Understanding Slip Resistance Technical Seminar 19th January 2016
Our Divisions Commercial
Industrial
Flooring
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Fire damage rehabilitation
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Abrasive blasting
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New construction
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Heritage property restoration
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Protective coatings
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Minor repair & self levelling
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Water damage repair
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Membranes
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Full Remedial
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Public asset renewal
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Linings
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Anti Bacterial
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New construction surfaces
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Substrate protection
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Thermal
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Recreational facility upgrades
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Laminates
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Shock resistant
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Property management
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Lead abatement
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Chemical and Abrasion
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Civil contracting
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Asbestos encapsulation
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Non-slip
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Acid bunding
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Decorative
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Passive fire protection systems
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Dry ice cleaning
Surface Preparation is Paramount
"Understanding Slip Resistance" Tuesday 19 January 2016 MATTIOLI Headquarters| Mount Waverley
Our Business, Capability
Aerospace
Defence Force
Materials Analysis
Mechanical Testing
NDT Training
Failure Analysis
Our Business, Slip Resistance Testing • Established since 1985. • NATA accredited for Wet pendulum, Dry floor friction, Oil wet & Wet barefoot incline platform testing. • Active member of the Australian Standard’s Committee for Slip Resistance Testing. • Services in this area include; Routine Testing, Risk assessment, Incident investigation and Expert witness.
Why is it important to know the Slip Resistance Value of a finished surface? Possible Answers? 1. Compliance to AS standards 2. Fit for purpose 3. Duty of Care
Likelihood of Injury?
Changing Age Demographics
Case Study “G.J Coles and Co. Ltd yesterday agreed to pay $2.8 million in an out-of-court settlement to a woman who gave birth prematurely to brain-damaged twins after slipping on the floor of a Coles store� Johnson, P., 05/08/1992, The AGE, pp. 3
Location: Coles Supermarkets Dandenong, Victoria. Incident: Slip and fall (spilled drink) Injury: Premature birth of twins who were born with brain damage Testing: Wet Pendulum Test Method (standard was in DRAFT form, pre-AS/NZS standard) Investigation: Dr. Gary Martin, ATTAR provided an Expert Report presentation. Reporting to the draft Standard for the first time a quantitative interpretation of floor friction was presented.
Model WHS Regulations
Model WHS Regulations OLD
NEW
Relevant WHS Sections
OHS Act 2004
WHS Act
OHS Regulations 2007
WHS Regulations
Principles that apply to duties, s.14, s15, s16 and s17
Compliance Codes
Codes of Practice
In addition to the WHS laws, there are also model Codes of Practice which provide support and guidance on different issues in work health and safety
Employer
Person in Control of Business or Undertaking (PCBU)
Designer duties in WHS Act s22
Employee
Worker
Worker duties in WHS Act s28
Workplace Owner
Person with Management or Control of a Workplace (PMCW)
Duty of Officers s27 Due diligence for an Officer Facility maintenance s20 Source: Work Safe Victoria 2011
Slips, Trips & Falls • •
•
Slips occur when a person’s foot unexpectedly loses traction with the floor, resulting in a loss of friction (eg, wet or highly polished floor, spills, unsecured mats). Trips occur when a person is walking and their foot or leg unexpectedly “catches” on an object, resulting in a loss of balance (eg, uneven surface, trailing cord or open drawer). Slips or trips can cause injuries without a fall because the force produced by the loss of balance –together with the awkward postures of regaining balance – can sprain ligaments in joints or strain muscles.
Source: Work Safe Victoria 2011
Slips: Common hazards
1. Are there sudden changes in floor surfaces? 2. Are the surfaces clean? 3. Are the surfaces suitable?
Duty of Care - slips, trips and falls This means – • any risks to health and safety, including those resulting from slips, trips or falls, must be eliminated, so far as is reasonably practicable • if it’s not reasonably practicable to eliminate the risks, they must be reduced, so far as is reasonably practicable Risk controls need to aim at eliminating or minimising the workplace risks which lead to slips trips and falls, before trying to modify people’s behaviour in the presence of risks. Source: Work Safe Victoria 2011
Duty of Care - slips, trips and falls • Maintaining Duty of Care by continuous monitoring pedestrian surface through regular testing, the facility ensures the risk of slipping remains known and a responsible risk management plan is maintained. (Food Hall x 20mins : Mats at entrance)
• Regular monitoring involves slip resistance testing with either or both methods in AS/NZ 4663. (cleaning regime) • With time, a pedestrian surface may deteriorate and become more slippery. The Client may elect to replace or treat the surface rather than accept the increased risk of slipping.
Slip Resistance Standards Standards recently published by Standards Australia: • AS 4586 - 2013 Slip resistance classification of new pedestrian surface materials, now supersedes AS/NZS 4586 - 2004. • AS 4663 - 2013 Slip Resistance measurement of existing pedestrian surfaces, now supersedes AS/NZS 4663 - 2004.
