Synthetic Rubber
Industry-leading toughness, durability, thermal resistance, and fluid resistance: ZEON offers a wide variety of different rubber products that meet the individual requirements of your application and your processes perfectly. We provide our customers with innovative materials and best properties, while we still take care to ensure cost-effectiveness.
Heat and oil resistance
ZEON’s rubber products are used for various purposes – the production of tires or rubber gloves as well as for hoses and seals in state-of-the-art automotive engines. Each individual application requires different product properties, and the identification and selection of the correct base polymer are of crucial importance. ZEON's application development experts are happy to support you during this process. Our exceptional products and global presence of technical support provide added value to your company to develop rubber compounds that meet your requirements in terms of mechanical properties, heat and oil resistance as well as low-temperature flexibility, permanent set, permeation resistance, electrical properties, resistance to various (automotive) service fluids - also taking into account processing and curing characteristics.
Get advice on the full range of product properties, lifetimes, and costs. We will help you find the perfect raw material for your product.
Expert advice
The best technical support comes from chemists with years of hands-on experience. Contact us now!
ACM | HyTemp®
Polyacrylate Rubber
HyTemp® ACM polymers are produced by emulsion polymerisation of acrylic monomers. These monomers, and the ratios in which they are used, define the polymer's key characteristics such as heat and oil resistance, physical properties, and processing characteristics. ZEON offers various grades of HyTemp® ACM to meet the requirements of different applications. Typically, HyTemp® ACM compounds offer exceptional heat and oil resistance.
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Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Cure Site | Gehman T100 [°C] | Main Characteristics & Applications |
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HyTemp® 4051 | Mooney Viscosity ML 1+4, 100°C [MU] 46 – 58 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –18 | Main Characteristics & Applications Maximum heat/oil resistance with moderate low temperature properties. Excellent compression set resistance. Used for O-rings, Seal & O-Ring, and gaskets. |
HyTemp® 4051EP | Mooney Viscosity ML 1+4, 100°C [MU] 35 – 47 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –18 | Main Characteristics & Applications Maximum heat/oil resistance with moderate low temperature properties. Excellent compression set resistance. Used for O-rings, Seal & O-Ring, and gaskets. |
HyTemp® 4051CG | Mooney Viscosity ML 1+4, 100°C [MU] 25 – 37 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –18 | Main Characteristics & Applications Cement grade of HyTemp® 4051. Used in adhesive and mastic applications. |
HyTemp® 4052 | Mooney Viscosity ML 1+4, 100°C [MU] 32 – 40 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –32 | Main Characteristics & Applications Excellent balance of heat/oil resistance and low temperature properties. Very good compression set resistance. |
HyTemp® 4052EP | Mooney Viscosity ML 1+4, 100°C [MU] 25 – 35 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –32 | Main Characteristics & Applications Excellent balance of heat/oil resistance and low temperature properties. Very good compression set resistance. |
HyTemp® 4065 | Mooney Viscosity ML 1+4, 100°C [MU] 27 – 45 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –30 | Main Characteristics & Applications Excellent balance of heat/oil resistance and low temperature properties. Good compression set resistance and processing/flow properties. |
HyTemp® 4053EP | Mooney Viscosity ML 1+4, 100°C [MU] 23 – 31 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –42 | Main Characteristics & Applications Excellent low temperature properties and oil resistance. |
HyTemp® 4054 | Mooney Viscosity ML 1+4, 100°C [MU] 22 – 34 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –41 | Main Characteristics & Applications Excellent balance of low/high temperature resistance with moderate oil resistance. |
HyTemp® PV04 | Mooney Viscosity ML 1+4, 100°C [MU] 37 – 47 | Relative Density 1,1 | Cure Site None | Gehman T100 [°C] –27 | Main Characteristics & Applications Peroxide curable elastomer used for adhesives, mastics, and plastic modification. |
Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Cure Site | Gehman T100 [°C] | Main Characteristics & Applications |
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HyTemp® AR71 | Mooney Viscosity ML 1+4, 100°C [MU] 42 – 54 | Relative Density 1,1 | Cure Site Chlorine | Gehman T100 [°C] –18 | Main Characteristics & Applications 175°C high-temperature service and excellent oil resistance. |
HyTemp® AR71L | Mooney Viscosity ML 1+4, 100°C [MU] 29 – 41 | Relative Density 1,1 | Cure Site Chlorine | Gehman T100 [°C] –18 | Main Characteristics & Applications Low Mooney viscosity version of HyTemp® AR71. |
HyTemp® AR715 | Mooney Viscosity ML 1+4, 100°C [MU] 27 – 39 | Relative Density 1,1 | Cure Site Chlorine | Gehman T100 [°C] –24 | Main Characteristics & Applications Improved low temperature and excellent oil resistance. |
HyTemp® AR72LF | Mooney Viscosity ML 1+4, 100°C [MU] 28 – 36 | Relative Density 1,1 | Cure Site Chlorine | Gehman T100 [°C] –28 | Main Characteristics & Applications Excellent balance of low temperature and oil resistance. Easy processing. |
HyTemp® AR74 | Mooney Viscosity ML 1+4, 100°C [MU] 29 – 36 | Relative Density 1,1 | Cure Site Chlorine | Gehman T100 [°C] –40 | Main Characteristics & Applications Excellent balance of low temperature and oil resistance. |
Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Cure Site | Gehman T100 [°C] | Main Characteristics & Applications |
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HyTemp® AR12 | Mooney Viscosity ML 1+4, 100°C [MU] 28 – 38 | Relative Density 1,1 | Cure Site Special | Gehman T100 [°C] – 30 | Main Characteristics & Applications Optimised for improved long-term heat and compression set resistance over traditional acrylates with good low-temperature properties. |
