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Epoxy Injection SWMS

Safe Work Method Statement covering the key hazards and control measures for epoxy injection.

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
$149 AUDβœ“ Instant Download Available

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

Epoxy injection is a structural repair technique used to bond cracks in concrete elements such as slabs, beams, columns, retaining walls and post-tensioned decks. The process involves drilling injection ports, sealing crack faces with surface paste, then pumping a two-part epoxy resin under pressure (typically 7–20 bar) using manual or pneumatic injection equipment. The work generates exposure to hazardous chemicals (bisphenol-A diglycidyl ether, amine hardeners), pressurised fluid hazards, dust from drilling, and frequently occurs in confined or elevated positions on active construction sites. Under WHS Regulation 2025, a SWMS is mandatory because the task constitutes High Risk Construction Work β€” specifically the use and storage of hazardous chemicals on a construction project, with sensitisation, dermatitis and respiratory illness risks documented in Safe Work Australia's model code. The SWMS must be prepared before work commences, consulted with workers, kept accessible at the workplace, and reviewed if controls are revised or an incident occurs.

Hazards identified

7 hazards covered, sorted by priority.

Skin contact with uncured epoxy resin (Part A) causing allergic contact dermatitisHIGH

Type IV hypersensitivity, chronic eczematous dermatitis, permanent sensitisation ending the worker's career in resin trades

Inhalation of amine hardener vapours (Part B) during mixing and decantingHIGH

Occupational asthma, chemical bronchitis, irreversible airway hyperresponsiveness and notifiable industrial disease under WHS Act s38

High-pressure resin ejection from failed injection port or burst hose at 7–20 barHIGH

Subcutaneous injection injury, compartment syndrome, surgical debridement, possible amputation if treatment delayed beyond six hours

Respirable crystalline silica dust from hammer-drilling injection ports into concreteHIGH

Accelerated silicosis, lung cancer, COPD; notifiable dust disease under state silica registers and lifetime medical surveillance

Eye splash from low-viscosity resin during port pressurisation or paste applicationHIGH

Chemical conjunctivitis, corneal burns, permanent corneal scarring requiring keratoplasty and lost time injury exceeding 28 days

Exothermic reaction during bulk mixing of catalysed epoxy beyond manufacturer pot-lifeMEDIUM

Smoke generation, thermal burns to hands and forearms, container rupture, secondary fire involving solvents and rags

Manual handling of 20 kg resin pails, drill rigs and injection pumps in awkward posturesMEDIUM

Lumbar disc injury, rotator cuff strain, sustained workers compensation claim and restricted duties for 6–12 weeks

Control measures

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

  1. 1Elimination β€” Where structural engineer permits, eliminate injection by specifying mechanical stitching or carbon-fibre overlay so no resin handling, pressure or amine exposure occurs on site.
  2. 2Elimination β€” Pre-batch and pre-cartridge resin off-site in a controlled facility so workers never decant bulk Part A and Part B at the construction workplace.
  3. 3Substitution β€” Specify low-viscosity, low-vapour-pressure modified epoxy systems with non-volatile cycloaliphatic amine hardeners in place of aromatic amine or solvent-thinned products.
  4. 4Substitution β€” Replace hammer-drilled ports with surface-mounted adhesive injection nipples to remove respirable crystalline silica generation entirely from the task sequence.
  5. 5Engineering β€” Use on-tool H-class HEPA dust extraction shrouds rated to AS/NZS 60335.2.69 on all drilling and provide local exhaust ventilation at the mixing station.
  6. 6Engineering β€” Fit injection lines with pressure-relief valves, whip checks and burst-rated hoses certified to manufacturer maximum working pressure with quarterly hydrostatic test records.
  7. 7Administrative β€” Issue and consult this SWMS at pre-start, restrict the exclusion zone to trained operators only, and limit continuous injection sessions to two hours with rotation.
  8. 8Administrative β€” Maintain a hazardous chemicals register and current SDS per WHS Reg 2025 r344, conduct atmospheric monitoring and provide health surveillance for isocyanate/amine exposure.
  9. 9PPE β€” Wear chemical-resistant nitrile gauntlets (0.38 mm minimum) over cotton liners, Tyvek 500 coveralls, ANSI Z87 indirect-vent chemical goggles and full face shield during injection.
  10. 10PPE β€” Use P2 respirators for drilling and ABEK1-P2 cartridge respirators for mixing/decanting, fit-tested to AS/NZS 1715 with cartridge change-out schedule documented.

Applicable Codes of Practice

WHS Regulation 2025 Part 7.1 β€” Hazardous Chemicals (rr328–392)βš– Legally binding Β· 1 Jul 2026

Triggers duties to label, register, store SDS, manage risks, provide health monitoring and air monitoring for amine and epoxy resin exposure.

Model Code of Practice: Managing Risks of Hazardous Chemicals in the Workplace (Safe Work Australia, 2024 revision)βš– Legally binding Β· 1 Jul 2026

Sets the benchmark process for chemical risk assessment, exposure standards comparison and selection of control measures referenced in this SWMS.

AS/NZS 2243.10:2023 Safety in Laboratories β€” Storage of Chemicals (applied to site decanting stations)

Informs segregation of Part A resin from Part B amine hardener, bunding capacity and incompatibility separation distances at the mixing area.

Model Code of Practice: Construction Work and Managing the Risk of Falls (Safe Work Australia)βš– Legally binding Β· 1 Jul 2026

Applies where injection occurs above two metres on scaffolds, EWPs or formwork, governing edge protection and harness anchorage during the task.

High-Risk Construction Work triggered

16
Construction work involving the use or storage of hazardous chemicals

Epoxy Part A resin and Part B amine hardener are both classified hazardous chemicals under GHS, stored, mixed and pumped on the construction workplace during injection.

Legal consequence

PCBUs must prepare, consult workers on, and retain this SWMS for at least two years (or the project duration plus incident retention); penalties for breach are substantial and indexed, with the current maximum following the prevailing WHS schedule.

Who this is for

  • β†’Concrete remedial contractors on commercial structural repair
  • β†’Civil contractors injecting bridge deck and culvert cracks
  • β†’Waterproofing subcontractors sealing basement and tank cracks
  • β†’Principal contractors managing post-tension repair scopes

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 multi-storey carpark refurbishment, a remedial concreting crew is scheduled to inject 140 lineal metres of shrinkage cracks in the suspended slab soffit from a scissor lift. At the 6:45 am pre-start brief, the supervisor opens this SWMS on a tablet and walks the three-person crew through each hazard line. The injection technician flags that yesterday's drilling generated more dust than expected because the slab aggregate was harder than specified β€” the supervisor consults the engineering controls section and upgrades from the standard shrouded SDS drill to an M-class extractor coupled with wet-edge misting, recording the variation on the SWMS amendment page and having all three workers re-sign the sign-on register. The crew confirms nitrile gauntlets, ABEK1-P2 respirators and face shields are on the lift before ascending. Mid-shift, a port blows off at approximately 14 bar, spraying resin onto a goggle lens. Because the SWMS exclusion-zone control had kept the labourer two metres clear, no skin contact occurred; the technician follows the SWMS emergency procedure, depressurises the pump, swaps the failed port, and the supervisor logs the near-miss against hazard line three. The SWMS is then reviewed at the next toolbox to determine whether port adhesive cure time should be extended from 20 to 30 minutes before pressurisation.

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
HRCW Category
Hazardous chemical β€” epoxy resin injection into structural cracks
Hazards Identified
8 hazards with controls
Format
Editable DOCX (Microsoft Word)
Author
Certified Industrial Hygienist (CIH)
Delivery
Instant download after payment