Category:
Polymer Coating
EAS offfers high quality Silicone (Liqud, Dry) coating fiberglass fabric, PU coated fiberglass cloth, Acrylic, Graphite, Vermiculite, PVC, PTFE, Hypalon, calcium silicate
Product description
Polymers coating for the fiberglass fabric, aramid fabric, basalt fabric etc. EAS uses silicone, polyurethane (PU), acrylic, neoprene, PVC, Hypalon, viton for the coating. They can greatly improve the required properties high temperature resistance, waterproof, chemical resistance, UV resistance, weave setting etc. The basis material fiberglass, aramid, silica offers.
Identification |
|
||
C |
P |
PU coated |
|
A |
B |
Acrylic coated or dyed |
|
BF |
Basalt woven fabric |
PVC |
PVC coated |
T |
V |
Vermiculite coated |
|
MT |
Leached E glass |
G |
Graphite coated |
NM |
HT |
High temperature |
|
Insuflex650 |
F |
PTFE coated |
|
R |
AL |
Aluminum foil |
|
K |
AL-M |
Aluminum PET film |
|
S |
Silicone coated |
|
|
C400: Filament glass woven fabric
SC400: Silicone coated filament glass woven fabric
ALC400: Aluminum foil filament glass woven fabric
Silicone coated fabric is made by high quality fiberglass filament fabric, fiberglass texturized fabric, silica fabrc, aramid fabric by knife coating, calendered coating .
PU (Polyurethane) coated fiberglass fabric is typically made by fiberglass filament fabric, fiberglass texturized fabric, wire reinforced fiberglass fabric, widely used for welding blanket, fire curtain, removable insulation.
Acrylic coated fiberglass fabric is a relatively more environmental friendly coating than PU, available slight coating (Impregnation) and heavy coating (Knife coating)
Vermiculite coated fiberglass/silica fabric is a popular coating for weave setting and high temperature resistance
PVC coated fiberglass fabric is a economic solution for weathering and fireproof cover fabric as well as flexible air hose (Hot weldable PVC).
Polymer |
Temperature |
PU |
180℃ |
Acrylic |
150℃ |
Neoprene |
150℃ |
Hypalon |
150℃ |
PVC |
150℃ |
Viton |
260℃ |
Vermiculite | 750℃ |
Graphite | 750℃ |
Silicone | 260℃ |
Material Resistance to |
Nature rubber |
Neoprene ® |
Polyurethane (PU) |
Silicone rubber |
PTFE |
Abrasion |
G |
G |
E |
P |
P |
Chemical |
G |
F-G |
F |
G-E |
E |
Electrical |
E |
F |
F-G |
G-E |
E |
Flame |
P |
P |
P |
E |
E |
Heat |
P |
P |
F |
F-G |
E |
Low temperature |
E |
E |
G |
E |
E |
Oil |
P |
P |
G |
P-G |
E |
Ozone/Weathering |
P-F |
P-F |
E |
E |
E |
Water |
G |
G |
F-G |
F |
E |
· E: Excellent G: Good F: Fair P: Poor
Silicone coating:
Item | Total Thickness mm |
Coating weight, g/m2 |
Coating side | Total weight g/m2 |
Weave |
SC200 | 0.22 | 50 | 1 | 250 | Plain |
0.22 | 120 | 2 | 320 | Plain | |
SC400 (ECO) | 0.40 | 60 | 1 | 480 | 4H Satin |
0.40 | 80 | 1 | 500 | 4H Satin | |
0.40 | 100 | 1 | 520 | 4H Satin | |
0.40 | 130 | 1/2 | 550 | 4H Satin | |
0.40 | 200 | 1/2 | 620 | 4H Satin | |
SC600 (ECO) | 0.80 | 120 | 1 | 760 | 8H Satin |
0.80 | 260 | 2 | 900 | 8H Satin | |
0.80 | 300 | 2 | 940 | 8H Satin | |
0.80 | 400 | 2 | 1040 | 8H Satin | |
SC600R | 0.80 | 300 | 2 | 1030 | 8H Satin |
SC800 (ECO) | 1.0 | 200 | 2 | 1080 | 8H Satin |
1.0 | 260 | 2 | 1120 | 8H Satin | |
1.1 | 1000 | 1 | 1840 | 8H Satin | |
SC1000(R) | 1.3 | 750 | 1 | 1850 | Plain |
1.5 | 1550 | 2 | 2550 | Plain | |
SA30 | 1.3 | 1000 | 1/2 | 2000 | Plain |
ST600 | 0.70 | 100 | 1 | 700 | 8H Satin |
0.70 | 200 | 2 | 800 | 8H Satin | |
ST1200 | 1.30 | 300 | 2 | 1500 | 12H Satin |
PU coating:
Item | Total Thickness mm |
Coating side | Total weight g/m2 |
Weave |
PC200 | 0.20 | 1/2 | 250 | Plain |
PC400 | 0.40 | 1/2 | 450 | Satin |
