant sealants or intumescent backing details may be specified.
Systems

Recommended Expansion Joint & Detail Systems

For detail treatment the palette is narrower than for field lining, because each product has a defined role: prime the flank, bond to a clean substrate, take a calculated movement class, or reinforce a re-entrant detail. ResChem draws from the following:

Epoxy Resins

Used to prime joint flanks, bed reinforcing fleeces at re-entrant corners and infill non moving details such as static cracks, sealed in penetrations and damaged arrises reinstated before sealant goes on. Here epoxy is the foundation work, not the moving seal.

Polyurethane Resins

The default sealant for movement joints in UK bunds, in gun grade for vertical wall joints and self levelling for horizontal floor joints. PU gives the elongation, recovery and movement class (typically 25% MAF) an active expansion joint needs across its service life.

Polyurea Resins

The choice for rapid detail work where a leaking penetration, debonded collar or perished joint must be back in service in hours, not days. Sprayed polyurea also suits full reinforcing detail bands at wall to floor coves and re-entrant corners.

Vinyl Ester Resins

For joints and details exposed to concentrated mineral acids or oxidisers, where a standard polyurethane sealant would harden, split or break down chemically. Usually specified as a fleece reinforced detail band rather than a movement seal.

Novolac Epoxy Resin

The priming and fleece bedding chemistry for the most demanding details: hot solvent splash zones, high concentration acid penetrations and elevated temperature joints where a standard epoxy primer would soften and lose grip on the flank.

Methods

Recommended Expansion Joint & Detail Build-Up Methods

Joint and detail work is about geometry and sequencing: the right backer rod depth, the right depth to width ratio, the right primer in its cure window, and a clean transition into the field lining. Every method below is shaped around those disciplines.

Site Fabrication

Fabricated cover strips and trafficked joint protectors for floor expansion joints, weatherbar profiles for top of wall details, splice plates for precast panel interfaces, and bespoke pipe and cable collars where standard penetration kits do not fit.

Lining and Levelling

Local correction at the detail: rebuilding spalled joint shoulders, reinstating square arrises and bringing both flanks of a joint into one plane so the sealant sits at its calculated depth to width ratio, not chased into an irregular pocket.

Protective Coatings

Sequencing the field coating so it terminates cleanly into the sealant rather than running over it. We feather the lining back from the flank, prime with a chemistry the sealant can bond to, and tool the detail flush so it presents no stress riser to foot or wheel.

Bund Lining Repairs

Joint specific remediation: racking out perished sealant, removing failed backer rod, exposing sound concrete on both flanks, then repriming and resealing without disturbing the field lining. Most joint failures are fixed without recoating the bund.

Trowel Applied Mortar Systems

Rebuilding the geometry joint work depends on: damaged joint shoulders, broken kicker arrises at the base of bund walls, spalled corners at penetrations and kerb upstands at containment edges. This is preparatory to sealing, not a substitute for it.

Surface Preparation

Preparation at a joint is a different discipline from preparation across the field. We rack out and back grind both flanks to fresh concrete, extract dust from the full joint depth, manage moisture so the primer takes, and prime within the manufacturer's cure window.

Key Design & Detailing Considerations

  • Joints: every construction, day and movement joint needs to be identified, classified by expected movement and specified with a sealant and primer that actually match that movement class. See the main service page (this one) for our standard approach, and expect every bund wall and floor to carry at least one movement joint.
  • Penetrations: pipes, supports, drains, anchors and cable trays should each be engineered with a dedicated collar, primed flank and sealant fillet. Retrofitting a penetration seal after the field lining is installed is usually a false economy.
  • Corners: internal corners concentrate stress. A coved fillet with reinforcing fleece is the minimum; for aggressive chemistry or high movement, a stepped profile may be specified.
  • Drainage: drainage outlets are both penetrations and movement points. They need the lining carried through the fitting with a sealed flange or collar and a valved, normally closed outlet.
  • Surface preparation: the specified surface profile at a joint flank (typically freshly exposed, clean, dust-extracted concrete) is the foundation for adhesion. A sealant applied to a contaminated or poorly prepared flank is certain to fail.
  • Joint geometry and spacing: joint depth, width and spacing are engineered calculations, not field decisions. Existing joints should be measured and compared against the movement class of the proposed sealant before work starts.
Regulatory Compliance

Regulatory Compliance

Expansion joint and detail treatment sits within the wider UK regulatory framework, and the specification should evidence compliance from day one. The principal obligations are:

COMAH (Control of Major Accident Hazards Regulations) - requires operators to prevent major accidents and limit their consequences, including through reliable containment. Environment Agency (EA) - PPG2 (oil storage), PPG18 (chemicals) and sector-specific guidance, all of which treat failed joints as a containment breach. HSE - process safety, DSEAR and workplace duty of care. Oil Storage Regulations - specific containment requirements for oils and fuels above defined thresholds. CIRIA C736 - practical industry guidance on bund design, explicitly including joints and details.
See Our Standards & Regulations →
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FAQ

Frequently Asked Questions

Often yes, joint and detail work is targeted, localised and well suited to short outage windows, and rapid-cure polyurea systems can have a single detail back in service inside hours. Where adjacent plant remains live, we work under permit-to-work and isolate only the immediate area being treated rather than the wider asset.

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