HyTemp® AR12B | Mooney Viscosity ML 1+4, 100°C [MU] 28 – 38 | Relative Density 1,1 | Cure Site Special | Gehman T100 [°C] – 30 | Main Characteristics & Applications Faster curing version of HyTemp® AR12 offering reduced cycle times for injection moulding processes. |
HyTemp® H470 | Mooney Viscosity ML 1+4, 100°C [MU] 30 – 40 | Relative Density 1,1 | Cure Site Special | Gehman T100 [°C] –32 | Main Characteristics & Applications Specially designed to enhance the resistance against the contaminated engine oils & lubricants. |
HyTemp® H570 | Mooney Viscosity ML 1+4, 100°C [MU] 30 – 40 | Relative Density 1,1 | Cure Site Special | Gehman T100 [°C] –37 | Main Characteristics & Applications Optimised for a broad temperature range with excellent long-term heat resistance. Improved resistance to contaminated engine oils & lubricants. |
Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Cure Site | Gehman T100 [°C] | Main Characteristics & Applications |
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HyTemp® AR212HR | Mooney Viscosity ML 1+4, 100°C [MU] 34 – 44 | Relative Density 1,1 | Cure Site Special | Gehman T100 [°C] – 25 | Main Characteristics & Applications Optimised for extrusion applications. Excellent scorch safety and heat resistance compared to traditional acrylates. |
HyTemp® AR212XP | Mooney Viscosity ML 1+4, 100°C [MU] 34 – 44 | Relative Density 1,1 | Cure Site | Gehman T100 [°C] | Main Characteristics & Applications Extrusion grade that offers improved tear resistance and enhanced processing / faster extrusion over traditional acrylates. |
HyTemp® H310X | Mooney Viscosity ML 1+4, 100°C [MU] 31 – 45 | Relative Density 1,1 | Cure Site Special | Gehman T100 [°C] – 25 | Main Characteristics & Applications New generation HT-ACM for extrusion applications with improved Tensile Strength properties, both in original condition and after ageing in hot air. |
HyTemp® AR214 | Mooney Viscosity ML 1+4, 100°C [MU] 28 – 38 | Relative Density 1,1 | Cure Site Special | Gehman T100 [°C] – 40 | Main Characteristics & Applications Low temperature HT-ACM. |
Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Cure Site | Gehman T100 [°C] | Main Characteristics & Applications |
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HyTemp® 4451CG | Mooney Viscosity ML 1+4, 100°C [MU] 25 – 37 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –18 | Main Characteristics & Applications Crumb form of HyTemp® 4051CG. |
HyTemp® 4454 | Mooney Viscosity ML 1+4, 100°C [MU] 22 – 34 | Relative Density 1,1 | Cure Site Chlorine/Carboxyl | Gehman T100 [°C] –41 | Main Characteristics & Applications Crumb form of HyTemp® 4054. |
Yes, I am interested in ACM | HyTemp®
BR | NIPOL® BR
Polybutadiene rubber from ZEON is as versatile as its applications: Using catalyst technologies Cobalt and Lithium, the material features excellent abrasion and rebound resilience, and is highly resistant to aging. In combination with other types of rubber, you can modify the properties according to your individual requirements. Nipol® BR is used for example in car tires and shoe soles, as a vibration-damping material in industrial machines, as well as in golf balls and many other objects in our daily life.
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Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Main Characteristics & Applications |
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NIPOL® BR 1220 | Mooney Viscosity ML 1+4, 100°C [MU] 43 | Main Characteristics & Applications General purpose high-cis butadiene rubber. |
NIPOL® BR 1250H | Mooney Viscosity ML 1+4, 100°C [MU] 50 | Main Characteristics & Applications For carbon black functionalized low-cis butadiene rubber, optimised for tire body compounds and other dynamics applications, e. g. conveyor belts, V-belt, footwear, coated fabrics, anti-vibration parts. |
NIPOL® BR 1261 | Mooney Viscosity ML 1+4, 100°C [MU] 50 | Main Characteristics & Applications For silica functionalized low-cis butadiene rubber, optimised for high performance tire tread compounds. |
Yes, I am interested in BR | NIPOL® BR
ECO | HYDRIN®
Polyepichlorohydrin Rubber
Hydrin® polymers are produced by a solvent polymerisation process and are part of a broader class of elastomers known as polyethers. This class of materials is characterised by fully saturated, oxygen-containing backbones that impart a good balance of properties to their compounds such as resistance to heat and oil or other hydrocarbon-based fluids. Pendant to the backbone are chloromethyl groups (H and C types) and unsaturated bonds (T types), which can be utilized to cure the polymer, and also provide excellent permeation resistance against gasses and fuels. ZEON offers a wide range of Hydrin® homopolymers, copolymers, and terpolymers to meet the requirements of many different applications.
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Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Tg (°C) | Chlorine Content [wt%] | Main Characteristics & Applications |
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HYDRIN® H45 | Mooney Viscosity ML 1+4, 100°C [MU] 40 – 50 | Relative Density 1,37 | Tg (°C) -21 | Chlorine Content [wt%] 36 | Main Characteristics & Applications Homopolymer. Outstanding ozone and gas permeation resistance. Used for fuel hose, vibration mounts, adhesives, and gaskets. |
HYDRIN® H55 | Mooney Viscosity ML 1+4, 100°C [MU] 50 – 60 | Relative Density 1,37 | Tg (°C) -21 | Chlorine Content [wt%] 36 | Main Characteristics & Applications Homopolymer. Outstanding ozone and gas permeation resistance. Used for fuel hose, vibration mounts, adhesives, and gaskets. |
HYDRIN® H65 | Mooney Viscosity ML 1+4, 100°C [MU] 60 – 70 | Relative Density 1,37 | Tg (°C) -21 | Chlorine Content [wt%] 36 | Main Characteristics & Applications Homopolymer. Outstanding ozone and gas permeation resistance. Used for fuel hose, vibration mounts, adhesives, and gaskets. |
HYDRIN® H1100 | Mooney Viscosity ML 1+4, 100°C [MU] 52 – 65 | Relative Density 1,35 | Tg (°C) -26 | Chlorine Content [wt%] 35 | Main Characteristics & Applications Special copolymer. Gives improved ozone resistance. Can be sulphur or peroxide cured. |
Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Tg (°C) | Chlorine Content [wt%] | Main Characteristics & Applications |