PC400 | 0.40 | 2 | 480 | Satin |
PC600 | 0.70 | 1/2 | 680 | Satin |
PC600C | 0.70 | 1/2 | 720 | Square |
PC600R | 0.70 | 1/2 | 740 | Satin |
PC800 | 0.80 | 2 | 920 | Satin |
PC1100R | 1.1 | 2 | 1180 | Plain |
PA24 | 1.0 | 2 | 850 | Plain/Twill |
PA30(R) | 1.3 | 2 | 1100 | Plain |
PT600 | 0.70 | 1 | 630 | Satin |
PTS600 | 0.70 | 2 | 680 | Satin |
PT1100 | 1.30 | 1 | 1150 | Satin |
Polymer coating is a versatile and protective material that is applied to various surfaces to enhance durability, provide corrosion resistance, improve aesthetics, and offer additional functional properties. It is a thin layer of polymer material that adheres to the substrate, forming a protective barrier and enhancing the overall performance of the coated object.
One of the key features of polymer coating is its ability to improve the durability of the underlying surface. The polymer material acts as a protective shield against external factors such as moisture, chemicals, abrasion, and UV radiation. By forming a barrier, it prevents the substrate from being damaged or deteriorated, significantly extending its lifespan. Polymer coatings are commonly used in industries such as automotive, construction, electronics, and marine, where protection against wear and tear is essential.
Another significant advantage of polymer coating is its ability to provide corrosion resistance. Corrosion can occur when metals are exposed to moisture and other corrosive agents. Polymer coatings with corrosion-resistant properties can prevent the metal substrate from coming into contact with these agents, effectively inhibiting rust and corrosion. This makes polymer coating an ideal choice for applications such as metal structures, pipelines, and marine equipment that are exposed to harsh environmental conditions.
Furthermore, polymer coatings can enhance the aesthetics of the coated object. They are available in a wide range of colors and finishes, allowing for customization and improving the visual appeal of the substrate. Polymer coatings can be glossy, matte, textured, or even transparent, depending on the desired aesthetic effect. This makes them suitable for applications where appearance matters, such as consumer electronics, furniture, and architectural surfaces.
Moreover, polymer coatings can provide additional functional properties to the coated surface. Depending on the specific formulation, polymer coatings can offer characteristics such as non-stick, anti-fouling, anti-microbial, thermal insulation, or electrical insulation properties. These additional functionalities make polymer coatings suitable for a wide range of applications, including cookware, medical devices, electrical components, and industrial equipment.
Additionally, polymer coatings are easy to apply and can be adapted to different substrates. They can be applied using various methods such as spraying, brushing, or dipping, ensuring efficient and uniform coverage.
- Production Description
- Size&Packing
- Technical data
-
- Commodity name: Polymer Coating
- Commodity ID: d1
EAS offfers high quality Silicone (Liqud, Dry) coating fiberglass fabric, PU coated fiberglass cloth, Acrylic, Graphite, Vermiculite, PVC, PTFE, Hypalon, calcium silicate
Polymers coating for the fiberglass fabric, aramid fabric, basalt fabric etc. EAS uses silicone, polyurethane (PU), acrylic, neoprene, PVC, Hypalon, viton for the coating. They can greatly improve the required properties high temperature resistance, waterproof, chemical resistance, UV resistance, weave setting etc. The basis material fiberglass, aramid, silica offers.
