OH Consultant
SWMSSWMS

Hexavalent Chromium Work SWMS: ALARP Controls for an NTGC with No Safe Level

Hexavalent chromium [Cr(VI)] is one of the most potent occupational carcinogens in the Australian workplace. The International Agency for Research on Cancer (IARC) classifies Cr(VI) compounds as Group 1 carcinogens — a confirmed cause of lung cancer and nasal/sinus cancer in humans. On 1 December 2026, Safe Work Australia will reclassify Cr(VI) as a Non-Threshold Genotoxic Carcinogen (NTGC), replacing the existing numerical Workplace Exposure Limit with an ALARP (as low as reasonably practicable) requirement. This is a fundamental shift in the legal framework: there is no longer a threshold below which Cr(VI) exposure is deemed acceptable, and every practicable reduction in exposure becomes a legal obligation, not a best-practice aspiration.

$199 AUD✓ Instant Download Available

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

Legal Requirements

regulation

WHS Regulations 2017, Part 7.1 (Hazardous Chemicals), regulations 356–383 (Health monitoring); Workplace Exposure Standards for Airborne Contaminants (SWA, amended effective 1 December 2026): Cr(VI) reclassified as NTGC — ALARP obligation replaces numerical WEL

hrcw category

Category 10 — Work involving hazardous material or a contaminated area (WHS Regulation r291(1)(j)); Cr(VI) compounds are Schedule 10 hazardous chemicals with mandatory health surveillance under r356 (IARC Group 1 carcinogen)

code of practice

Model Code of Practice: Managing Risks of Hazardous Chemicals in the Workplace (SWA 2021); Model Code of Practice: Welding Processes (SWA 2020); Safe Work Australia: NTGC Framework and ALARP Assessment Guidance (2026)

section 26a binding

true

Hazards

HazardConsequenceLikelihood
Inhalation of Cr(VI) fume during welding, cutting, or grinding of stainless steel and chrome alloysStainless steel welding generates Cr(VI)-containing fume at concentrations routinely 10–100 times the former WEL without LEV.Almost Certain (A) without on-gun LEV during stainless steel welding
Inhalation of Cr(VI) mist and aerosol from hard chrome electroplating bathsChrome plating baths operate at elevated temperatures with chromic acid (CrO3) as the electrolyte.Almost Certain (A) without effective rim LEV on chrome plating tanks
Skin contact with Cr(VI) compounds causing chromate sensitisation and chromate dermatitisCr(VI) compounds are potent skin sensitisers.Likely (B) without chemical-resistant gloves and strict hygiene controls during plating operations
Inhalation of Cr(VI) dust during abrasive blasting, grinding, or sanding of chromate-coated surfaces or chrome paintAbrasive removal of chromate conversion coatings, chrome primer, or chrome paint generates fine Cr(VI)-containing dust at high concentrations.Almost Certain (A) during dry abrasive operations on chromate-coated surfaces without RPE and area containment
Nasal septum perforation from chronic Cr(VI) exposure in chrome plating workersChrome platers exposed to Cr(VI) mist over months to years develop progressive nasal mucosa ulceration leading to nasal septum perforation — a characteristic and irreversible marker of excessive Cr(VI) exposure.Possible (C) in platers without effective rim LEV; confirmed by biological monitoring
Cr(VI) exposure through Cr-containing Portland cement during concrete mixing, pouring, and surface workPortland cement contains water-soluble Cr(VI) at concentrations up to 40 mg/kg (40 ppm).Likely (B) during bulk cement mixing without gloves and dusty conditions

Controls (Hierarchy of Controls)

