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Core Drilling SWMS

Diamond and hammer core drilling for geotechnical, environmental, mineral-exploration and civil-investigation sampling — rig set-up, ground-condition assessment, core recovery, fluid-drilling management, down-hole ergonomics and isolated-site emergency response.

⚖️WHS Regulation 2025 & Codes of Practice — legally binding from 1 July 2026 (s26A)

👷Reviewed by certified occupational health and safety professionals

🗺️State-specific variants for all 8 Australian jurisdictions

$199 AUD✓ Instant Download AvailableYour state

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

Core drilling for geotechnical, environmental, mineral-exploration and civil-investigation programs combines powered rotary plant, high-pressure drilling fluids, suspended loads and frequently remote or single-operator worksites. The activity engages Chapter 4 Part 4.5 of the Model WHS Regulations 2025 covering plant duties, registration of rotating-shaft hazards and operator competency, and is captured as High Risk Construction Work under WHS Regulation 291 when undertaken alongside trenching, shafts or powered mobile plant near workers. State mining safety legislation — WA MSHR 2022, NSW WHS (Mines and Petroleum Sites) Regulation and Queensland CMSHR — imposes overlapping duties for exploration drilling on tenements. A documented Safe Work Method Statement is mandatory before mobilisation: it satisfies the PCBU's duty under s19 of the WHS Act to identify foreseeable hazards, applies the hierarchy of control under Regulation 36, and provides the auditable record required when an inspector, principal contractor or tenement holder requests evidence of consultation under s47.

Hazards identified

7 hazards covered, sorted by priority.

Entanglement in rotating drill rods, chuck and rotation head at unguarded pinch pointsHIGH

Degloving, traumatic amputation of upper limb or fatal drawing-in injury requiring notification under WHS Act s38

Uncontrolled release of stored hydraulic energy from rig mast cylinders and rod-handling ramsHIGH

High-pressure fluid injection injury, crush from falling mast or fatal strike from whipping hose under 250 bar

Borehole collapse and ground subsidence around the collar during unconsolidated overburden drillingHIGH

Engulfment of rig offsider, loss of downhole tooling and potential undermining of rig tracks causing rollover

Inhalation of respirable crystalline silica from dry-cuttings discharge and core-splitting activitiesHIGH

Accelerated silicosis, lung cancer and notifiable occupational disease under WHS Regulation 529 silica register

Manual handling of NQ/HQ drill rods, core barrels and 25kg+ core trays during repetitive tripping cyclesMEDIUM

Acute lumbar disc injury, chronic musculoskeletal disorder and workers compensation claim exceeding statutory thresholds

Strike on underground services — electrical, gas, fibre, water — during shallow geotechnical investigation drillingHIGH

Electrocution, gas ignition, asset-owner prosecution and Dial Before You Dig non-compliance notification

Worker isolation on remote exploration pads with delayed emergency response and no mobile coverageMEDIUM

Untreated trauma, hypothermia or envenomation progressing to fatality before retrieval, breaching first-aid Regulation 42

Control measures

Hierarchy-of-controls order: elimination → substitution → isolation → engineering → administrative → PPE.

1Elimination — Where target data can be obtained from existing borehole logs or non-intrusive geophysics (seismic, GPR), eliminate core drilling from the scope entirely.
2Elimination — Remove personnel from the rotation envelope during tripping by specifying remote rod-handling systems and hands-free breakout wrenches on all rigs over 50kW.
3Substitution — Substitute dry drilling with wet rotary using water or polymer mud to suppress respirable silica below the 0.05 mg/m³ workplace exposure standard per Regulation 49.
4Substitution — Replace manual rod-handling with hydraulic rod-loaders or carousel feed systems on holes deeper than 30 metres to remove repetitive lifting above 20kg.
5Engineering — Install compliant guarding to AS 4024.1-2019 around rotation head, chuck and rod-string, interlocked to stop rotation when the guard is opened.
6Engineering — Use cased collar to 2m depth with steel surface casing grouted in unconsolidated ground, plus exclusion bunting at the 1.5m collar zone per state mining drilling code.
7Administrative — Complete Dial Before You Dig search within 28 days, conduct cable-location sweep with CAT4+ Genny, and pothole to 1.5m by hydro-excavation prior to spudding.
8Administrative — Implement journey-management plan with two-hourly check-ins via satellite communicator, documented PACE escalation and rehearsed retrieval procedure for isolated crews.
9PPE — Mandate P2 half-face respirator with annual fit-testing to AS/NZS 1715, impact-rated safety glasses, hi-vis day/night to AS/NZS 4602.1 and Class 3 vibration-damped gloves.
10PPE — Issue cut-resistant Level D gloves only outside the rotation zone, hearing protection rated SLC80 ≥26dB and flame-resistant coveralls where exploration drilling near gas seams.

