Hand Protection - AEE Safety Training

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Transcript Hand Protection - AEE Safety Training

YOU MUST INTERVENE
ALWAYS TAKE CARE
FOLLOW THE RULES
DO A RISK ASSESSMENT
MANAGE ANY CHANGE
Hand Protection
April 2010
Monthly Safety Topic
AMEC Earth & Environmental
WEAR THE CORRECT PPE
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Would you try to
catch with one of
these. . .
hit by . . .
Without one of
these?
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Would you try to deal
with one of these. . .
hit by . . .
Without one of
these?
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Or take these. . .
out of . . .
without?
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Your Hands
Your hands – don’t take them for granted
Human hands are unique and one of
our greatest assets.
Can you imagine not being able to
work with your hands?
Hand injuries can vary from minor cuts
or irritation to amputations.
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Hand Injuries
A hand injury can ruin your day or your life
About 20% of disabling
workplace injuries involve
the hands.
Hand injuries include cuts,
burns, fractures, amputations,
nerve damage and dermatitis.
Skin irritation, dermatitis and
even poisoning can occur by
handling chemicals with bare
hands.
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Injury Statistics
(Bureau of Labor Statistics 2006)
205,000
Wrist/Hand/Finger
Injuries
1,183,500
Total
Injuries
with Days Away from Work
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First Things First
Do A Risk Assessment
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WHAT ARE SOME OF THE HAZARDS TO THE HANDS???
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Sharp objects
Abrasive objects
Pinch points
Punctures
High temperatures
Low temperatures
Chemicals
Machinery
Electricity
Blood-borne pathogens
Insects
Spiders
Other critters
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Hand tools
Power tools
Material handling
Line of fire
Jewelry when using machinery
Nuns with rulers
Moving objects
Gravity
Friend’s dog that “doesn’t” bite
Vibrations
Splinters
Etc.
Etc.
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MITIGATE THE IDENTIFIED
HAZARDS
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Engineering Controls: The Preferred Method
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Engineering Controls are built into an
operation and require no activation from
the employee. Essentially Engineering
Controls eliminate the hazard.
Examples include guards, self-capping
syringe needles, ventilation systems,
fume hoods and substitution to a less
hazardous process or chemical.
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Administrative Controls: Second Line of Defense
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Administrative Controls are
changes in work practices and
procedures implemented to reduce
exposure.
Less effective method used when
engineering controls are not
feasible.
Examples include written operating
procedures, training, signs, and
limiting exposure times.
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Last and Least: Personal Protective Equipment (PPE)
 PPE is the last line of defense
 The hazard is still there.
 The PPE places a relatively thin
barrier between you and the hazard.
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Other Considerations Before
Selecting a Glove
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Glove Limitations
 Gloves can get caught in rotating machinery.
 Some people are allergic to latex gloves.
 Gloves can actually cause more problems if
chemicals get inside glove.
 Gloves can fail in conditions of extreme
temperatures, high mechanical force, high
vibration or handling extremely harsh chemicals.
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Glove Sizing
Glove
& Fit
Gloves
comeSize
in many
sizes.
Use properly fitting gloves that
give you the needed dexterity.
Make sure you glove fits like a . . .
Too big
A better fit
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Glove Sizing
With a ruler, start at index finger and measure
the width of your hand in the knuckle area
Distance
Size
2 to 2½”
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X Small
2½ to 3”
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Small
3 to 3½”
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Medium
3½ to 4”
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Large
4 to 4½”
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X Large
4½ to 5”
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XX Large
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Glove Use & Care
Your hands should be clean before
using gloves.
Fabric and leather gloves should be
cleaned regularly or discarded.
Latex gloves should not be used
by latex-sensitive people.
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Glove Use & Care
Some common-sense rules about gloves
Replace gloves if they have cuts,
tears, holes or defects.
Make sure gloves are the right
length for the job.
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Glove Use and Care
Use the right glove for the job
Don’t use fabric or leather gloves to handle
liquid chemicals.
No!
Yes!
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Client Considerations
What do our clients require?