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HYDRIN® C2000 | Mooney Viscosity ML 1+4, 100°C [MU] 90 – 102 | Relative Density 1,28 | Tg (°C) –41 | Chlorine Content [wt%] 26 | Main Characteristics & Applications Copolymer, providing good low temperature and anti-static properties. Used for fuel pump diaphragms, hoses, tubes, coated fabrics, and vibration mounts. |
HYDRIN® C2000L | Mooney Viscosity ML 1+4, 100°C [MU] 65 – 75 | Relative Density 1,28 | Tg (°C) –41 | Chlorine Content [wt%] 26 | Main Characteristics & Applications Copolymer grades with lower viscosity. |
HYDRIN® C2000LL | Mooney Viscosity ML 1+4, 100°C [MU] 53 – 65 | Relative Density 1,28 | Tg (°C) –41 | Chlorine Content [wt%] 26 | Main Characteristics & Applications Copolymer grades with lower viscosity. |
HYDRIN® C2000XL | Mooney Viscosity ML 1+4, 100°C [MU] 40 – 52 | Relative Density 1,28 | Tg (°C) –41 | Chlorine Content [wt%] 26 | Main Characteristics & Applications Copolymer grades with lower viscosity. |
Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Tg (°C) | Chlorine Content [wt%] | Main Characteristics & Applications |
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HYDRIN® T3000 | Mooney Viscosity ML 1+4, 100°C [MU] 80 – 94 | Relative Density 1,28 | Tg (°C) –43 | Chlorine Content [wt%] 25 | Main Characteristics & Applications Terpolymer. Sulphur or peroxide curable and can be blended with most polymers. |
HYDRIN® T3000L | Mooney Viscosity ML 1+4, 100°C [MU] 65 - 79 | Relative Density 1,28 | Tg (°C) –43 | Chlorine Content [wt%] 25 | Main Characteristics & Applications Terpolymer. Sulphur or peroxide curable and can be blended with most polymers. |
HYDRIN® T3000LL | Mooney Viscosity ML 1+4, 100°C [MU] 50 – 64 | Relative Density 1,28 | Tg (°C) –43 | Chlorine Content [wt%] 25 | Main Characteristics & Applications Terpolymer. Sulphur or peroxide curable and can be blended with most polymers. |
HYDRIN® T3100 | Mooney Viscosity ML 1+4, 100°C [MU] 63 – 77 | Relative Density 1,31 | Tg (°C) –36 | Chlorine Content [wt%] 29 | Main Characteristics & Applications Terpolymer grades with higher ECH and AGE content for better permeation and ozone resistance. |
HYDRIN® T3102 | Mooney Viscosity ML 1+4, 100°C [MU] 80 - 100 | Relative Density 1,31 | Tg (°C) –38 | Chlorine Content [wt%] 29 | Main Characteristics & Applications Terpolymer grades with higher ECH and AGE content for better permeation and ozone resistance. |
HYDRIN® T3105 | Mooney Viscosity ML 1+4, 100°C [MU] 70 – 80 | Relative Density 1,29 | Tg (°C) –41 | Chlorine Content [wt%] 28 | Main Characteristics & Applications Terpolymer grades with higher ECH and AGE content for better permeation and ozone resistance. |
HYDRIN® T3105B | Mooney Viscosity ML 1+4, 100°C [MU] 70 – 80 | Relative Density 1,29 | Tg (°C) –41 | Chlorine Content [wt%] 28 | Main Characteristics & Applications Hydrin® T3105 from sustainable non-crude-oil sources. |
HYDRIN® T3106 | Mooney Viscosity ML 1+4, 100°C [MU] 53 – 67 | Relative Density 1,26 | Tg (°C) –48 | Chlorine Content [wt%] 21 | Main Characteristics & Applications Terpolymer with high EO content for improved low temperature flexibility and enhanced static dissipative properties. |
HYDRIN® T3108 | Mooney Viscosity ML 1+4, 100°C [MU] 40 – 54 | Relative Density 1,23 | Tg (°C) –51 | Chlorine Content [wt%] 19 | Main Characteristics & Applications Terpolymer with highest EO content for maximum low temperature flexibility and superior static dissipative properties. |
HYDRIN® T3108XL | Mooney Viscosity ML 1+4, 100°C [MU] 10 – 25 | Relative Density 1,23 | Tg (°C) -51 | Chlorine Content [wt%] 17 | Main Characteristics & Applications Low viscosity version of Hydrin® T3108. |
HYDRIN® T5010 | Mooney Viscosity ML 1+4, 100°C [MU] 75 – 100 | Relative Density 1,27 | Tg (°C) -40 | Chlorine Content [wt%] 26 | Main Characteristics & Applications Best mill release and processing. Can be sulphur or peroxide cured. |
HYDRIN® T4000 | Mooney Viscosity ML 1+4, 100°C [MU] 30 - 40 | Relative Density 1,25 | Tg (°C) -40 | Chlorine Content [wt%] N/A | Main Characteristics & Applications New generation High Temperature ECO. Sulfur or peroxide curable. Highest heat resistance up to 135-150°C long-term plus improved processability for easy mill-release, fast extrusion, and calendaring. |
Yes, I am interested in ECO | HYDRIN®
ESBR | NIPOL®
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Grade | Bound Styrene (%) | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications |
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NIPOL® 1502 | Bound Styrene (%) 23,5 | Mooney Viscosity ML 1+4, 100°C [MU] 52 | Relative Density 0,94 | Antioxidant Type NS | Main Characteristics & Applications Standard type of ESBR for tire white wall and carcass, mechanical goods, white or light coloured sporting goods, floor covering, shoe soles and heels, refrigerator gaskets. |
Grade | Bound Styrene (%) | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications |
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NIPOL® 1723 | Bound Styrene (%) 23,5 | Mooney Viscosity ML 1+4, 100°C [MU] 47 | Relative Density 0,95 | Antioxidant Type SS | Main Characteristics & Applications Oil extended type of ESBR for general purpose like tire tread rubber, moulded and extruded goods. |
NIPOL® 1739 | Bound Styrene (%) 40 | Mooney Viscosity ML 1+4, 100°C [MU] 53 | Relative Density 0,98 | Antioxidant Type SS | Main Characteristics & Applications Oil extended type of ESBR for general purpose like tire tread rubber for high performance tire. |
NIPOL® 9548 | Bound Styrene (%) 35 | Mooney Viscosity ML 1+4, 100°C [MU] 68 | Relative Density 0,97 | Antioxidant Type SS | Main Characteristics & Applications Oil extended type of ESBR for general purpose like tire tread rubber for high performance tire. |
Yes, I am interested in ESBR | NIPOL®
HNBR | ZETPOL®
Zetpol® (HNBR) provides superior performance in tough environment applications. It shows exceptionally high resistance to oil, heat, steam, acids, and ozone and features a low brittleness temperature. Despite this, Zetpol is still more cost-effective than FKM. ZEON's HNBR is used for molded parts and hoses in oil fields as well as for hoses, gaskets, and seals used in the automotive industry and heavy vehicle operations. In addition, Zetpol offers excellent performance in V-rib and timing belt applications due to its long-term dynamic performance, strength, and ozone resistance. It truly is ZEON’s toughest, most durable elastomer.