Applicable Codes of Practice

AS/NZS 4024.1-2019 Safety of Machinery — Guarding and Risk Assessment⚖ Legally binding · 1 Jul 2026

Specifies fixed and interlocked guarding requirements for rotating drill components, directly satisfying the plant control duty under WHS Regulation 208.

Model Code of Practice — Managing the Work Environment and Facilities (Safe Work Australia, 2024)⚖ Legally binding · 1 Jul 2026

Establishes welfare, hydration and remote-site amenity benchmarks for exploration drilling crews working beyond 30 minutes from fixed facilities.

AS 2865-2009 Confined Spaces (where coring within shafts, sumps or underground workings)⚖ Legally binding · 1 Jul 2026

Triggers atmospheric monitoring, entry permit and standby attendant duties under WHS Regulation 67 for downhole or in-shaft coring activity.

Code of Practice — Excavation Work (Safe Work Australia, 2018) and WHS Regulation 304

Applies to collar pads, sump excavations and trenching greater than 1.5m, requiring engineered ground support and underground service location.

High-Risk Construction Work triggered

Work involving powered mobile plant

Tracked and truck-mounted core rigs are powered mobile plant operating with workers on foot inside the rotation and tripping envelope.

Work in or near a confined space

Coring conducted from within shafts, decline portals or sample sumps creates restricted-entry atmospheres with limited egress and oxygen deficiency potential.

Work in or near a shaft or trench deeper than 1.5 metres

Collar excavations, mud-sumps and geotechnical test-pits routinely exceed 1.5m, exposing offsiders to engulfment and falling-object hazards.

Legal consequence

PCBU must consult workers under WHS Act s47, retain the SWMS for at least 2 years after the work or until a notifiable incident, with Category 1 penalties substantial and indexed; the current maximum follows the prevailing WHS schedule.

Who this is for

→Exploration drilling contractors on mineral tenements
→Geotechnical investigation crews for civil infrastructure
→Environmental consultants conducting contamination coring
→Principal contractors engaging drilling subcontractors on construction sites

What you receive

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

Worked example

On a regional highway-upgrade geotechnical investigation, a two-person crew mobilises a tracked HQ core rig to a verge location flanked by a live carriageway and a buried 11kV feeder. At the 06:30 pre-start brief, the driller-in-charge opens the Core Drilling SWMS on a tablet and walks the offsider through Hazards 1, 2 and 6 — rotating-shaft entanglement, hydraulic mast energy and underground services strike. Together they verify the Dial Before You Dig plans against the painted marks, confirm the cable-locator sweep was completed the previous afternoon, and identify that the planned BH-03 collar sits within 1.2m of the located 11kV alignment. Applying the administrative control, they relocate the hole 2.5m laterally and hydro-excavate the collar to 1.5m before spudding. Both workers sign the SWMS on the device, recording their tickets and competencies. During tripping at 18m, ground conditions change to running sand; the offsider stops work, references the borehole-collapse hazard row, and they install surface casing and switch to polymer mud before continuing. The SWMS amendment is annotated, time-stamped and re-signed in the field, providing the auditable consultation record the principal contractor's WHS coordinator inspects during the weekly site walk.

Related legislation

WHS Act 2011 (model)
WHS Regulation 2025
AS 2865 — Confined spaces

What's in this SWMS

Document details

Regulation

Model WHS Regulations Chapter 4 Part 4.5 (Plant) + AS/NZS 2187 (Explosives — where blast-assist used) + state mining safety regulations (WA MSHR, NSW WHS(Mines))

HRCW Category

Category 13: Powered mobile plant; Category 11: Confined space (underground); Category 6: Work in shafts/trenches

Hazards Identified

14 hazards with controls

Format

Editable DOCX (Microsoft Word)

Author

Certified Industrial Hygienist (CIH)

Delivery

Instant download after payment