PERFORMANCE ENERGIZED BY Specialty Elastomers from LANXESS www.hpe.lanxess.com HIGH PERFORMANCE ELASTOMERS PRODUCT PORTFOLIO PRECISELY THE ELASTOMER GRADES FOR TAILORED SOLUTIONS CONTENT LANXESS is a globally operating supplier of specialty elastomers for the 03 EVM EFFICIENCY rubber-processing industry with a broad product range,tailored to meet the requirements of a wide variety of applications: in automotive engineering, electronics, construction, mechanical engineering, industrial plants, oil exploration, aviation, domestic goods and many other industries. Resistance to abrasion, heat and aggressive environmental influences These grades impress with a very good cost/benefit ratio. Levapren® is recommended for technical moldings and extrudates. Levamelt® is ideal suitable for processing on extruders. Baymod®L – used as high impact modifiers or plasticizers e.g. for PVC. are just a few of the excellent properties which make our products so attractive to our international customers. This brochure gives information on our portfolio of high performance elastomers. The rubber grades belonging to one category are listed in the same table. The tables provide data on the chemical composition, 06 HNBR EXCELLENCE The high-performance Therban® vulcanizates have a number of excellent properties. supply form, standard packaging, the most important characteristic data, the basic properties and the main fields of application for each product. 08 CR ROBUSTNESS For further information please do not hesitate to contact our local experts. For information on food contact applications, please contact the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Germany or, for business in the USA, the LANXESS Product Safety and Because of its excellent set of properties Baypren® is used for the production of high stressed rubber articles in many sectors. 10 NBR CHOICE Regulatory Affairs Department in Pittsburgh, PA. Three brands, raising standards in NBR-applications: Krynac® is ideal for For additional information please visit: www.lanxess.com technical rubber products that are exposed to mineral oil based fluids and gases. Perbunan® is preferably used for molded rubber parts. Baymod®N Please note: modifiers have excellent chemical, oil and hydrolysis resistance. The information contained in this publication is current as of 2013-12. Please contact LANXESS Deutschland GmbH or LANXESS Corporation to determine if this publication has been revised. 14 NOTES FOR PRACTISE ETHYLENE-VINYL ACETATE RUBBER (EVM) Properties Applications Provided that the compounds are formulated and processed correctly, Technical moldings and extrudates, seals, cable sheathing and insulation, the vulcanizates have very good resistance to weathering, ozone and light, cellular rubber goods, footwear soles, waterproofing sheets, strips etc. very good hot air resistance, very low compression set at high temperatures Specific compounds meet EN 13501-1 for flooring, cables and profiles and good physical properties. (FRNC). Food contact Information concerning compliance with FDA and BfR regulations can be obtained on request from the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Deutschland GmbH. Vinyl acetate Mooney content (%) viscosity Levapren® 400 (1) Specific Supply gravity form ML (1+4) 100°C 40 20 ±4 approx. 0.98 Levapren® 450 45 20 ±4 approx. 0.99 Levapren® 500 Packaging 25 kg bags* (2) on pallet, 1000 kg net or Big Bag, 700 kg net 25 kg bags* (2) on pallet, 1000 kg net or Big Bag, 600 kg net 50 27 ±4 approx. 1.00 60 27 ±4 approx. 1.04 65 27 ±4 approx. 1.05 25 kg bags* (2) Levapren® 700 70 27 ±4 approx. 1.07 in cardboard boxes on Levapren® 800 80 28 ±6 approx. 1.11 pallet, 1000 kg net Levapren 900 90 38 ±6 approx. 1.15 Levapren® 500 XL VP* (3) 50 55 ±10 approx. 1.00 Levapren 600 XL VP* 60 55 ±10 approx. 1.04 Levapren® 700 XL VP* (3) 70 60 ±10 approx. 1.07 Levapren® 800 XL VP* (3) 80 55 ±10 Levapren 600 ® Levapren 650 VP* ® (3) ® 25 kg bags* (2) on pallet, 1000 kg net granules Trial products, precrosslinked ® * (1) * (2) * (3) (3) ISO 289/ASTM D 1646 film based on EVA-Copolymer resin, melting point 93°C, film thickness 0,13 mm Trial product (VP = Versuchsprodukt), please see page 15 25 kg polyethylene bags in cardboard boxes on granules pallet, 750 kg net approx. 