Classification of Pedestrian Surface Material - wet
Classification of Pedestrian Surface Material - wet Pendulum Mean BPN (SRV)
Slider 96
Slider 55
Notional contribution of the floor surface to the risk of slipping when wet
>54
>44
Very low
P5
45-54
40-44
Low
P4
35-44
35-39
Moderate
P3
25-34
20-34
High
P2
12-24
<20
Very high
P1
Extremely High
P0
<12
AS 4586: 2013 Equivalent Classification
Classification of Pedestrian Surface Material - wet Notional contributions of the floor surface to the risk of slipping. • • • • • • Test Conditions
Wet Pendulum
Very low P5 Low P4 Moderate P3 High P2 Very high P1 Extremely high P0
Australian Standard
Slip Resistance (SR)
Pedestrian Surfaces
Classification
AS 4586 – 2013
Classification
New
P0, P1 to P5
AS 4663 – 2013
Measurement
Existing
SRV Value
Classification of Pedestrian Surface Material - dry
Classification of Pedestrian Surface Material - dry Notional contributions of the floor surface to the risk of slipping D1 - Moderate to very low rating D0 - High to very high rating
Test Conditions
Dry Floor Friction
Australian Standard
Slip Resistance (SR)
Pedestrian Surfaces
Classification
AS 4586 â&#x20AC;&#x201C; 2013
Classification
New
D0 or D1
AS 4663 â&#x20AC;&#x201C; 2013
Measurement
Existing
Mean Value
Classification of Pedestrian Surface Material Carried out by two test persons, wearing standardised shoes The ramp is increased at a rate of about 1° per second until they reach their safe limit of walking. The surface material is coated with a specific grade of engine oil.
Test Conditions
Australian Standard
Slip Resistance (SR)
Pedestrian Surfaces
Classification
Oil-wet inclining platform
AS 4586 – 2013
Classification
New
R9 to R13
Wet-barefoot inclining platform
AS 4586 – 2013
Classification
New
A, B or C
There is NO correlation between values
Accelerated Wear Testing (AWT)
1. The AWT comprises an initial wet pendulum test on five (5) individual specimens 2. The subsequent AWT is applied to one specimen only, the specimen which shows the LOWEST slip resistance value.
Floor Safety and Slip Testing Services Slip Resistance NATA accredited evaluations of new & existing (AS/NZS 4586;4663) surfaces Wet pendulum, Dry floor friction, Oil wet & Wet barefoot incline platform testing. Comprehensive Includes lighting, distractions, activities, stairs, slopes, contamination, etc. Floor Consulting Fitness for Intended Use/Application Durability & Accelerated Wear Testing Maintenance Schemes Expert Witness Services Accelerated Wear Testing (AWT)
Melbourne 03 9574 6144
info@attar.com.au
UNDERSTANDING SLIP RESISTANCE MATTIOLI SEMINAR
Protecting Australasia’s Assets
Importance of Surface Preparation • • • • • • •
For any painting project, surface preparation is critical. Floors (typically concrete) require abrasion Diamond Grind Track Blasting Abrasive Blast Site restrictions Acid etching.
Surface Cleanliness • • • •
Cleaning is required Remove dust & dirt Contamination Concrete will dust
When things go wrong.
Poor Adhesion
Coating Selection • • • • • •
Chemical Resistance Considerations Colour Selection UV Exposure Foot / Vehicle Traffic Target Gloss Level Slip Resistance?
No Slip Resistance
Slip Resistance • • • •
A particle is incorporated to make a rougher surface. Many different ways of achieving this Different legislative requirements for locations Extra slip resistance reduces cleanability
Types of Aggregates (1)
Types of Aggregates (2)
Ensuring the Standard is Achieved • Laboratory samples get tested • Contractor needs to follow the specification strictly, to replicate on the job. • The correct amount of aggregate is vital. • Site testing can be done to verify the standard has been achieved.
Impact of Slip Resistance on a Coating • Adding an aggregate changes the composition of the film • Add inert particles into the film • Can increase the voids in the film • Ponding water can have an impact on the film • The rate of wear of the coating also changes • As a result, the slip rating will change with time • Cleaning the surface becomes more challenging
Aggregate being ripped out of paint film
Ponding Water
General Coating Erosion (Car Park)
Linemarking on Concrete • Minimal surface preparation is generally the rule • Car parks are often very smooth and dense concrete finishes • Very fast drying product – No substrate penetration • Subject to vehicle traffic, often in turning zones which has a high compressive force • Limited options to reduce slip due to drying times and application techniques.
Smooth Substrate
Linemarking
Thank you for listening Any Questions?
Protecting Australasiaâ&#x20AC;&#x2122;s Assets
Thankyou for coming