Identification
C
P
PU coated
A
B
Acrylic coated or dyed
BF
Basalt woven fabric
PVC
PVC coated
T
V
Vermiculite coated
MT
Leached E glass
G
Graphite coated
NM
HT
High temperature
Insuflex650
F
PTFE coated
R
AL
Aluminum foil
K
AL-M
Aluminum PET film
S
Silicone coated
C400: Filament glass woven fabric
SC400: Silicone coated filament glass woven fabric
ALC400: Aluminum foil filament glass woven fabric
Silicone coated fabric is made by high quality fiberglass filament fabric, fiberglass texturized fabric, silica fabrc, aramid fabric by knife coating, calendered coating .
PU (Polyurethane) coated fiberglass fabric is typically made by fiberglass filament fabric, fiberglass texturized fabric, wire reinforced fiberglass fabric, widely used for welding blanket, fire curtain, removable insulation.
Acrylic coated fiberglass fabric is a relatively more environmental friendly coating than PU, available slight coating (Impregnation) and heavy coating (Knife coating)
Vermiculite coated fiberglass/silica fabric is a popular coating for weave setting and high temperature resistance
PVC coated fiberglass fabric is a economic solution for weathering and fireproof cover fabric as well as flexible air hose (Hot weldable PVC).Polymer
Temperature PU
180℃
Acrylic
150℃
Neoprene
150℃
Hypalon
150℃
PVC
150℃
Viton
260℃
Vermiculite 750℃ Graphite 750℃ Silicone 260℃ Material Resistance to
Nature rubber
Neoprene ®
Polyurethane (PU)
Silicone rubber
PTFE
Abrasion
G
G
E
P
P
Chemical
G
F-G
F
G-E
E
Electrical
E
F
F-G
G-E
E
Flame
P
P
P
E
E
Heat
P
P
F
F-G
E
Low temperature
E
E
G
E
E
Oil
P
P
G
P-G
E
Ozone/Weathering
P-F
P-F
E
E
E
Water
G
G
F-G
F
E
· E: Excellent G: Good F: Fair P: Poor
Silicone coating:
Item Total Thickness
mmCoating weight,
g/m2Coating side Total weight
g/m2Weave SC200 0.22 50 1 250 Plain 0.22 120 2 320 Plain SC400 (ECO) 0.40 60 1 480 4H Satin 0.40 80 1 500 4H Satin 0.40 100 1 520 4H Satin 0.40 130 1/2 550 4H Satin 0.40 200 1/2 620 4H Satin SC600 (ECO) 0.80 120 1 760 8H Satin 0.80 260 2 900 8H Satin 0.80 300 2 940 8H Satin 0.80 400 2 1040 8H Satin SC600R 0.80 300 2 1030 8H Satin SC800 (ECO) 1.0 200 2 1080 8H Satin 1.0 260 2 1120 8H Satin 1.1 1000 1 1840 8H Satin SC1000(R) 1.3 750 1 1850 Plain 1.5 1550 2 2550 Plain SA30 1.3 1000 1/2 2000 Plain ST600 0.70 100 1 700 8H Satin 0.70 200 2 800 8H Satin ST1200 1.30 300 2 1500 12H Satin
PU coating:
Item Total Thickness
mmCoating side Total weight
g/m2Weave PC200 0.20 1/2 250 Plain PC400 0.40 1/2 450 Satin PC400 0.40 2 480 Satin PC600 0.70 1/2 680 Satin PC600C 0.70 1/2 720 Square PC600R 0.70 1/2 740 Satin PC800 0.80 2 920 Satin PC1100R 1.1 2 1180 Plain PA24 1.0 2 850 Plain/Twill PA30(R) 1.3 2 1100 Plain PT600 0.70 1 630 Satin PTS600 0.70 2 680 Satin PT1100 1.30 1 1150 Satin
Polymer coating is a versatile and protective material that is applied to various surfaces to enhance durability, provide corrosion resistance, improve aesthetics, and offer additional functional properties. It is a thin layer of polymer material that adheres to the substrate, forming a protective barrier and enhancing the overall performance of the coated object.