1.11 EVM continued on next page 3 ETHYLENE-VINYL ACETATE RUBBER (EVM) Properties Applications Because of its free-flowing granular form, Levamelt® is suitable for process- Multilayer systems (laminated sheets) and thin sheet extrusions for surface ing on standard single or twin-screw extruders. The range includes hot melt adhesion can be tailor-made for specific applications. These can be used in and pressure sensitive adhesive (PSA) grades that are suitable for the protective films, food packaging, bookbinding, labels, adhesive tapes etc. production of cast and blown films. Food contact Information concerning compliance with FDA and BfR regulations can be obtained on request from the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Deutschland GmbH. VA content Melt flow index*(1) Specific Supply (weight in %) (g/10 min.) gravity form Packaging (190°C/2.16kg) Levamelt ® 400 40 3 ± 2 approx. 0.98 25 kg bags *(2) Levamelt ® 450 45 3 ± 2 approx. 0.99 on pallet, 1000 kg net Levamelt ® 452 45 10 ± 5 approx. 0.99 Levamelt 456 45 25 ± 10 approx. 0.99 Levamelt 500 50 2,75 ± 1,25 approx. 1.00 25 kg bags *(2) Levamelt ® 600 60 2,75 ± 1,25 approx. 1.04 Levamelt ® 650 VP* (3) 65 4 ± 2 approx. 1.05 boxes on pallet, Levamelt ® 686 68 25 ± 10 approx. 1.06 1000 kg net Levamelt 700 70 4 ± 2 approx. 1.07 Levamelt 800 80 4 ± 2 approx. 1.11 Levamelt ® 900 90 4 ± 3 approx. 1.15 ® ® ® ® * (1) MFI and MFR (Melt flow rate) are similar. * (2) film based on EVA-Copolymer resin, melting point 93°C, film thickness 0,13 mm * (3) Trial product (VP=Versuchsprodukt), please see page 15. 4 granules in cardboard ETHYLENE-VINYL ACETATE RUBBER (EVM) Properties Applications The Baymod®L grade consists of high molecular ethylene-vinyl acetate In addition to typical rubber applications, suitable for production of graft copolymers (EVM) which are used as high impact modifiers or plasticizers for polymers, modifiers for rigid PVC and as plasticizing polymers in semi-rigid PVC and other polymers. to flexible PVC compounds. The impact strength achievable using Baymod®L depends on the vinyl acetate content and the molecular weight. Baymod®L grades containing Food contact about 45 % VA give the highest notched impact strength. Information concerning compliance with FDA and BfR regulations can be obtained on request from the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Deutschland GmbH. Modifier Vinyl content Melt flow index *(1) Specific Supply (weight in %) (g/10 min.) gravity form (190°C/2.16 kg) Baymod® L 2450 * (2) 45 3 ± 2 approx. 0.99 free-flowing Baymod L 2450 P3 45 3 ± 2 approx. 0.99 powder 65 4 ± 2 approx. 1.05 ® Baymod L 6515 * ® (3) Packaging 25 kg polyethylene bags in cardboard boxes on pallet, 1000 kg net * (1) MFI and MFR (Melt flow rate) are similar. * (2) determined on base polymer * (3) determined on base polymer 5 HYDROGENATED ACRYLONITRILE-BUTADIENE RUBBER (HNBR) Properties Applications Provided that the compounds are formulated and processed correctly, the Heavily stressed rubber goods used in oil exploration and production, e.g. vulcanizates have outstanding mechanical properties, very good resistance to seal components, hose, stators, and rubber goods for drill pipes. Also suita- abrasion, very good compression set behavior, excellent resistance to weathe- ble for high quality gaskets, membranes, V-belts and timing belts for motor ring, ozone and hot air and very good resistance to technical oils, even in the vehicles, cable sheathing, hydraulic hose and special couplings. presence of hydrogen sulfide and amines. Food contact Information concerning compliance with FDA and BfR regulations can be obtained on request from the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Deutschland GmbH. Fully and partially saturated grades ACN cont. (%) Mooney viscosity(1) ML (1+4) 100 °C Residual double bond content (%) Density (g/cm3) Standard packaging Remarks Fully saturated (suitable for peroxide crosslinking) 34.0 63 max. 0.9 0.95 similar to Therban® 3407, but with improved flow behavior(2) Therban® 3407 34.0 70 max. 0.9 0.95 for lifetime belts, O-rings, gaskets and seals requiring maximum heat resistance and dynamic performance combined with an optimal compromise of low-temperature properties and oil resistance Therban® 3607 36.0 66 max. 0.9 0.95 Therban® 3907 39.0 70 max. 0.9 0.96 Therban® 4307 43.0 63 max. 0.9 0.98 Therban® 4309 43.0 100 max. 0.9 0.98 Bulk-Box with 20 bales of 25 kg each wrapped in polyethylene film or 25 kg bales individually packed in boxes Therban® 3406 lower swelling compared to Therban® 3407 further improved oil swelling resistance compared to Therban® 3607, excellent for fuel-resistant hoses, belts, seals, O-rings and gaskets very high temperature resistance combined with minimal swelling in oils and fuels; optimal sour gas resistance; ideal for severe application conditions in hoses, diaphragms, O-rings and seals for automotive and oil field applications similar to Therban® 4307 for special compounds with high filler and plasticizer loads Partially