APPROPRIATE INDUSTRIES & APPLICATIONS
AUTOMOTIVE AND ENGINE BUILDING INDUSTRIES | FOOD INDUSTRY |
GAS SUPPLY | GENERAL PURPOSE | POTABLE WATER SUPPLY | WATER SUPPLY |
Composition |
Aramid & cellulose fibers, inorganic fillers, NBR binder. Optional steel wire mesh reinforcement.
|
Color |
Light green |
Approvals and compliances |
DNV GL | DVGW DIN 3535-6 | EC 1935/2004 | ELL (hot) | SVGW DIN 3535-6 | TA Luft (VDI 2440) | TZW W270 | WRAS |
|
Sheet dimensions |
Size (mm): 1500 x 1500 | 3000 x 1500 | 4500 x 1500
Thickness (mm): 0.5 | 1.0 | 1.5 | 2.0 | 3.0
Other sizes and thicknesses available on request
|
Tolerances |
± 5 % on length and width
On thickness up to 1.0 mm ± 0.1 mm
On thickness above 1.0 mm ± 10 %
|
Surface finish |
Standard: 4AS. Optional: graphite or PTFE.
|
TECHNICAL DATA
Typical values for 2 mm thickness
Density
|
DIN 28090-2 |
g/cm3 |
1.8 |
Compressibility
|
ASTM F36J |
% |
9 |
Recovery
|
ASTM F36J |
% |
55 |
Tensile strength
|
ASTM F152 |
MPa |
11 |
Residual stress
|
DIN 52913 |
|
|
50 MPa, 175°C, 16 h
|
|
MPa |
25 |
50 MPa, 300°C, 16 h
|
|
MPa |
/ |
Specific leak rate
|
DIN 3535-6 |
mg/(s·m) |
0.07 |
Thickness increase
|
ASTM F146 |
|
|
Oil IRM 903, 150°C, 5 h
|
|
% |
8 |
ASTM Fuel B, 23°C, 5 h
|
|
% |
10 |
Compression modulus
|
DIN 28090-2 |
|
|
At room temperature: εKSW
|
|
% |
8.5 |
At elevated temperature: εWSW/200°C
|
|
% |
25 |
Creep relaxation
|
DIN 28090-2 |
|
|
At room temperature: εKRW
|
|
% |
5.1 |
At elevated temperature: εWRW/200°C
|
|
% |
1.2 |
Maximum operating conditions
|
|
|
|
Peak temperature
|
|
°C/°F |
280/536 |
Continuous temperature
|
|
°C/°F |
220/428 |
Continuous temperature with steam
|
|
°C/°F |
180/356 |
Pressure
|
|
bar/psi |
80/1160 |
P-T diagram EN 1514-1, Type IBC, PN 40, DIN 28091-2 / 3.8, 2 mm
P-T diagrams indicate the maximum permissible combination of internal pressure and service temperature which can be simultaneously applied to a given gaskets thickness, size and tightness class. Given the wide variety of gasket applications and service conditions, these values should only be regarded as a guidance for the proper gasket assembly. In general, thinner gaskets exhibit better P-T properties.
-
General suitability - Under common installation practices and chemical compatibility
-
Conditional suitability - Appropriate measures ensure maximum performance for joint design and gasket installation. Technical consultation is recommended
-
Limited suitability - Technical consultation is mandatory.
BO DIAGRAMS DIN 28090-1
σBO diagrams represent σBO values for different gasket material thicknesses. These values indicate the maximum in-service compressive pressures which can be applied on the gasket area involved without destructing or damaging the gasket material.