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Grade | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Iodine value [g/100g] | Main Characteristics & Applications |
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ZETPOL® 0020 | Bound Acrylonitrile [wt %] 49 | Mooney Viscosity ML 1+4, 100°C [MU] 58 – 72 | Relative Density 1 | Iodine value [g/100g] 23 | Main Characteristics & Applications Highest ACN, low hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C sulfur or 135 °C peroxide continuous service. Can be blended with other Zetpol grades for improvements in strength or oil resistance. Ideal for O-Rings and static Seal & O-Ring needing maximum fuel and oil resistance. |
ZETPOL® 1000L | Bound Acrylonitrile [wt %] 44 | Mooney Viscosity ML 1+4, 100°C [MU] 58 – 72 | Relative Density 0,98 | Iodine value [g/100g] max. 7 | Main Characteristics & Applications High ACN, fully hydrogenated, low viscosity grade that can only be peroxide cured. Offers best 150 °C continuous service with excellent oil resistance and high mechanical properties. Ideal for flex fuel, biodiesel, and oil field applications such as packers and stators. |
ZETPOL® 1010 | Bound Acrylonitrile [wt %] 44 | Mooney Viscosity ML 1+4, 100°C [MU] 78 – 92 | Relative Density 0,98 | Iodine value [g/100g] 10 | Main Characteristics & Applications High ACN, high hydrogenation grade that can only be peroxide cured. Offers 150 °C continuous service with excellent oil resistance and high mechanical properties. High viscosity and ACN provides high compound green strength. Ideal for flex fuel, biodiesel, and oil field applications such as packers, blow out preventers, and stators. |
ZETPOL® 1010EP | Bound Acrylonitrile [wt %] 44 | Mooney Viscosity ML 1+4, 100°C [MU] 23 – 37 | Relative Density 0,98 | Iodine value [g/100g] 10 | Main Characteristics & Applications Easy processing lowest viscosity version of 1010. Typically blended with other grades to achieve a desired compound viscosity. Ideal for injection moulding applications or to improve processability with high structure fillers. |
ZETPOL® 1020 | Bound Acrylonitrile [wt %] 44 | Mooney Viscosity ML 1+4, 100°C [MU] 71 – 85 | Relative Density 0,98 | Iodine value [g/100g] 24 | Main Characteristics & Applications High ACN, low hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C sulfur or 135 °C peroxide continuous service. Can be an economical option if the application has lower heat resistance requirements or where a sulfur cure is preferred. |
ZETPOL® 1020L | Bound Acrylonitrile [wt %] 44 | Mooney Viscosity ML 1+4, 100°C [MU] 48 – 68 | Relative Density 0,98 | Iodine value [g/100g] 24 | Main Characteristics & Applications High ACN, low hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C sulfur or 135 °C peroxide continuous service. Can be an economical option if the application has lower heat resistance requirements or where a sulfur cure is preferred. |
ZETPOL® 2001 | Bound Acrylonitrile [wt %] 40 | Mooney Viscosity ML 1+4, 100°C [MU] 85 – 105 | Relative Density 0,98 | Iodine value [g/100g] max. 7 | Main Characteristics & Applications Medium high acrylonitrile, fully hydrogenated grade with improved balance of oil and fuel resistance vs. low temperature properties. Peroxide cure only. Offers best 150 °C continuous service, offers good balance of low temperature, high oil resistance, and mechanical properties. Ideal for PIP intake Seal & O-Ring, timing belts, and oil field applications such as packers, stators, and blow out preventers. |
ZETPOL® 2001L | Bound Acrylonitrile [wt %] 40 | Mooney Viscosity ML 1+4, 100°C [MU] 63 – 77 | Relative Density 0,98 | Iodine value [g/100g] max. 8 | Main Characteristics & Applications Medium high acrylonitrile, fully hydrogenated grade with improved balance of oil and fuel resistance vs. low temperature properties. Peroxide cure only. Offers best 150 °C continuous service, offers good balance of low temperature, high oil resistance, and mechanical properties. Ideal for PIP intake Seal & O-Ring, timing belts, and oil field applications such as packers, stators, and blow out preventers. |
ZETPOL® 2001EP | Bound Acrylonitrile [wt %] 40 | Mooney Viscosity ML 1+4, 100°C [MU] 23 – 37 | Relative Density 0,98 | Iodine value [g/100g] max. 7 | Main Characteristics & Applications Medium high acrylonitrile, fully hydrogenated grade with improved balance of oil and fuel resistance vs. low temperature properties. Peroxide cure only. Offers best 150 °C continuous service, offers good balance of low temperature, high oil resistance, and mechanical properties. Ideal for PIP intake Seal & O-Ring, timing belts, and oil field applications such as packers, stators, and blow out preventers. Zetpol® 2001EP is easy-processing version with improved flow characteristics, which is typically blended with other grades to achieve a desired compound viscosity. |
ZETPOL® 2000 | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 78 – 92 | Relative Density 0,95 | Iodine value [g/100g] max. 7 | Main Characteristics & Applications Medium ACN, fully hydrogenated grade that can only be peroxide cured. Offers best 150 °C continuous service. Wide use in automotive and industrial Seal & O-Ring where glycol, water, and oil are present. Also ideal for oil and gas applications where H2S resistance is a concern. |
ZETPOL® 2000L | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 58 – 72 | Relative Density 0,95 | Iodine value [g/100g] max. 7 | Main Characteristics & Applications Medium ACN, fully hydrogenated grade that can only be peroxide cured. Offers best 150 °C continuous service. Wide use in automotive and industrial Seal & O-Ring where glycol, water, and oil are present. Also ideal for oil and gas applications where H2S resistance is a concern. |
ZETPOL® 2000EP | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 23 – 37 | Relative Density 0,95 | Iodine value [g/100g] max. 7 | Main Characteristics & Applications Medium ACN, fully hydrogenated grade that can only be peroxide cured. Offers best 150 °C continuous service. Wide use in automotive and industrial Seal & O-Ring where glycol, water, and oil are present. Also ideal for oil and gas applications where H2S resistance is a concern. Zetpol® 2000EP is the easy processing, lowest viscosity version. Typically blended with other grades to achieve a desired compound viscosity. Ideal for injection moulding applications or to improve processability with high structure fillers. |
ZETPOL® 2010H | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] min. 120 | Relative Density 0,95 | Iodine value [g/100g] 11 | Main Characteristics & Applications Highest viscosity version of Zetpol® 2010. Typically blended with other grades to improve compound green strength, mechanical properties, and extrusion resistance. Ideal for high load belts, Hydraulic hose, and high pressure Seal & O-Ring such as those found in oilfield applications. |
