PL.3618-5000
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Comparing a waterbased Coatings vs. Solvent-based Coatings might seem like a pointless exercise, but there are several factors to consider. Workplace safety and environmental impact being two of the most important.
A solvent-based coating is generally applied in a completely enclosed application environment where the health risks to everyone involved in the process are minimal because they exist only while the application is taking place (i.e., from open paint cans, brushes, and rags). The fumes dissipate fairly quickly because most solvents evaporate within minutes of exposure. But that's not necessarily true for those who work with styrene-butadiene rubber (SBR) or other highly toxic substances.
Waterbased coatings, on the other hand, generally only generate fumes when the product is actually being applied or when it's being cleaned up. The process of applying and cleaning up are what really bring about a need for caution.
Depending on the work environment and amount of time involved, water-based coatings provide relatively low levels of exposure to organic solvents. This depends entirely upon the manufacturer's application and safety practices as well as the dilution ratio. When compared to solvent-based coatings, they clearly win the "safety" award. The use of water means it won't evaporate in a hurry, so clean-up involves wetting down with water or using high-pressure hoses.
Water-based coatings are not as harmful to the environment as solvent-based coatings. While water-based coatings do contain organic chemicals, they are carried in water-based emulsions, which makes them biodegradable. The solvents in solvent-based coatings evaporate too quickly to allow them to biodegrade.
The volatile organic compounds present in solvent-based coatings contribute to smog or ozone formation and can irritate the respiratory system and eyes if the fumes are inhaled. Water does not possess these same elements so there is no worry about inhaling fumes when applying water based paints or thinners.
While application of water-based coatings can be messy, their cleanup is easier than solvent-based coatings. Water-based paint can be cleaned up with soap and water, while solvent-based coatings have to be cleaned with thinner.
Product | Single layer water-soluble polyether sulfonic fluorine nonstick coating |
Model | PL.3618-5000 |
Color | Black |
Main Chemical Composition | PES Binder, PTFE Anti-adherent, Pigment filler, Mixed Aqueous Solution |
Viscosity (Room Temperature of 25℃, IWATA NK-2 Viscosity Cup) | 18 to 40 Seconds (Due to the influence of climate and temperature, a moderate deviation is normal.) |
Specific Weight | 0.98-1.06KG/L |
Solid-containing Content | 28%±3% |
Sintering Temperature | 385-420℃ |
Coating Thickness | 18-22um |
Packaging Specification | 20kg per plastic barrel with carton |
Storage Condition | Avoid high temperature exposure. Should be stored in a ventilated and cool environment at room temperature. |
Shelf Life | 3 Months |
Application | All kinds of kitchenware and tableware made from metal, aluminum, stainless steel, etc. |
Property Testing | Standard | Method |
Appearance of Original Paint | Thick and Sticky Liquid | Eyeballing |
Appearance of Coating Film | Flat and smooth without obvious,roughness,bittiness,discoloration,and scratches. | Eyeballing |
Adhesion | No fall-off of the coating film | 50-KG recoil for 2 times. Scrape the coating surface with a knife on the breach. Then scrape it down with nails, and there should be no obvious peeling off. |
Hardness | ≥2H | Use 2H pencil with hardness tester for the coating. |
Acid Resistance | No abnormality of the coating film | Boil for 12 minutes in a reagent hydrochloric acid solution with a volume fraction of 12% |
Boiling Water Resistance | No fall-off of the coating film | Test the adhesion after boiling water for 100 hours |
Corrosion Resistance | No fall-off of the coating film | Boil for 100 hours in the salt water with a volume fraction of 5%, heating to the temperature of over 90℃ |
Heat Resistance | No fall-off of the coating film | Put the sample into the oven of 260℃ for 10 hours. Wait for it to cool down to room temperature and take it out for Observation.
|
Abrasion Resistance
| After 500-time abrasion or more, there is no obvious wear-out on the coating. Abrasion marks that are less than 1mm should be 2 or less.
| Use abrasion tester for dry abrasion test. Use scouring pad of 3M 7447B and 3kg weight to rub back and forth once. Turn over the surface every 500 times.
|
Abrasion Resistance (Test item is flat aluminium alloy plate) | After 1000-time abrasion or more, there is no obvious wear-out on the coating. Abrasion marks that are less than 1mm should be 2 or less. | Use abrasion tester for dry abrasion test. Use scouring pad of 3M 7447B and 3kg weight to rub back and forth once. Turn over the surface every 500 times.
|
Health Indicator | International Standard | Certification of ROHS, FDA, LFGB, REACH |
Test Standard | National Standard | GB/T32095.1-2015 GB/T32095.2-2015 GB/T32095.3-2015 GB/T32095.4-2015 |
Applications of PES Non-stick Coating
·Easy-cleaning
·Long Service Life
·Super Heat-resistant
·Environmental & Safe
·Strong Adhesion
·Great Rigidity
·High Practicability & Processability
·Strong Chemical Resistance
Comparing a waterbased Coatings vs. Solvent-based Coatings might seem like a pointless exercise, but there are several factors to consider. Workplace safety and environmental impact being two of the most important.
