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Concrete Curing & Protection SWMS

Curing of fresh concrete via water cure, membrane cure, or plastic sheet cure. Includes timing of cure start, moisture application, sheet placement and weighting, joint protection, temperature monitoring.

βš–οΈWHS Regulation 2025 & Codes of Practice β€” legally binding from 1 July 2026 (s26A)
πŸ‘·Reviewed by certified occupational health and safety professionals
πŸ—ΊοΈState-specific variants for all 8 Australian jurisdictions
$99 AUDβœ“ Instant Download Available

SWMS variants reference your state’s WHS legislation. Instant download after payment.

Concrete curing and protection covers the controlled hydration of freshly placed concrete using water cure (ponding, sprinkling, soaker hoses), membrane-forming compounds, or plastic sheet cure, including the critical timing of cure commencement, ongoing moisture maintenance, sheet placement and weighting, joint and edge protection, and surface temperature monitoring. Although curing follows the pour, it remains construction work under the WHS Regulation 2025 because it involves chemical exposure, manual handling of wet sheeting, working on freshly cured slabs with reduced friction, and frequently occurs in confined slab edges, podium decks, or trafficable areas. A Safe Work Method Statement is mandatory whenever the curing task intersects Schedule 1 High Risk Construction Work β€” typically through manual handling of wet plastic sheeting and the slip/trip risk created across the protected surface. The SWMS documents hazard identification, hierarchy-based controls, consultation with the curing crew, and the supervisory sign-on required before the first sheet is laid or the first membrane sprayed.

Hazards identified

7 hazards covered, sorted by priority.

Slip on wet plastic sheeting or ponded curing water across slab surfaceHIGH

Same-level falls causing wrist fractures, coccyx injury, head strikes; lost-time injury and notifiable incident under s38

Manual handling of large saturated polyethylene curing sheets and hessian rollsHIGH

Lumbar disc injury, rotator cuff strain, chronic musculoskeletal disorder requiring workers compensation claim

Inhalation of solvent-based membrane curing compound aerosols during spray applicationHIGH

Respiratory irritation, chemical pneumonitis, central nervous system depression from VOC exposure exceeding workplace exposure standards

Skin and eye contact with alkaline curing water or membrane compound oversprayMEDIUM

Chemical burns, alkaline keratitis, contact dermatitis; permanent corneal scarring possible without immediate irrigation

Trip on sheet edges, weighting timber, soaker hose runs, and joint protection battensMEDIUM

Falls onto fresh concrete edges or formwork stripping zones causing lacerations, fractures, and finish damage

Heat stress during summer curing rounds and re-wetting cycles on exposed decksMEDIUM

Dehydration, heat exhaustion, heat stroke; impaired judgment leading to secondary incidents and medical evacuation

Cold burns and hypothermia during winter cure protection using insulating blankets and accelerated cure heatingLOW

Frostnip on hands handling chilled sheeting, hypothermia, and CO exposure from indirect-fired heaters in enclosed pours

Control measures

Hierarchy-of-controls order: elimination β†’ substitution β†’ isolation β†’ engineering β†’ administrative β†’ PPE.

  1. 1Elimination β€” Specify internally-cured concrete or self-curing admixtures during design phase to remove the need for external water or membrane cure entirely on suitable mixes.
  2. 2Elimination β€” Schedule curing sheet placement before slab is trafficable to other trades, eliminating exposure of unrelated workers to the slip hazard zone.
  3. 3Substitution β€” Substitute solvent-based membrane curing compounds with water-based wax-emulsion or resin compounds compliant with AS 3799 to reduce VOC inhalation risk.
  4. 4Substitution β€” Replace heavy continuous polyethylene rolls with pre-cut lightweight curing blankets sized for two-person lift under 16 kg per piece.
  5. 5Engineering β€” Erect physical barricades and high-visibility bunting around the curing zone to exclude other trades, and provide mechanical sheet-laying frames where deck size permits.
  6. 6Engineering β€” Use airless spray equipment with extension wands and local exhaust on enclosed pours to keep membrane aerosols below the breathing zone.
  7. 7Administrative β€” Conduct pre-start SWMS sign-on covering cure method, expected weather, exclusion zone, and emergency eyewash location; rotate crew every 90 minutes during heat.
  8. 8Administrative β€” Implement a permit-style curing zone log noting sheet placement time, re-wetting schedule, temperature readings, and the supervisor authorising trade re-entry.
  9. 9PPE β€” Issue chemical-resistant nitrile gauntlets, indirect-vent chemical splash goggles, P2 vapour respirators during membrane spray, and Class 5 slip-rated safety boots.
  10. 10PPE β€” Provide high-visibility long-sleeve garments, sunscreen, and insulated gloves for winter cure, with cooling vests available for summer re-wetting rounds above 32Β°C.

