Public Sector & Transport sites in Bristol face a particular slip-risk profile shaped by a tech-and-finance commercial estate and a popular harbourside hospitality scene. We provide UKAS ISO 17025 accredited pendulum slip testing across South West, with reports written to forensic standard.
Bristol's public sector & transport estate concentrates around Cabot Circus, Harbourside and Clifton, with a wider catchment across Clifton, Bedminster, Redland, Stoke Bishop, Easton and the rest of South West. The HSE region of competence is South West.
Within this sector, the typical risk vectors are weather-driven contamination at entrances, footwear-borne dirt, wear in high-volume thoroughfares. Stations and transport interchanges see slip-incident rates many times the national average due to weather contamination at entrances. The duty-holder is regulated by the HSE, the ORR (Office of Rail & Road), the CAA and individual local-authority H&S teams, and transport operators owe a non-delegable duty under the Occupiers' Liability Acts 1957 and 1984 — and slip claims involving stations are routinely litigated.
Typical surfaces we test in Bristol public sector & transport sites include natural stone, granite paving, terrazzo, polished concrete, anti-slip rubber and metal nosings. Where the surface is wet, contaminated, or in a barefoot zone, the appropriate slider and contamination protocol is selected at the point of test.
All our pendulum work is performed under our UKAS ISO 17025 accreditation, using equipment calibrated against UKAS-traceable references. Our reports include the full PTV dataset, photographs of test points, calibration cert references, methodology narrative, classification table and remediation guidance.
For public sector & transport specifically: framework-suitable, OJEU-compliant testing across multi-site portfolios with consistent methodology.
Reports are PDF-delivered within 24 hours of the site visit. They include the full PTV dataset, photography, calibration cert references, UKSRG classification, methodology narrative, and remediation recommendations where any test point falls below the relevant slip-risk threshold.
Tell us the Bristol site postcode, surface type and approximate area. Fixed-fee written quote within 4 working hours.
Booked into the next available slot for Bristol and South West. Out-of-hours and weekend work routinely arranged.
UKAS-accredited pendulum testing on site. Wet, dry, multi-direction. Verbal feedback before our engineer leaves.
Signed PDF report inside 24 hours. PTV dataset, classification, photography, calibration certs, remediation guidance.
Free phone consultation on findings. Independent remediation guidance. Discounted re-test after any treatment work.
Optional annual re-test programme to maintain auditable continuity for your insurer or HSE inspection record.
Standard mobilisation to Bristol and South West is 2–5 working days. Urgent or post-incident response within 48 hours is available — call 0208 246 5562 to confirm capacity.
Yes. Our pendulum slip testing is performed under our UKAS ISO 17025 accreditation, using calibrated equipment with traceable certification. UKAS accreditation is held by a minority of UK slip-testing providers and is the most defensible credential for an evidential report.
You receive a clear narrative of why it failed, which test points are problematic, and a tiered set of remediation options — operational controls, surface treatment, or replacement. We are independent of treatment manufacturers, so the advice is free of conflict.
Yes. Reports are formatted to meet the evidential standards expected by UK insurers, the HSE region South West office, and the courts. Calibration certificates and chain-of-custody documentation are included as standard.
Yes. Our Bristol field cover extends across Clifton, Bedminster, Redland, Stoke Bishop, Easton and the wider South West at no additional travel cost. Single fixed-fee quote, inclusive of travel.
Tell us where, what, and when. We'll come back with a written quote, an engineer name, and a date — not a brochure.