A solvent-based coating is generally applied in a completely enclosed application environment where the health risks to everyone involved in the process are minimal because they exist only while the application is taking place (i.e., from open paint cans, brushes, and rags). The fumes dissipate fairly quickly because most solvents evaporate within minutes of exposure. But that's not necessarily true for those who work with styrene-butadiene rubber (SBR) or other highly toxic substances.
Waterbased coatings, on the other hand, generally only generate fumes when the product is actually being applied or when it's being cleaned up. The process of applying and cleaning up are what really bring about a need for caution.
Depending on the work environment and amount of time involved, water-based coatings provide relatively low levels of exposure to organic solvents. This depends entirely upon the manufacturer's application and safety practices as well as the dilution ratio. When compared to solvent-based coatings, they clearly win the "safety" award. The use of water means it won't evaporate in a hurry, so clean-up involves wetting down with water or using high-pressure hoses.
Water-based coatings are not as harmful to the environment as solvent-based coatings. While water-based coatings do contain organic chemicals, they are carried in water-based emulsions, which makes them biodegradable. The solvents in solvent-based coatings evaporate too quickly to allow them to biodegrade.
The volatile organic compounds present in solvent-based coatings contribute to smog or ozone formation and can irritate the respiratory system and eyes if the fumes are inhaled. Water does not possess these same elements so there is no worry about inhaling fumes when applying water based paints or thinners.
While application of water-based coatings can be messy, their cleanup is easier than solvent-based coatings. Water-based paint can be cleaned up with soap and water, while solvent-based coatings have to be cleaned with thinner.
Product | Single layer water-soluble polyether sulfonic fluorine nonstick coating |
Model | PL.3618-5000 |
Color | Black |
Main Chemical Composition | PES Binder, PTFE Anti-adherent, Pigment filler, Mixed Aqueous Solution |
Viscosity (Room Temperature of 25℃, IWATA NK-2 Viscosity Cup) | 18 to 40 Seconds (Due to the influence of climate and temperature, a moderate deviation is normal.) |
Specific Weight | 0.98-1.06KG/L |
Solid-containing Content | 28%±3% |
Sintering Temperature | 385-420℃ |
Coating Thickness | 18-22um |
Packaging Specification | 20kg per plastic barrel with carton |
Storage Condition | Avoid high temperature exposure. Should be stored in a ventilated and cool environment at room temperature. |
Shelf Life | 3 Months |
Application | All kinds of kitchenware and tableware made from metal, aluminum, stainless steel, etc. |
Property Testing | Standard | Method |
Appearance of Original Paint | Thick and Sticky Liquid | Eyeballing |
Appearance of Coating Film | Flat and smooth without obvious,roughness,bittiness,discoloration,and scratches. | Eyeballing |
Adhesion | No fall-off of the coating film | 50-KG recoil for 2 times. Scrape the coating surface with a knife on the breach. Then scrape it down with nails, and there should be no obvious peeling off. |
Hardness | ≥2H | Use 2H pencil with hardness tester for the coating. |
Acid Resistance | No abnormality of the coating film | Boil for 12 minutes in a reagent hydrochloric acid solution with a volume fraction of 12% |
Boiling Water Resistance | No fall-off of the coating film | Test the adhesion after boiling water for 100 hours |
Corrosion Resistance | No fall-off of the coating film | Boil for 100 hours in the salt water with a volume fraction of 5%, heating to the temperature of over 90℃ |
Heat Resistance | No fall-off of the coating film | Put the sample into the oven of 260℃ for 10 hours. Wait for it to cool down to room temperature and take it out for Observation.
|
Abrasion Resistance
| After 500-time abrasion or more, there is no obvious wear-out on the coating. Abrasion marks that are less than 1mm should be 2 or less.
| Use abrasion tester for dry abrasion test. Use scouring pad of 3M 7447B and 3kg weight to rub back and forth once. Turn over the surface every 500 times.
|
Abrasion Resistance (Test item is flat aluminium alloy plate) | After 1000-time abrasion or more, there is no obvious wear-out on the coating. Abrasion marks that are less than 1mm should be 2 or less. | Use abrasion tester for dry abrasion test. Use scouring pad of 3M 7447B and 3kg weight to rub back and forth once. Turn over the surface every 500 times.
|
Health Indicator | International Standard | Certification of ROHS, FDA, LFGB, REACH |
Test Standard | National Standard | GB/T32095.1-2015 GB/T32095.2-2015 GB/T32095.3-2015 GB/T32095.4-2015 |
Applications of PES Non-stick Coating
·Easy-cleaning
·Long Service Life
·Super Heat-resistant
·Environmental & Safe
·Strong Adhesion
·Great Rigidity
·High Practicability & Processability
·Strong Chemical Resistance