CHEMICAL RESISTANCE CHART
Acetamide |
|
Acetic acid, 10% |
|
Acetic acid, 100% (Glacial) |
|
Acetone |
|
Acetonitrile |
|
Acetylene (gas) |
|
Acid chlorides |
|
Acrylic acid |
|
Acrylonitrile |
|
Adipic acid |
|
Air (gas) |
|
Alcohols |
|
Aldehydes |
|
Alum |
|
Aluminium acetate |
|
Aluminium chlorate |
|
Aluminium chloride |
|
Aluminium sulfate |
|
Amines |
|
Ammonia (Gas) |
|
Ammonium bicarbonate |
|
Ammonium chloride |
|
Ammonium hydroxide |
|
Amyl acetate |
|
Anhydrides |
|
Aniline |
|
Anisole |
|
Argon (gas) |
|
Asphalt |
|
Barium chloride |
|
Benzaldehyde |
|
Benzene |
|
Benzoic acid |
|
Bio-diesel |
|
Bio-ethanol |
|
Black liquor |
|
Borax |
|
Boric acid |
|
Butadiene (gas) |
|
Butane (gas) |
|
Butyl alcohol (Butanol) |
|
Butyric acid |
|
Calcium chloride |
|
Calcium hydroxide |
|
Carbon dioxide (gas) |
|
Carbon monoxide (gas) |
|
Cellosolve |
|
Chlorine (gas) |
|
Chlorine (in water) |
|
Chlorobenzene |
|
Chloroform |
|
Chloroprene |
|
Chlorosilanes |
|
Chromic acid |
|
Citric acid |
|
Copper acetate |
|
Copper sulfate |
|
Creosote |
|
Cresols (Cresylic acid) |
|
Cyclohexane |
|
Cyclohexanol |
|
Cyclohexanone |
|
Decalin |
|
Dextrin |
|
Dibenzyl ether |
|
Dibutyl phthalate |
|
Dimethylacetamide (DMA) |
|
Dimethylformamide (DMF) |
|
Dioxane |
|
Diphyl (Dowtherm A) |
|
Esters |
|
Ethane (Gas) |
|
Ethers |
|
Ethyl acetate |
|
Ethyl alcohol (Ethanol) |
|
Ethyl cellulose |
|
Ethyl chloride (gas) |
|
Ethylene (gas) |
|
Ethylene glycol |
|
Formaldehyde (Formalin) |
|
Formamide |
|
Formic acid, 10% |
|
Formic acid, 85% |
|
Formic acid, 100% |
|
Freon-12 (R-12) |
|
Freon-134a (R-134a) |
|
Freon-22 (R-22) |
|
Fruit juices |
|
Fuel oil |
|
Gasoline |
|
Gelatin |
|
Glycerine (Glycerol) |
|
Glycols |
|
Helium (gas) |
|
Heptane |
|
Hydraulic oil (Glycol based) |
|
Hydraulic oil (Mineral) |
|
Hydraulic oil (Phosphate ester-based) |
|
Hydrazine |
|
Hydrocarbons |
|
Hydrochloric acid, 10% |
|
Hydrochloric acid, 37% |
|
Hydrofluoric acid, 10% |
|
Hydrofluoric acid, 48% |
|
Hydrogen (gas) |
|
Iron sulfate |
|
Isobutane (Gas) |
|
Isooctane |
|
Isoprene |
|
Isopropyl alcohol (Isopropanol) |
|
Kerosene |
|
Ketones |
|
Lactic acid |
|
Lead acetate |
|
Lead arsenate |
|
Magnesium sulfate |
|
Maleic acid |
|
Malic acid |
|
Methane (Gas) |
|
Methyl alcohol (Methanol) |
|
Methyl chloride (Gas) |
|
Methylene dichloride |
|
Methyl ethyl ketone (MEK) |
|
N-Methyl-pyrrolidone (NMP) |
|
Milk |
|
Mineral oil type ASTM 1 |
|
Motor oil |
|
Naphtha |
|
Nitric acid, 10% |
|
Nitric acid, 65% |
|
Nitrobenzene |
|
Nitrogen (Gas) |
|
Nitrous gases (NOx) |
|
Octane |
|
Oils (Essential) |
|
Oils (Vegetable) |
|
Oleic acid |
|
Oleum (Sulfuric acid, fuming) |
|
Oxalic acid |
|
Oxygen (gas) |
|
Palmitic acid |
|
Paraffin oil |
|
Pentane |
|
Perchloroethylene |
|
Petroleum (Crude oil) |
|
Phenol (Carbolic acid) |
|
Phosphoric acid, 40% |
|
Phosphoric acid, 85% |
|
Phthalic acid |
|
Potassium acetate |
|
Potassium bicarbonate |
|
Potassium carbonate |
|
Potassium chloride |
|
Potassium cyanide |
|
Potassium dichromate |
|
Potassium hydroxide |
|
Potassium iodide |
|
Potassium nitrate |
|
Potassium permanganate |
|
Propane (gas) |
|
Propylene (gas) |
|
Pyridine |
|
Salicylic acid |
|
Seawater/brine |
|
Soaps |
|
Silicones (oil/grease) |
|
Soaps |
|
Sodium aluminate |
|
Sodium bicarbonate |
|
Sodium bisulfite |
|
Sodium carbonate |
|
Sodium chloride |
|
Sodium cyanide |
|
Sodium hydroxide |
|
Sodium hypochlorite (Bleach) |
|
Sodium silicate (Water glass) |
|
Sodium sulfate |
|
Sodium sulfide |
|
Starch |
|
Steam |
|
Stearic acid |
|
Styrene |
|
Sugars |
|
Sulfur |
|
Sulfur dioxide (Gas) |
|
Sulfuric acid, 20% |
|
Sulfuric acid, 98% |
|
Sulfuryl chloride |
|
Tar |
|
Tartaric acid |
|
Tetrahydrofuran (THF) |
|
Titanium tetrachloride |
|
Toluene |
|
2,4-Toluenediisocyanate |
|
Transformer oil (Mineral type) |
|
Trichloroethylene |
|
Vinegar |
|
Vinyl chloride (gas) |
|
Vinylidene chloride |
|
Water |
|
White spirits |
|
Xylenes |
|
Xylenol |
|
Zinc sulfate |
|