One of the key features of polymer coating is its ability to improve the durability of the underlying surface. The polymer material acts as a protective shield against external factors such as moisture, chemicals, abrasion, and UV radiation. By forming a barrier, it prevents the substrate from being damaged or deteriorated, significantly extending its lifespan. Polymer coatings are commonly used in industries such as automotive, construction, electronics, and marine, where protection against wear and tear is essential.
Another significant advantage of polymer coating is its ability to provide corrosion resistance. Corrosion can occur when metals are exposed to moisture and other corrosive agents. Polymer coatings with corrosion-resistant properties can prevent the metal substrate from coming into contact with these agents, effectively inhibiting rust and corrosion. This makes polymer coating an ideal choice for applications such as metal structures, pipelines, and marine equipment that are exposed to harsh environmental conditions.
Furthermore, polymer coatings can enhance the aesthetics of the coated object. They are available in a wide range of colors and finishes, allowing for customization and improving the visual appeal of the substrate. Polymer coatings can be glossy, matte, textured, or even transparent, depending on the desired aesthetic effect. This makes them suitable for applications where appearance matters, such as consumer electronics, furniture, and architectural surfaces.
Moreover, polymer coatings can provide additional functional properties to the coated surface. Depending on the specific formulation, polymer coatings can offer characteristics such as non-stick, anti-fouling, anti-microbial, thermal insulation, or electrical insulation properties. These additional functionalities make polymer coatings suitable for a wide range of applications, including cookware, medical devices, electrical components, and industrial equipment.
Additionally, polymer coatings are easy to apply and can be adapted to different substrates. They can be applied using various methods such as spraying, brushing, or dipping, ensuring efficient and uniform coverage.
Keywords:- Silicone coated fiberglass fabric
- PU coated fiberglass fabric
- PVC coated fiberglass fabric\
- vermiculite coated fiberglass fabric
- graphite coated fiberglass fabric
- PTFE coated fiberglass fabric
-
Silicone coating:
Item Total Thickness
mmCoating weight,
g/m2Coating side Total weight
g/m2Weave SC200 0.22 50 1 250 Plain 0.22 120 2 320 Plain SC400 (ECO) 0.40 60 1 480 4H Satin 0.40 80 1 500 4H Satin 0.40 100 1 520 4H Satin 0.40 130 1/2 550 4H Satin 0.40 200 1/2 620 4H Satin SC600 (ECO) 0.80 120 1 760 8H Satin 0.80 260 2 900 8H Satin 0.80 300 2 940 8H Satin 0.80 400 2 1040 8H Satin SC600R 0.80 300 2 1030 8H Satin SC800 (ECO) 1.0 200 2 1080 8H Satin 1.0 260 2 1120 8H Satin 1.1 1000 1 1840 8H Satin SC1000(R) 1.3 750 1 1850 Plain 1.5 1550 2 2550 Plain SA30 1.3 1000 1/2 2000 Plain ST600 0.70 100 1 700 8H Satin 0.70 200 2 800 8H Satin ST1200 1.30 300 2 1500 12H Satin PU coating:
Item Total Thickness
mmCoating side Total weight
g/m2Weave PC200 0.20 1/2 250 Plain PC400 0.40 1/2 450 Satin PC400 0.40 2 480 Satin PC600 0.70 1/2 680 Satin PC600C 0.70 1/2 720 Square PC600R 0.70 1/2 740 Satin PC800 0.80 2 920 Satin PC1100R 1.1 2 1180 Plain PA24 1.0 2 850 Plain/Twill PA30(R) 1.3 2 1100 Plain PT600 0.70 1 630 Satin PTS600 0.70 2 680 Satin PT1100 1.30 1 1150 Satin
Keyword:
Silicone coated fiberglass fabric
PU coated fiberglass fabric
PVC coated fiberglass fabric\
vermiculite coated fiberglass fabric
graphite coated fiberglass fabric
PTFE coated fiberglass fabric
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