Corrosion and Its Prevention
Charles F. Lawrence, P.E.
NACE International Cathodic Protection Specialist
Why Does Corrosion Occur?
O
=
Infrastructure
Equipment
Pipelines
Bridges
Trucks/ Plows
Loaders
Automobiles
No salt
Less salt
Construction practices
Coated rebar
Fiberglass rebar
Denser concrete / cover
Overlays
Maintain coating
Metalizing
Remove salt residue frequently
Non-metallic components
Metalized components
Better coatings
Maintain coatings
Scrupulously maintain lubrication
Add corrosion inhibitors
PROS
CHEAP
Readily available
Works to 20°F
Stable in storage
Easily applied
CONS
Corrodes metals
Only works to 20°F
Damaging to vegetation
Pollutes waterways
Contaminates soils
1. Sand / Cinders
2. Calcium Chloride (CaCl
2
)
12. Safe Paw (amide / glycol)
5. Beet Juice
3. Magnesium Chloride (MgCl
2
)
4. Potassium Chloride (KCl)
7. Potato Juice
6. Cheese Brine
8. Urea
9. CMA – Calcium Magnesium Acetate
10. Potassium Acetate
11. Sodium Acetate
PROS
Essentially non-corrosive
Provides good traction
Temperature independent
CONS
Does not eliminate ice
Impact damage to
vehicles / windshields
Plugs storm sewers
Silts waterways
PROS
Works to -25°F
Exothermic
More hygroscopic
Less harmful to vegetation
CONS
More expensive (3X)
Still corrosive (3% more Cl
-
)
Leaves a white residue
PROS
Works to 0°F
Safer for animals and
vegetables
Doesn’t leave a powdery
residue
CONS
More expensive (2X)
Still corrosive (14% more Cl
-
)
Very hygroscopic, keeps
surfaces wet
Forms greyish gooey coating
PROS
Works to -25°F
Environmentally friendly?
Less chlorides /# (10%)
CONS
May be expensive
Slower melter
PROS
Can be used with or instead
of brine
Lowers melt temp by 10°F
Sugars are less corrosive
Relatively inexpensive
Helps stick to pavement
CONS
Bloody mess
Sticks to vehicles
Nutrient load on streams
PROS
May be free
Somewhat better than regular
brine
CONS
Similar corrosion issues to
regular brine
PROS
Cheap
Lowers the temperature
limits of brine
CONS
Similar corrosion issues to
Beet Juice
PROS
Works to 21°F
Acts as fertilizer
Safer than salt for animals
CONS
Yuck factor
More expensive (5X)
Acts as fertilizer
Ineffective when very cold
Most corrosive to concrete
and masonry
PROS
Essentially non-corrosive
Won’t harm vegetation
Biodegradable
CONS
More expensive (20X)
Only works to 25°F
Subject to refreezing
In large amounts can reduce
waterways O
2
levels
PROS
Works to -75°F
Non-corrosive
Biodegradable
Less harmful to vegetation
CONS
More expensive (8X)
Can cause slickness
Low oxygen
PROS
Works to 0°F
Exothermic
Quickly biodegradable
Minimal toxicity
CONS
More expensive than Urea
PROS
Works to -2°F
Environment and animal
friendly
Timed release
Prevents ice from sticking to
surfaces
Safe for pavement
CONS
More expensive (8X)
Not readily available in bulk
Water-based acrylic polyurethane
enamel paint
Elastomeric Polyurethane
Polyurea
Polyaspartic Blends
?
Explore the world of corrosion with comprehensive visual aids covering its causes, the corrosion cell mechanism, real-world examples, chloride differences, corrodible items, infrastructure impact, possible solutions, equipment maintenance, and the pros and cons of using salt for de-icing. Discover various solutions and alternatives to combat corrosion effectively.
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Presentation Transcript
Charles F. Lawrence, P.E. NACE International Cathodic Protection Specialist
The Corrosion Cell n+ - Me Me + ne Corrosion Battery Corrosion Battery ANODE Closure Circuit e- CATHODE ELECTROLYTE Cathode OH- H+ H+ OH- Me+ OH- H+ CLOSURE CIRCUIT OH- H+ H+ OH- OH- H+ Electrolyte (water)
Real World Corrosion + e-
The Chloride Difference Insoluble + = Fe+ 3 O= Fe2O3 Fe+ 3+ = Cl- FeCl3 Very Soluble
Corrodible Things Infrastructure Pipelines Roads Bridges Equipment Automobiles Trucks/ Plows Loaders
Infrastructure Cl- Cl- Cl- Cl- Cl- Cl- Cl- Cl- Cl-Cl-Cl- Cl- Cl- Cl- Cl- Cl- Cl- Cl- Cl-
Possible? Solutions No salt Less salt Construction practices Coated rebar Fiberglass rebar Denser concrete / cover Overlays Maintain coating Metalizing
Possible? Solutions Remove salt residue frequently Non-metallic components Metalized components Better coatings Maintain coatings Scrupulously maintain lubrication Add corrosion inhibitors
Salt Sodium Chloride (NaCl) PROS CHEAP Readily available Works to 20 F Stable in storage Easily applied CONS Corrodes metals Only works to 20 F Damaging to vegetation Pollutes waterways Contaminates soils
Salt (NaCl) Alternatives PROS PROS PROS PROS Works to 0 F Works to -2 F PROS Works to -25 F Can be used with or instead May be free Cheap Lowers the temperature Acts as fertilizer Won t harm vegetation Biodegradable Biodegradable Quickly biodegradable friendly PROS Works to 0 F Safer for animals and Environmentally friendly? of brine Somewhat better than regular brine limits of brine Safer than salt for animals PROS PROS Works to -25 F Exothermic More hygroscopic Less harmful to vegetation Doesn t leave a powdery residue Relatively inexpensive Helps stick to pavement surfaces Safe for pavement PROS PROS PROS PROS Works to 21 F Essentially non-corrosive Works to -75 F Non-corrosive Exothermic Environment and animal 1. Sand / Cinders 2. Calcium Chloride (CaCl2) 3. Magnesium Chloride (MgCl2) 4. Potassium Chloride (KCl) Essentially non-corrosive Provides good traction Temperature independent vegetables Less chlorides /# (10%) Lowers melt temp by 10 F Sugars are less corrosive Less harmful to vegetation Minimal toxicity Timed release Prevents ice from sticking to 5. Beet Juice 6. Cheese Brine CONS CONS CONS CONS CONS CONS CONS CONS CONS CONS CONS May be expensive Slower melter Sticks to vehicles Nutrient load on streams Acts as fertilizer Ineffective when very cold Most corrosive to concrete and masonry CONS Bloody mess Yuck factor More expensive (20X) More expensive (8X) Can cause slickness More expensive (8X) 7. Potato Juice 8. Urea 9. CMA Calcium Magnesium Acetate 10. Potassium Acetate 11. Sodium Acetate More expensive (2X) Still corrosive (14% more Cl-) regular brine Beet Juice More expensive (5X) Only works to 25 F Subject to refreezing Low oxygen Not readily available in bulk More expensive (3X) Still corrosive (3% more Cl-) Leaves a white residue Very hygroscopic, keeps surfaces wet In large amounts can reduce Does not eliminate ice Impact damage to vehicles / windshields Plugs storm sewers Silts waterways Forms greyish gooey coating waterways O2 levels Similar corrosion issues to Similar corrosion issues to More expensive than Urea 12. Safe Paw (amide / glycol)
Coatings Ideas Water-based acrylic polyurethane enamel paint Elastomeric Polyurethane Polyurea Polyaspartic Blends
