York Yc Yd Predator Brochure
2015-09-09
: York Yc-Yd-Predator-Brochure york-yc-yd-predator-brochure-811915 york pdf
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Factory Applied Corrosion-Resistant Coil Coating
Heating and Air Conditioning
ElectroFin® E-Coat
York’s E-Fin coang is a exible epoxy polymer coang process engineered specically for HVAC heat transfer coils.
ElectroFin® uses a PPG POWERCRON® e-coat formulaon specically designed to provide excellent edge coverage of
ns with a unique polymer that controls the ow characteriscs of the coang, a process that can provide 100% coil
coverage without bridging. E-Fin coang is available on many of York’s coil designs including aluminum microchannel
coils, convenonal copper tube coils with standard and enhanced aluminum n designs.
York’s heang and air condioning products
are designed with reliability and durability
in mind; however in the harshest condions
such as the sea coast, process paper mills,
chemical factories and other corrosive
environments added protecon such as
York’s E-Fin coil coang is a must.
Benets of York’s
Electrocoang Process:
• Exceponal exibility and durability-
ElectroFin adhesion properes and exibility of the coang material provides excellent coil coverage and corrosion
resistance.
• Not only does the ElectroFin coang provide excellent seacoast, salt environment protecon it provides outstanding
protecon in acidic and alkaline environments ranging from 3.0-12.0 pH levels.
• ElectroFin coang is designed to protect the coil with less than 1% thermal performance degradaon so unlike many
other types of coil coangs, E-Fin protects the products heat transfer coils without an adverse eect on cooling or
heat pump performance.
• ElectroFin coated coils have been tested and passed ASTM B-117 Salt Spray tests exceeding 6000 hours.
• Excellent corrosion and UV resistance.
• York UPG’s HVAC products are not only built in the U.S.A., but E-Fin is also a domescally applied product.
• A 5 year unit replacement guarantee including labor is available on select residenal products if the coil fails due to
corrosion.*
Images courtesy of Luvata
The proof is in the extensive salt spray tesng.
The photographs shown to the le are real
world applicaons that show a heat transfer
coil untreated and treated with ElectroFin
protecve coang aer many thousands of
hours in an salty environment.
Aer 1000 Hour Salt Spray Test
W i t h o u t E - F i n C o a n g W i t h E - F i n C o a n g
*Unit must be registered online within 90 days of installaon otherwise the parts warranty reverts back to a 5-year limited parts warranty.
The chart at le shows less than a 1% thermal
performance impact between an uncoated and E-Fin
coated coil when rst applied. Aer 1000 hours of
salt spray tesng the E-Fin coil sll performs at 90+%
whereas the uncoated coils performance has dropped
below 60%. A clear indicaon of how York’s E-Fin helps
retain the products performance in harsh condions.
With York’s E-Fin coil coangs customers can realize
extended products coil life and connued performance
from the product: whereas other manufacturer’s
products with uncoated coils begin deteriorang in both
coil surface area and performance within a short period
of me.
York’s E-Fin meets these test standards
York’s E-Fin coil coangs are chemically resistant to the
following chemicals at AMBIENT temperatures.
Acetone Chlorine Gas Hydrofluoric Acid (NR) Methyl Isobutyl Ketone Sodium Bisulfite
Acetic Acid Chromic Acid (NR) Hydrogen Peroxide 5% Mustard Gas Sodium Chloride
Acetates (ALL) Citric Acid Hydrogen Sulfide Naphthol Sodium Hypochlorite 5%
Amines (ALL) Creosol Hydrazine Nitric Acid (NR) Sodium Hydroxide <10%
Ammonia Diesel Fuel Hydroxylamine Oleic Acid Sodium Hydroxide >10% (NR)
Ammonium Hydroxide Diethanolamine Iodine Oxalic Acid Sodium Sulfate
Amino Acids Ethyl Acetate Isobutyl Alcohol Ozone Stearic Acid
Benzene Ethyl Alcohol Isopropyl Alcohol Perchloric Acid Sucrose
Borax Ethyl Ether Kerosene Phenol 85% Sulfuric Acid 25-28%
Boric Acid Fatty Acid Lactic Acid Phosgene Sulfates (ALL)
Butyl Alcohol Fluorine Gas Lactose Phenolphthalein Sulfides (ALL)
Butyl Cellosolve Formaldehyde 27% Lauryl Acid Phosphoric Acid Sulfites (ALL)
Butyric Acid Fructose Magnesium Potassium Chloride Starch
Calcium Chloride Gasoline Maleic Acid Potassium Hydroxide Toluene
Calcium Hypochlorite Glucose Menthol Propyl Alcohol Triethanolamine
Carbon Tetrachloride Glycol Methanol Propylene Glycol Urea
Cetyl Alcohol Glycol Ether Methylene Chloride Salicylic Acid Vinegar
Chlorides (ALL) Hydrochloric Acid <10% Methyl Ethyl Ketone Salt Water Xylene