Applicable Codes of Practice

AS 3799-1998 Liquid membrane-forming curing compounds for concrete

Specifies acceptable curing compound types, VOC content and application rates β€” directly governs substitution and application controls in this SWMS.

Safe Work Australia Code of Practice β€” Hazardous Manual Tasksβš– Legally binding Β· 1 Jul 2026

Triggers risk assessment for repetitive lifting and dragging of wet curing sheets; mandates control selection following the hierarchy under WHS Reg s60.

Safe Work Australia Code of Practice β€” Managing Risks of Hazardous Chemicals in the Workplaceβš– Legally binding Β· 1 Jul 2026

Applies to membrane curing compound storage, SDS access, atmospheric monitoring against workplace exposure standards, and spill response per WHS Reg Chapter 7.

AS/NZS 2210.3:2019 Occupational footwear β€” Specification

Defines slip-resistance ratings required for boots worn on plastic-sheeted or ponded curing surfaces, supporting the PPE control layer.

High-Risk Construction Work triggered

14
Construction work involving hazardous manual tasks

Repeated lifting, dragging and positioning of saturated polyethylene curing sheets and hessian over large slab areas constitutes a hazardous manual task under Schedule 1.

18
Construction work on a surface presenting a slip or trip hazard

Wet plastic sheeting, ponded cure water and soaker hoses create a continuous slip and trip surface across the curing zone for the duration of cure.

Legal consequence

The PCBU must prepare, consult workers on, and retain this SWMS for the duration of the work plus two years post-incident; penalties for non-compliance are substantial and indexed, with the current maximum following the prevailing WHS schedule.

Who this is for

  • β†’Concrete finishers on commercial slab and deck pours
  • β†’Site supervisors managing post-pour curing programs
  • β†’Civil contractors curing pavements, kerbs and bridge decks
  • β†’Precast and tilt-up panel yard curing crews

What you receive

  • βœ“Editable DOCX template β€” Microsoft Word compatible
  • βœ“State-specific WHS legislation schedule (NSW/VIC/QLD/SA/WA/TAS/NT/ACT)
  • βœ“Hazard register with risk ratings + hierarchy-of-control mapping
  • βœ“Worker sign-on register, pre-start checklist, and incident escalation flow

Worked example

On a four-level commercial podium pour, the concrete foreman opens this SWMS at the 5:30 am pre-start with the three-person curing crew before the final trowel pass is complete. Working through the hazard register, the crew confirms the day's forecast peak of 34Β°C triggers the heat stress control β€” a 90-minute rotation and chilled water station at the lift core. The membrane option is ruled out because the architect specified an applied floor finish, so water cure with poly sheeting is selected; the foreman walks the crew through the manual handling control requiring pre-cut 4-metre sheet lengths and two-person carries rather than dragging full rolls. Each worker signs the SWMS against the specific controls they will perform, noting their PPE β€” Class 5 slip-rated boots, nitrile gauntlets and splash goggles. Barricade bunting and 'Curing Zone β€” No Entry' signs go up before the first sheet is laid. Mid-morning, an unplanned crane lift requires a dogger to cross the slab; the supervisor pauses work, references the SWMS exclusion-zone clause, and issues a controlled crossing using temporary anti-slip matting, recording the deviation in the curing zone log. At handover, the signed SWMS and log are filed against the project HSE record for the statutory retention period.

Related legislation

  • WHS Act 2011 (model)
  • WHS Regulation 2025
  • AS 3600 β€” Concrete structures
What's in this SWMS

Document details

Regulation
WHS Regulation 2025, Schedule 1 β€” High Risk Construction Work
HRCW Category
Manual handling, slip/trip on plastic sheeting
Hazards Identified
7 hazards with controls
Format
Editable DOCX (Microsoft Word)
Author
Certified Industrial Hygienist (CIH)
Delivery
Instant download after payment