ZETPOL® 2010 | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 78 – 92 | Relative Density 0,95 | Iodine value [g/100g] 11 | Main Characteristics & Applications Medium ACN, high hydrogenation grade that can only be peroxide cured. Offers 150 °C continuous service. High viscosity offers compound green strength and high mechanical properties. Most predominant grade due to its balance of cost, service temperature, and fluid resistance covering a wide range of applications. Excellent heat, oil and chemical resistance for O-rings, Seal & O-Ring, gaskets and hoses for automotive and energy industries. |
ZETPOL® 2010L | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 50 – 65 | Relative Density 0,95 | Iodine value [g/100g] 11 | Main Characteristics & Applications Medium ACN, high hydrogenation grade that can only be peroxide cured. Offers 150 °C continuous service. High viscosity offers compound green strength and high mechanical properties. Most predominant grade due to its balance of cost, service temperature, and fluid resistance covering a wide range of applications. Excellent heat, oil and chemical resistance for O-rings, Seal & O-Ring, gaskets and hoses for automotive and energy industries. |
ZETPOL® 2010EP | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 23 – 37 | Relative Density 0,95 | Iodine value [g/100g] 11 | Main Characteristics & Applications Medium ACN, high hydrogenation grade that can only be peroxide cured. Offers 150 °C continuous service. High viscosity offers compound green strength and high mechanical properties. Most predominant grade due to its balance of cost, service temperature, and fluid resistance covering a wide range of applications. Excellent heat, oil and chemical resistance for O-rings, Seal & O-Ring, gaskets and hoses for automotive and energy industries. Zetpol® 2010EP is the easy processing, lowest viscosity version. Typically blended with other grades to achieve a desired compound viscosity. Ideal for injection moulding applications or to improve processability with high structure fillers. |
ZETPOL® 2011 | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 75 – 85 | Relative Density 0,95 | Iodine value [g/100g] 18 | Main Characteristics & Applications Medium ACN, medium hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C Sulfur or 140 °C peroxide continuous service. Highest level of hydrogenation that can still be efficiently sulfur cured. Ideal for sulfur applications requiring best possible heat resistance or peroxide applications needing a faster, more efficient cure. Good balance of chemical resistance, cold flexibility and dynamic properties. Used for timing and poly-V-belts. |
ZETPOL® 2020 | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 71 – 85 | Relative Density 0,95 | Iodine value [g/100g] 28 | Main Characteristics & Applications Medium ACN, low hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C sulfur or 135 °C peroxide continuous service. Can be an economical option if application has lower heat resistance requirements. Ideal for sulfur cured timing belts, roll covers and hydraulic hose. Offers excellent dynamic properties. |
ZETPOL® 2020L | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 50 – 65 | Relative Density 0,95 | Iodine value [g/100g] 28 | Main Characteristics & Applications Medium ACN, low hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C sulfur or 135 °C peroxide continuous service. Can be an economical option if application has lower heat resistance requirements. Ideal for sulfur cured timing belts, roll covers and hydraulic hose. Offers excellent dynamic properties. |
ZETPOL® 2020EP | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 23 – 37 | Relative Density 0,95 | Iodine value [g/100g] 28 | Main Characteristics & Applications Medium ACN, low hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C sulfur or 135 °C peroxide continuous service. Can be an economical option if application has lower heat resistance requirements. Ideal for sulfur cured timing belts, roll covers and hydraulic hose. Offers excellent dynamic properties. Zetpol® 2020EP is easy-processing version with improved flow characteristics which is typically blended with other grades to achieve a desired compound viscosity. Ideal for injection moulding applications or to improve processability with high structure fillers. |
ZETPOL® 2030L | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 50 – 65 | Relative Density 0,95 | Iodine value [g/100g] 56 | Main Characteristics & Applications Medium ACN, lowest hydrogenation grade that can be sulfur or peroxide cured. Offers 125 °C continuous service. Can be an economical option if the application has lower heat resistance requirements. Ideal for sulfur cured timing belts or other applications in extension or flex where a sulfur cure is preferred. Offers superior dynamics for rollers and belts. |
ZETPOL® 3300 | Bound Acrylonitrile [wt %] 24 | Mooney Viscosity ML 1+4, 100°C [MU] 60 – 100 | Relative Density 0,97 | Iodine value [g/100g] max. 10 | Main Characteristics & Applications Low ACN, fully hydrogenated terpolymer grade that can only be peroxide cured. Offers best 150 °C continuous service and improved low temperature over copolymer grades. Ideal for Seal & O-Ring, O-rings, and timing belts requiring both low and high temperature performance. |
ZETPOL® 3310 | Bound Acrylonitrile [wt %] 24 | Mooney Viscosity ML 1+4, 100°C [MU] 60 – 100 | Relative Density 0,97 | Iodine value [g/100g] 15 | Main Characteristics & Applications Low ACN, high hydrogenation terpolymer grade that can only be peroxide cured. Offers 150 °C continuous service. Balance of low temperature performance, heat resistance, and cost. Ideal for Seal & O-Ring, O-rings, and timing belts requiring both low and high temperature performance. |
ZETPOL® 4300 | Bound Acrylonitrile [wt %] 19 | Mooney Viscosity ML 1+4, 100°C [MU] 55 – 95 | Relative Density 0,98 | Iodine value [g/100g] max. 10 | Main Characteristics & Applications Lowest ACN, fully hydrogenated terpolymer grade that can only be peroxide cured. Offers best 150 °C continuous service with the best low-temperature performance. Ideal for Seal & O-Ring, O-rings, timing belts, and CVJ Boots requiring both low and high temperature. |
ZETPOL® 4310 | Bound Acrylonitrile [wt %] 19 | Mooney Viscosity ML 1+4, 100°C [MU] 52 – 72 | Relative Density 0,98 | Iodine value [g/100g] 15 | Main Characteristics & Applications Lowest ACN, high hydrogenation terpolymer grade that can only be peroxide cured. Offers 150 °C continuous service. Best low temperature performance with a balance of heat resistance and cost. Ideal for Seal & O-Ring, O-rings, timing belts, and CVJ boots requiring both low and high temperature performance. |