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Types of Gloves
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Leather Palm Gloves
Pros
Good general work glove
Protects against abrasions
Some heat and cold protection
Breathable
Generally comfortable
Cons
Limited cut and impact protection
No vibration protection
Possibly poor grip
Poor dexterity
Absorbs liquids
Also available in insulated version for
cold weather
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Cotton Gloves
Pros
Good general work glove
Protects against abrasions
Wear as a liner glove for protection of
outer glove and some cold protection
Breathable
Generally comfortable
Cons
Limited cut and impact protection
No vibration protection
Possibly poor grip
Absorbs liquids
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Coated Palm Gloves
Pros
Palms coated with Latex, Nitrile, or
Polyurethane
Good general work glove
Good fit
Protects against abrasions
Great Dexterity
Good Grip
Nitrile good for jobs with oily applications
Cons
Limited cut and impact protection
No vibration protection
Limited chemical/moisture protection
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Cut Resistant Gloves
Pros
Good general work glove
Protects against abrasions
Protects against sharp edges on metal,
glass, and wood
Breathable
Generally comfortable
Good dexterity
Some have coated palms
Cons
Limited impact protection
No vibration protection
Not Chemical resistant
Required at some client sites
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Impact Resistant or Mechanics Gloves
Pros
Good general work glove
Protects against abrasions
Protects against impacts
Some heat and cold protection
Tight fitting
Good dexterity
Good Grip
Cons
Limited cut protection
Limited vibration protection
No chemical/moisture protection
Required on some client sites
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Anti Vibration Gloves
Pros
Good general work glove
Protects against abrasions
Protects from vibrations
Cons
Limited impact protection
Not Chemical resistant
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Temperature Resistant Gloves
Pros
 Protects hands from extreme
temperatures
Cons
Limited other protections
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Task and Other Gloves
Gloves are available for specific tasks:
Cold Weather
Drivers Gloves
Framer Gloves
Material Handling
Welder
Voltage Protection
High Visibility
Etc.
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Chemical Resistant Gloves
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The kind of chemical determines the hazard
Corrosives – will burn or irritate
the skin
Solvents – will dry the skin out, may
irritate, burn or blister, some are
absorbed into the body
Pesticides – absorbed into the
body
Other chemicals – a variety of effects
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Chemical-resistant gloves facts
Chemical-resistant gloves are
not totally “chemical-proof”
Permeation -- Chemicals
penetrate gloves on a molecular
basis without any visible damage.
Degradation -- Chemicals will
also break down (swell, crack or
weaken) the glove material over
time.
Penetration -- Chemicals will
pass through hole and
imperfections in the material.
The thicker the
glove, the more
resistant it is to
chemicals.
Thick is better than Thin
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Chemical-Resistant Gloves
No single glove material will
Chemical glove selection
protect against all
chemicals.
Gloves are selected according
to the type of chemical.
Good chemical gloves are made of
Viton®, butyl, nitrile, neoprene, or
PVC or combinations of these.
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Using chemical-resistant gloves
You should know what chemical
you are handling and how long the
gloves will keep the chemical out.
Throw away gloves whenever
degradation is visible or you know
chemicals have leaked inside.
When handling highly toxic chemicals,
two layers of chemical-resistant gloves
can provide additional protection.
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To determine what glove material is best for a specific chemical.
Consult a compatibility table, proved by glove manufacturers.
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Chemical-Resistant Gloves Chart
Type
Advantages
Natural rubber
Low cost, good physical
properties, dexterity
Disadvantages
Use Against
Poor vs. oils, greases,
Bases, alcohols, dilute water solutions;
organics. Frequently
fair vs. aldehydes, ketones.
imported; may be poor quality
Natural rubber blends
Low cost, dexterity, better
Physical properties frequently
Same as natural rubber
chemical resistance than natural
inferior to natural rubber
rubber vs. some chemicals
Polyvinyl chloride
(PVC)
Low cost, very good physical
Plasticizers can be stripped;
Strong acids and bases, salts, other
properties, medium cost, medium frequently imported may be
water solutions, alcohols
chemical resistance
poor quality
Neoprene
Medium cost, medium chemical
NA
Oxidizing acids, anilines, phenol, glycol
resistance, medium physical
ethers
properties
Nitrile
Low cost, excellent physical
Poor vs. benzene, methylene
Oils, greases, aliphatic chemicals,
properties, dexterity
chloride, trichloroethylene,
xylene, perchloroethylene,
many ketones
trichloroethane; fair vs. toluene
Butyl
Speciality glove, polar organics
Expensive, poor vs.
Glycol ethers, ketones, esters
hydrocarbons, chlorinated
solvents
Polyvinyl alcohol (PVA) Specialty glove, resists a very
Very expensive, water
Aliphatics, aromatics, chlorinated
broad range of organics, good
sensitive, poor vs. light
solvents, ketones (except acetone),
physical properties
alcohols
esters, ethers
Fluoro- elastomer
Specialty glove, organic solvents Extremely expensive, poor
Aromatics, chlorinated solvents, also
(Viton) ™ *
physical properties, poor vs.
aliphatics and alcohols
some ketones, esters, amines
Norfoil (Silver Shield)
Excellent chemical resistance
Poor fit, easily punctures,
Use for Hazmat work
poor grip, stiff
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Removing Contaminated Gloves
Remove contaminated gloves safely and properly
Badly contaminated gloves
are impossible to clean.
Removal should be done in a
way so that the bare hands
do not touch the outside of
the gloves.
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More Info and Where To Get Gloves
 Check out the website for our preferred supplier: Airgas.com
Here’s the
Glove Section
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