Acetone Chlorine Gas Hydrofluoric Acid (NR) Methyl Isobutyl Ketone Sodium Bisulfite
Acetic Acid Chromic Acid (NR) Hydrogen Peroxide 5% Mustard Gas Sodium Chloride
Acetates (ALL) Citric Acid Hydrogen Sulfide Naphthol Sodium Hypochlorite 5%
Amines (ALL) Creosol Hydrazine Nitric Acid (NR) Sodium Hydroxide <10%
Ammonia Diesel Fuel Hydroxylamine Oleic Acid Sodium Hydroxide >10% (NR)
Ammonium Hydroxide Diethanolamine Iodine Oxalic Acid Sodium Sulfate
Amino Acids Ethyl Acetate Isobutyl Alcohol Ozone Stearic Acid
Benzene Ethyl Alcohol Isopropyl Alcohol Perchloric Acid Sucrose
Borax Ethyl Ether Kerosene Phenol 85% Sulfuric Acid 25-28%
Boric Acid Fatty Acid Lactic Acid Phosgene Sulfates (ALL)
Butyl Alcohol Fluorine Gas Lactose Phenolphthalein Sulfides (ALL)
Butyl Cellosolve Formaldehyde 27% Lauryl Acid Phosphoric Acid Sulfites (ALL)
Butyric Acid Fructose Magnesium Potassium Chloride Starch
Calcium Chloride Gasoline Maleic Acid Potassium Hydroxide Toluene
Calcium Hypochlorite Glucose Menthol Propyl Alcohol Triethanolamine
Carbon Tetrachloride Glycol Methanol Propylene Glycol Urea
Cetyl Alcohol Glycol Ether Methylene Chloride Salicylic Acid Vinegar
Chlorides (ALL) Hydrochloric Acid <10% Methyl Ethyl Ketone Salt Water Xylene
ElectroFin is not intended for liquid to liquid (immersion) applicaons. Elevated temperatures can have an
adverse eect on the corrosion durability of ElectroFin, depending on the specic environment. This table is to
be used as a GUIDE for general reference. For specic corrosion resistance durability, please contact your York
representave to discuss your individual applicaon.
Technical Performance
Electrocoang is the process by which a metallic work piece (coil)
is submerged in a paint / water bath where electricity is used to
deposit paint onto it.
York’s ElectroFin® E-Coat Process
Specicaons
Coil will have a exible epoxy polymer e-coat uniformly applied to all coil
surface areas with no material bridging between ns. The coang process will
ensure complete coil encapsulaon and a uniform dry lm thickness from 0.6
– 1.2 mils on all surface areas including n edges and meet 5B rang cross-
hatch adhesion per ASTM B3359-93. Corrosion durability will be conrmed
through tesng to no less than 5,000 hours salt spray resistance per ASTM
B117-90 using scribed aluminum test coupons.
NR = Not Recommended
Test Standard Qualification
Dry Film Thickness ASTM D7091-05 0.6-1.2 mils
Gloss - 60° ASTM D523-89 65 - 90%
Pencil Hardness ASTM D3363-00 2 H Minimum
Water Immersion ASTM D870-02 >1000 hours @ 100°F
Cross Hatch Adhesion ASTM D3359-97 4B - 5B
Impact Resistance ASTM D2794-93 160 in./lbs. Direct
Salt Spray ASTM B117-97 6,048+ Hours
Humidity ASTM D2247-99 1,000 Hours Minimum
Durability -Very Flexible, Consistent Film
Heat Transfer Reduction ARI 410 Less Than 1%
Bridging -No Bridging Guaranteed
Coating Of Enhanced Fins -Up to 30 fins per inch
pH Range -3 - 12
Temperature Limits -40° F to 325° F
Test Standard Qualification
Dry Film Thickness ASTM D7091-05 0.6-1.2 mils
Gloss - 60° ASTM D523-89 65 - 90%
Pencil Hardness ASTM D3363-00 2 H Minimum
Water Immersion ASTM D870-02 >1000 hours @ 100°F
Cross Hatch Adhesion ASTM D3359-97 4B - 5B
Impact Resistance ASTM D2794-93 160 in./lbs. Direct
Salt Spray ASTM B117-97 6,048+ Hours
Humidity ASTM D2247-99 1,000 Hours Minimum
Durability -Very Flexible, Consistent Film
Heat Transfer Reduction ARI 410 Less Than 1%
Bridging -No Bridging Guaranteed
Coating Of Enhanced Fins -Up to 30 fins per inch
pH Range -3 - 12
Temperature Limits -40° F to 325° F
0.80
0.90
1.00
0.70
0.60
0.50
Thermal Performance
After 1000 Hour Prohesion Test
E-Coat: No Effect onThermal
Performance After 1000 Hour Exposure
0 1000
1.10
Bare Coil
ElectroFin
E-Coated Coil
Exposure Time (hours)
Thermal Performance Factor G*
* Heat transfer performance factor
G* is used to evaluate the thermal
performance of the coils
Corrosion Resistance
In the electrocoang process, the coil acts in the
same way as a magnet. The coang molecules are
electrically aracted to the metallic coil surfaces,
meaning the enre coil is completely and uniformly
coated. The result is a nish which provides excellent
resistance to coastal marine (salt-air), industrial and
urban environments. When properly maintained,
you can expect York’s E-Fin coated coils to provide
protecon for years.
Thermal Performance Aer 1000 Hour Test
Image courtesy of Luvata
The York brand of Johnson Controls, Inc. ©2012 Johnson Controls, Inc. 5005 York Drive, Norman, OK 73069 www.york.com Subject to change without notice.
PUBL-7093-A-0712 Supersedes: Nothing. All rights reserved.
ElectroFin® is a Registered Trademark of Luvata