ZETPOL® 4310EP | Bound Acrylonitrile [wt %] 19 | Mooney Viscosity ML 1+4, 100°C [MU] 23 – 37 | Relative Density 0,98 | Iodine value [g/100g] 15 | Main Characteristics & Applications Easy processing, low viscosity version of Zetpol® 4310. Typically blended with other grades to achieve a desired compound viscosity ideal for injection moulding applications or to improve processability with high structure fillers. |
Grade | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Iodine value [g/100g] | Main Characteristics & Applications | |
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Zeoforte® ZSC 2095CX | Bound Acrylonitrile [wt %] 36¹ | Mooney Viscosity ML 1+4, 100°C [MU] 83 - 103 | Relative Density 1,24 | Iodine value [g/100g] 7¹ | Main Characteristics & Applications Zetpol® ZDMA composite with outstanding mechanical properties at high hardness. Typically blended with standard Zetpol® grades for applications requiring high hardness and mechanical properties while maintaining processability. Ideal for belt in oil, rolls and other applications. CX grades designed for maximum dynamic performance. | ¹Measured on base polymer |
Zeoforte® ZSC 2195LCX | Bound Acrylonitrile [wt %] 36¹ | Mooney Viscosity ML 1+4, 100°C [MU] 55 – 90 | Relative Density 1,24 | Iodine value [g/100g] 11¹ | Main Characteristics & Applications Zetpol® ZDMA composite with outstanding mechanical properties at high hardness. Typically blended with standard Zetpol® grades for applications requiring high hardness and mechanical properties while maintaining processability. Ideal for belt in oil, rolls and other applications. CX grades designed for maximum dynamic performance. | ¹Measured on base polymer |
Zeoforte® ZSC 2295CX | Bound Acrylonitrile [wt %] 36¹ | Mooney Viscosity ML 1+4, 100°C [MU] 75 – 110 | Relative Density 1,24 | Iodine value [g/100g] 28¹ | Main Characteristics & Applications Zetpol® ZDMA composite with outstanding mechanical properties at high hardness. Typically blended with standard Zetpol® grades for applications requiring high hardness and mechanical properties while maintaining processability. Ideal for belt in oil, rolls and other applications. CX grades designed for maximum dynamic performance. | ¹Measured on base polymer |
Zeoforte® ZSC 4195CX | Bound Acrylonitrile [wt %] 19¹ | Mooney Viscosity ML 1+4, 100°C [MU] 60 - 90 | Relative Density 1,24 | Iodine value [g/100g] 15¹ | Main Characteristics & Applications Zetpol® ZDMA composite with outstanding mechanical properties at high hardness. Typically blended with standard Zetpol® grades for applications requiring high hardness and mechanical properties while maintaining processability. Ideal for belt in oil, rolls and applications. CX grades designed for maximum dynamic performance. | ¹Measured on base polymer |
Zeoforte® ZSC 2195H | Bound Acrylonitrile [wt %] 36¹ | Mooney Viscosity ML 1+4, 100°C [MU] 70 – 90² | Relative Density 1,24 | Iodine value [g/100g] 11¹ | Main Characteristics & Applications Zetpol® composite, new grades with high dimensional stability, low heat-build-up, excellent tear resistance, abrasion resistance, good elongation at high hardness, excellent dynamic properties. Used for timing belts, poly-V-belts, printing rollers as well as hydraulic hose applications, and oil & gas blow out preventers. | ¹Measured on base polymer ² Temporary specification; MS 1+4, 100 °C |
Zeoforte® ZSC 2295L | Bound Acrylonitrile [wt %] 36¹ | Mooney Viscosity ML 1+4, 100°C [MU] 72 – 89 | Relative Density 1,24 | Iodine value [g/100g] 28¹ | Main Characteristics & Applications Zetpol® composite, new grades with high dimensional stability, low heat-build-up, excellent tear resistance, abrasion resistance, good elongation at high hardness, excellent dynamic properties. Used for timing belts, poly-V-belts, printing rollers as well as hydraulic hose applications, and oil & gas blow out preventers. | ¹Measured on base polymer |
Yes, I am interested in HNBR | ZETPOL®
IR | NIPOL®
Nipol® IR is a Polyisoprene rubber with high cis-1,4 content using Ziegler-Natta catalyst. Nipol® IR is known for its molecular structure and properties that are nearly identical to natural rubber. Nipol® IR features extremely stable quality and is widely used in diverse industrial products, such as tires and belts, as a synthetic rubber alternative replacing natural rubber.
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Grade | Mooney Viscosity ML 1+4, 100°C [MU] | Main Characteristics & Applications |
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NIPOL® IR2200 | Mooney Viscosity ML 1+4, 100°C [MU] 82 | Main Characteristics & Applications General purpose of synthetic cis-1,4-polyisoprene for tire, adhesives, anti-vibration parts and medical applications. |
NIPOL® IR2200 L | Mooney Viscosity ML 1+4, 100°C [MU] 70 | Main Characteristics & Applications Low mooney viscosity type of Nipol IR2200 |
Yes, I am interested in IR | NIPOL®
NBR | NIPOL®
Nipol® NBR elastomers are made by emulsion polymerisation of 1,3-butadiene and acrylonitrile. The acrylonitrile content determines the fluid resistance, abrasion resistance, permeation resistance and thermal stability. Higher acrylonitrile content provides improved solvent, oil and abrasion resistance, along with higher Tg. A low acrylonitrile content improves compression set, low-temperature flexibility, and resilience.
The other factor to consider when selecting the approriate Nipol® grade is Mooney viscosity, a measure of approximate molecular weight of the polymer. A low Mooney viscosity can improve the processability of the compound. As Mooney viscosity increases, the ultimate physical properties and compression set are improved.
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Grade | Polymerisation | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications |
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NIPOL® DN4555 | Polymerisation cold | Bound Acrylonitrile [wt %] 45 | Mooney Viscosity ML 1+4, 100°C [MU] 48 – 63 | Relative Density 1 | Antioxidant Type NS | Main Characteristics & Applications High acrylonitrile content for balance of low temperature, fuel resistance and fuel permeability. |
NIPOL® 1001LG | Polymerisation hot | Bound Acrylonitrile [wt %] 40,5 | Mooney Viscosity ML 1+4, 100°C [MU] 70 - 90 | Relative Density 1 | Antioxidant Type NS | Main Characteristics & Applications Excellent oil and fuel resistance. Similar to Nipol® 1001CG, but can be dissolved in solvents without milling. Contains no fatty acids or soaps. |
NIPOL® 1031 | Polymerisation cold | Bound Acrylonitrile [wt %] 40,5 | Mooney Viscosity ML 1+4, 100°C [MU] 55 – 70 | Relative Density 1 | Antioxidant Type NS | Main Characteristics & Applications Excellent fuel and water resistance. Very low corrosion to metals. |