[Elimination] Specify Cr(VI)-free surface treatment systems in engineering designs — zinc-nickel alloy plating, trivalent chromium conversion coatings, and organic coatings provide equivalent corrosion resistance without hexavalent chromium
[Elimination] Specify Cr(VI)-free chrome-look coatings (PVD, trivalent chrome) for decorative and functional applications where hard chrome is not technically required
[Substitution] Replace chromate conversion coating (Alodine, Iridite) with trivalent chromium alternatives (Surtec 650, Alodine 5200) or chromate-free primers wherever technically approved
[Substitution] Specify ferritic or duplex stainless grades with lower Cr content for structural applications where 304/316 austenitic grades are not required — reduces Cr(VI) fume generation at welds
[Engineering] Install on-gun LEV (fume extraction torch) for all stainless steel welding — minimum 95% fume capture efficiency at the weld pool; supplement with general dilution ventilation at ≥10 air changes per hour
[Engineering] Install rim ventilation on all chrome plating tanks with capture velocity ≥0.5 m/s at the far rim; supplement with push-pull ventilation for tanks wider than 800 mm; verify performance with smoke or pitot tube measurement every 6 months
[Engineering] Enclose all dry Cr(VI) operations (abrasive blasting, grinding of chrome paint) with negative-pressure containment; HEPA-filtered exhaust; decontaminate booth before worker entry
[Engineering] Install continuous fixed-point Cr(VI) air monitoring with low-range sensor in plating shops and welding areas; alarm at 50% of ALARP reference level; calibrate 6-monthly
[Administrative] ALARP assessment documented before commencement and reviewed whenever process, materials, or production volume change — Cr(VI) NTGC status means the assessment must demonstrate that no further practicable reduction is possible
[Administrative] Personal exposure air monitoring using IOM samplers and NATA-accredited laboratory analysis — before commencement, after any process change, and quarterly during ongoing operations; results compared to ALARP reference level with documented investigation whenever detectable Cr(VI) is present
+ 7 more controls included in the full template

Recent Prosecutions

SafeWork NSW v metal fabrication company — stainless steel welding fumeProsecution under WHS Act — fine and enforceable undertaking; LEV installation and biological monitoring programme mandated

A metal fabrication company had welders working on stainless steel in an enclosed workshop without on-gun LEV, relying solely on general ventilation. Personal air monitoring by the regulator found Cr(VI) fume concentrations 8–12 times the then-current WEL. Workers had no biological monitoring and no health surveillance. The company received prohibition notices, was required to engage an occupational hygienist to design and install LEV before work could resume, and was prosecuted for failure to manage the risk of hazardous chemicals.

2022SafeWork NSW enforcement register

NTGC transition enforcement — chrome plating and stainless steel welding industriesCategory 1 (reckless exposure to NTGC): up to $11.8M body corporate / $1.17M individual; Category 2: up to $3.8M body corporate

Following the NTGC reclassification of Cr(VI) effective 1 December 2026, state WHS regulators conducted targeted inspection campaigns in chrome plating shops and metal fabrication facilities. Operators without current exposure monitoring demonstrating ALARP, without biological monitoring programmes, and without documented ALARP assessments face Category 1 prosecution (gross negligence — reckless disregard of NTGC carcinogen risk) under the WHS Act. The NTGC framework shifts the burden to the PCBU to prove controls are at ALARP, not for the regulator to prove they are not.

2026Safe Work Australia NTGC Transition Guidance

What Your SWMS Must Include

Cr(VI) identified as NTGC with explicit reference to the ALARP obligation effective 1 December 2026 — not listed generically as 'hazardous substance' or 'heavy metal'
Process-specific hazard identification listing every task that generates Cr(VI) fume, mist, or dust
ALARP assessment demonstrating that all reasonably practicable controls have been implemented — reviewed whenever process, materials, or volumes change
LEV specification including type, target capture velocity, design standard, and 6-monthly performance verification schedule
Personal exposure air monitoring plan — method (IOM sampler), NATA-accredited laboratory, sampling frequency, and response to any detectable Cr(VI) result
Biological monitoring programme — urinary chromium schedule, action levels, nasal inspection frequency, medical referral trigger, and 30-year records retention
Respiratory protection programme — respirator class (P3 minimum for Cr(VI)), fit-testing records, maintenance schedule, and incompatibility with disposable dust masks
Skin sensitisation prevention controls — glove specification, skin barrier cream, and chromate dermatitis symptom recognition for early medical referral
Controlled zone demarcation and access controls preventing bystander exposure during Cr(VI) operations
Emergency procedure for significant acute Cr(VI) exposure (eye or skin contact, fume overexposure) including decontamination, medical assessment, and regulator notification
+ 1 more requirements covered in the full template

Cr(VI) NTGC from 1 December 2026 — No Safe Level, ALARP Controls Required

This template pre-loads Cr(VI)-specific hazards, the NTGC ALARP obligation, LEV specifications for welding and plating, biological monitoring requirements, and IARC Group 1 carcinogen controls. CIH-reviewed, editable DOCX, 8 Australian state variants. $75 AUD.

Get Chromium VI Work SWMS — $75 →