NIPOL® DN3650 | Polymerisation cold | Bound Acrylonitrile [wt %] 36 | Mooney Viscosity ML 1+4, 100°C [MU] 45 – 55 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications Low mould fouling, fast curing, and easy processing. Good balance of low temperature flex and solvent resistance. |
NIPOL® N917 | Polymerisation cold | Bound Acrylonitrile [wt %] 22 | Mooney Viscosity ML 1+4, 100°C [MU] 55 – 70 | Relative Density 0,95 | Antioxidant Type SS | Main Characteristics & Applications Medium-high viscosity for compression/transfer moulding. Special grade for moulded , hose, and belts requiring oil resistance and operating service of -50 °C to 125 °C. High resilience and low water swell. |
Grade | Polymerisation | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications |
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NIPOL® DN003 | Polymerisation cold | Bound Acrylonitrile [wt %] 50 | Mooney Viscosity ML 1+4, 100°C [MU] 72,5 – 82,5 | Relative Density 1,02 | Antioxidant Type SS | Main Characteristics & Applications Very high acrylonitrile level for excellent resistance to oils and fuels. Low fuel permeability. |
NIPOL® 1041 | Polymerisation cold | Bound Acrylonitrile [wt %] 40,5 | Mooney Viscosity ML 1+4, 100°C [MU] 78 – 88 | Relative Density 1 | Antioxidant Type SS | Main Characteristics & Applications Standard high acrylonitrile NBR. |
NIPOL® 1041L | Polymerisation cold | Bound Acrylonitrile [wt %] 40,5 | Mooney Viscosity ML 1+4, 100°C [MU] 57,5 – 67,5 | Relative Density 1 | Antioxidant Type SS | Main Characteristics & Applications Low viscosity version of Nipol® 1041 providing good processability. |
NIPOL® 1042 | Polymerisation cold | Bound Acrylonitrile [wt %] 33,5 | Mooney Viscosity ML 1+4, 100°C [MU] 73 – 83 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications Standard medium-high acrylonitrile NBR. |
NIPOL® 1052J | Polymerisation cold | Bound Acrylonitrile [wt %] 33,5 | Mooney Viscosity ML 1+4, 100°C [MU] 41 – 51 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications Improved processing version of Nipol® 1042. |
NIPOL® DN219 | Polymerisation cold | Bound Acrylonitrile [wt %] 33,5 | Mooney Viscosity ML 1+4, 100°C [MU] 22 – 32 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications Lowest Mooney viscosity version among Nipol® NBRs. |
NIPOL® DN3380 | Polymerisation cold | Bound Acrylonitrile [wt %] 33 | Mooney Viscosity ML 1+4, 100°C [MU] 75 – 85 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications High cure rate, high modulus, low mould fouling, good balance of oil resistance and low temperature properties. |
NIPOL® DN3350 | Polymerisation cold | Bound Acrylonitrile [wt %] 33 | Mooney Viscosity ML 1+4, 100°C [MU] 45 – 55 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications High cure rate, high modulus, low mould fouling, good balance of oil resistance and low temperature properties. |
NIPOL® DN3335 | Polymerisation cold | Bound Acrylonitrile [wt %] 33 | Mooney Viscosity ML 1+4, 100°C [MU] 30 – 40 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications High cure rate, high modulus, low mould fouling, good balance of oil resistance and low temperature properties. |
NIPOL® DN2880 | Polymerisation cold | Bound Acrylonitrile [wt %] 28 | Mooney Viscosity ML 1+4, 100°C [MU] 75 – 85 | Relative Density 0,97 | Antioxidant Type NS | Main Characteristics & Applications High cure rate, high modulus, low mould fouling, good balance of oil resistance and low temperature properties. |
NIPOL® DN2850 | Polymerisation cold | Bound Acrylonitrile [wt %] 28 | Mooney Viscosity ML 1+4, 100°C [MU] 45 - 55 | Relative Density 0,97 | Antioxidant Type NS | Main Characteristics & Applications High cure rate, high modulus, low mould fouling, good balance of oil resistance and low temperature properties. |
NIPOL® DN302 | Polymerisation cold | Bound Acrylonitrile [wt %] 27,5 | Mooney Viscosity ML 1+4, 100°C [MU] 58 – 68 | Relative Density 0,97 | Antioxidant Type SS | Main Characteristics & Applications Well balanced oil and low temperature resistance with good resilience. |
NIPOL® DN401 | Polymerisation cold | Bound Acrylonitrile [wt %] 18 | Mooney Viscosity ML 1+4, 100°C [MU] 73 – 83 | Relative Density 0,94 | Antioxidant Type NS | Main Characteristics & Applications Well balanced oil and low temperature resistance providing excellent metal corrosion resistance and low mould fouling. |
NIPOL® DN401L | Polymerisation cold | Bound Acrylonitrile [wt %] 18 | Mooney Viscosity ML 1+4, 100°C [MU] 57 -75 | Relative Density 0,94 | Antioxidant Type NS | Main Characteristics & Applications Well balanced oil and low temperature resistance providing excellent metal corrosion resistance and low mould fouling. |
NIPOL® DN401LL | Polymerisation cold | Bound Acrylonitrile [wt %] 18 | Mooney Viscosity ML 1+4, 100°C [MU] 24 -39 | Relative Density 0,94 | Antioxidant Type NS | Main Characteristics & Applications Well balanced oil and low temperature resistance providing excellent metal corrosion resistance and low mould fouling. |
Grade | Polymerisation | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications |
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NIPOL® DN1201 | Polymerisation cold | Bound Acrylonitrile [wt %] 35 | Mooney Viscosity ML 1+4, 100°C [MU] 73 – 83 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications NBIR terpolymers exhibit better physical properties and processability than conventional NBR. Suitable for printing rollers, industrial rollers, diaphragms. |
NIPOL® DN1201L | Polymerisation cold | Bound Acrylonitrile [wt %] 35 | Mooney Viscosity ML 1+4, 100°C [MU] 40 – 52 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications NBIR terpolymers exhibit better physical properties and processability than conventional NBR. Suitable for printing rollers, industrial rollers, diaphragms. |
Grade | Polymerisation | Bound Acrylonitrile [wt %] | Carboxyl Content [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications | |
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NIPOL® 1072CGA | Polymerisation cold | Bound Acrylonitrile [wt %] 27 | Carboxyl Content [wt %] 6,5 | Mooney Viscosity ML 1+4, 100°C [MU] 24 - 33 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications Medium oil resistance XNBR modified to contain free carboxylic groups. Soluble in solvents without mill breakdown. The carboxyl content is 0,075 ephr | Further carboxylated nitrile rubber under "CRUMB AND POWDER NBR". |
NIPOL®NX 775 | Polymerisation cold | Bound Acrylonitrile [wt %] 26 | Carboxyl Content [wt %] 7 | Mooney Viscosity ML 1+4, 100°C [MU] 38 – 52 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications 7% carboxylated for maximum abrasion resistance. Excellent processing with conventional coated zinc oxides. Can be injection moulded. Used for rollers, calendered belts, and extruded hose. Fast cure rate. | Further carboxylated nitrile rubber under "CRUMB AND POWDER NBR". |
Grade | Type | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications | |
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NIPOL® DN214 | Type pre- crosslinked | Bound Acrylonitrile [wt %] 33,5 | Mooney Viscosity ML 1+4, 100°C [MU] 70 – 85 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications Pre-crosslinked grade giving excellent dimensional stability. Used as process aid in extrusion and calendering either. | Further pre-crosslinked nitrile rubber under "CRUMB AND POWDER NBR" and "CARBOXYLATED NITRILE RUBBER". |
NIPOL® DN223 | Type bimodal | Bound Acrylonitrile [wt %] 31,5 | Mooney Viscosity ML 1+4, 100°C [MU] 30 – 40 | Relative Density 0,98 | Antioxidant Type NS | Main Characteristics & Applications Bimodal polymer designed to give good green strength in soft compounds. Low molecular weight portion acts as polymeric plasticiser. Typical applications in low hardness roller compounds for business machines. | Further pre-crosslinked nitrile rubber under "CRUMB AND POWDER NBR" and "CARBOXYLATED NITRILE RUBBER". |
Grade | Polymerisation | Bound Acrylonitrile [wt %] | Brookfield Viscosity [mPa.s] | Relative Density | Antioxidant Type | Main Characteristics & Applications | |
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NIPOL® 1312 | Polymerisation hot | Bound Acrylonitrile [wt %] 28,5 | Brookfield Viscosity [mPa.s] 20000 – 30000¹ | Relative Density 0,96 | Antioxidant Type NS | Main Characteristics & Applications Non-extractable plasticiser used for nitrile, chloroprene, and PVC compounds. Improves knitting and flow. May also be used in plastisols and phenolic resins. | ¹Spindle No. 4, 12 rpm, 50 °C |
NIPOL® 1312LV | Polymerisation hot | Bound Acrylonitrile [wt %] 26,5 | Brookfield Viscosity [mPa.s] 9000 – 16000¹ | Relative Density 0,96 | Antioxidant Type NS | Main Characteristics & Applications Non-extractable plasticiser used for nitrile, chloroprene, and PVC compounds. Improves knitting and flow. May also be used in plastisols and phenolic resins. | ¹Spindle No. 4, 12 rpm, 50 °C |
Grade | Polymerisation | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Particle Size [mm] | Antioxidant Type | Main Characteristics & Applications | |
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NIPOL® 1401LGF | Polymerisation hot | Bound Acrylonitrile [wt %] 41 | Mooney Viscosity ML 1+4, 100°C [MU] 70 - 90 | Relative Density 0,98 | Particle Size [mm] 6,5 | Antioxidant Type NS | Main Characteristics & Applications Crumb NBR (⏀ 6.5 mm chips) with high ACN content. Dusted with 2% silica partitioning agent. Unmilled Cement viscosity = 1.000 10.000 cps. | |
NIPOL® 1411 | Polymerisation hot | Bound Acrylonitrile [wt %] 38,5 | Mooney Viscosity ML 1+4, 100°C [MU] – | Relative Density 1 | Particle Size [mm] 0,1 | Antioxidant Type SS | Main Characteristics & Applications Very fine powder rubber ideal for phenolic resin modification. Widely used in Transportation. Pre-crosslinked, dusted with 5% talc partitioning agent. | |
NIPOL® 1472X | Polymerisation cold | Bound Acrylonitrile [wt %] 27¹ | Mooney Viscosity ML 1+4, 100°C [MU] 22 – 35¹ | Relative Density 0,98 | Particle Size [mm] 9,5 | Antioxidant Type NS | Main Characteristics & Applications Based on Nipol® 1072CGX. Carboxylated nitrile crumb rubber. Dusted with 5% talc partitioning agent. Used in epoxy modification, for adhesives and composites. | ¹Measured on base polymer, further crumb and powder nitrile rubber on request. |
Grade | Ratio NBR/PVC | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Antioxidant Type | Main Characteristics & Applications | |
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NIPOL® 1203WN | Ratio NBR/PVC 70/30 | Bound Acrylonitrile [wt %] 33 | Mooney Viscosity ML 1+4, 100°C [MU] 55 – 70 (ML 1+4) | Relative Density 1,07 | Antioxidant Type NS | Main Characteristics & Applications A fully fluxed polyblend of medium high acrylonitrile NBR/PVC with good ozone resistance. Used in rollers, hose covers, shoe soles and cable jackets. | ¹Measured on base polymer |
NIPOL® VM0030A | Ratio NBR/PVC 70/30 | Bound Acrylonitrile [wt %] 30,5 | Mooney Viscosity ML 1+4, 100°C [MU] ≈ 100 (MS 1+4) | Relative Density ≈ 1,1 | Antioxidant Type NS | Main Characteristics & Applications A fully fluxed polyblend of medium high acrylonitrile NBR/PVC. |
Grade | Relative Density | Particle Size [mm] | Tg (°C) | Main Characteristics & Applications |
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DuoMod® DP 5045 | Relative Density 1,2 | Particle Size [mm] 0,05 | Tg (°C) – 5 | Main Characteristics & Applications Pre-crosslinked, carboxy-functionalised rubber in powder form designed for toughening epoxy resins. |
Grade | Polymerisation | Bound Acrylonitrile [wt %] | Mooney Viscosity ML 1+4, 100°C [MU] | Relative Density | Particle Size [mm] | Antioxidant Type | Main Characteristics & Applications |
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Zealloy® 1422A | Polymerisation hot | Bound Acrylonitrile [wt %] 33 | Mooney Viscosity ML 1+4, 100°C [MU] – | Relative Density 0,98 | Particle Size [mm] 0,1 | Antioxidant Type NS | Main Characteristics & Applications Used as a non-extractable plasticiser for PVC compounds. Pre-crosslinked. Very fine powder, dusted with 6% partitioning agent. |
Yes, I am interested in NBR | NIPOL®
SSBR | NIPOL®
The ideal balance between rolling resistance, grip, durability, and good processability: this is the major goal we always strive to achieve for our tire manufacturing customers. We provide a wide range of Solution-SBR grades, displaying different micro- and macrostructures, and continuously improve our products through extensive research and development. Our SSBR technology is a synergy of long-experienced know-how of polymer chemistry and functionalization technology between ZEON Corporation and Sumitomo Chemicals. Together with our customers in a development partnership, we are always working on the development of the next generation of SSBR.
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Grade | Bound Styrene (%) | Mooney Viscosity ML 1+4, 100°C [MU] | Main Characteristics & Applications |
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NIPOL® NS 612 | Bound Styrene (%) 15 | Mooney Viscosity ML 1+4, 100°C [MU] 62 | Main Characteristics & Applications Best performance for silica technology. Low styrene type for all-season tires. |
NIPOL® NS 616 | Bound Styrene (%) 21 | Mooney Viscosity ML 1+4, 100°C [MU] 62 | Main Characteristics & Applications Best performance for silica technology. Well-balanced between rolling resistance, wet skid and resilience. |
Grade | Bound Styrene (%) | Mooney Viscosity ML 1+4, 100°C [MU] | Main Characteristics & Applications |
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NIPOL® NS 540 | Bound Styrene (%) 42 | Mooney Viscosity ML 1+4, 100°C [MU] 75 | Main Characteristics & Applications Excellent balance between high wet grip and low fuel consumption performance. |