saturated grades (suitable for peroxide and sulfur crosslinking) 34.0 61 4.0 0.95 optimal combination of heat resistance, dynamic properties and processing Therban® 3467 34.0 68 5.5 0.95 recommended standard grade for sulfur cure; excellent dynamic properties Therban® 3496 (formerly Therban® KA 8837 VP*) 34.0 55 18.0 0.96 Therban® 3627 36.0 66 2.0 0.96 Therban® 3629 36.0 87 2.0 0.96 Therban® 3668 VP* 36.0 87 6.0 0.95 Therban® 4367 43.0 61 5.5 0.98 Therban® 4369 43.0 97 5.5 0.98 Unmassed (DIN 53523; ASTM D 1646) see Therban® AT for maximum flow * Trial product (VP=Versuchsprodukt), please see page 15. (1) (2) 6 Bulk-Box with 20 bales of 25 kg each wrapped in polyethylene film or 25 kg bales individually packed in boxes Therban® 3446 optimal compromise between low-temperature compression set and oil swell resistance; especially suited for rolls and dynamic oil field components special low RDB type, comparable to Therban® 3607 (peroxide cure recommended) to increase crosslink density for high modulus and/or low compression set applications special low RDB type, similar to Therban® 3627 for higher filler load capacity (peroxide cure recommended) high RDB, high Mooney grade similar to Therban® 3627 for higher filler and plasticizer load capacity excellent resistance to oils; should be used instead of Therban® 4307 in case improved dynamic and bonding properties are required similar to Therban® 4307 with capacity for higher filler loads Specialty grades ACN Mooney Residual Density Standard cont. viscosity(1) double (g/cm3) packaging (%) ML (1+4) bond 100 °C content (%) Remarks Low Temperature Technology – LT Therban® LT 2157 21.0 70 5.5 0.96 optimal low-temperature flexibility balanced with good oil resistance for use in low-temperature belts, seals, O-rings and gaskets Therban® LT 2007 21.0 74 max. 0.9 0.96 similar to Therban® LT 2157 with optimal combination of heat and low-temperature resistance, designed for extreme service conditions (peroxide curable) Therban® LT 2057 21.0 67 5.5 0.96 similar to Therban® LT 2157 with outstanding low mold fouling properties (sulfur and peroxide curable) Therban® LT 2568 25.0 77 5.5 0.96 similar to Therban® LT 2157 low mold fouling grade with improved oil resistance similar to Therban® 3406 with extra low Mooney viscosity for outstanding processing properties for use in O-rings, seals, spread compounds or as viscosity modifier for highviscosity compounds (peroxide curable) Low Mooney – Advanced Technology – AT 34.0 39 max. 0.9 0.95 Therban® AT 3443 VP* 34.0 39 4.0 0.95 Therban® AT 3904 VP* 39.0 39 max. 0.9 0.95 Therban® AT 4364 VP* 43.0 39 5.5 0.98 Therban® AT 5005 VP* 49.0 55 max. 0.9 1.00 optimized oil and fuel resistance; excellent heat resistance for high nitrile grades; improved process ability; optimized for biofuel applications Therban® AT LT 2004 VP* (Low Temperature/ Low Mold Fouling) 21.0 39 max. 0.9 0.96 similar to Therban® LT 2007 combined with processing advantages of new Advanced Technology (peroxide curable) 77 3.5 0.97 maximum wear resistance and adhesive properties; in combination with Therban® ART strong synergies observed; use for belts, rolls, oil field applications and as adhesive promoter for fabrics and cords (sulfur and peroxide curable) 5.5(2) 1.14 Bulk-Box with 20 bales of 25 kg each wrapped in polyethylene film or 25 kg bales individually packed in boxes Therban® AT 3404 (formerly Therban® KA 8966 VP*) similar to Therban® 3446 combined with processing advantages of new Advanced Technology (sulfur and peroxide curable) similar to Therban® 3907 combined with processing advantages of new Advanced Technology (peroxide curable) similar to Therban® 4367 combined with processing advantages of new Advanced Technology (sulfur and peroxide curable) Carboxylated Technology – XT Therban® XT KA 8889 VP* 33.0 Acrylate Reinforced Technology – ART Therban® ART KA 8796 VP* 34.0(2) 22(3) 20 kg boxes on pallets contents: 800 kg enhanced stiffness, abrasion and load bearing properties, excellent adhesion to metal; use where extreme dynamic performance is warranted e.g. lifetime belts, paper and steel rolls (peroxide curable) Unmassed (DIN 53523; ASTM D 1646) of base polymer (3) compound Mooney * Trial product (VP=Versuchsprodukt), please see page 15. (1) (2) 7 CHLOROPRENE RUBBER (CR) Properties Applications Provided that compounds based on Baypren® are formulated and pro- Thanks to the excellent set of properties, Baypren® is used for the production cessed correctly, the vulcanizates are highly resistant to weathering and of highly stressed rubber articles in many sectors, primarily in the automotive ozone, have good resistance to aging, hot air and chemicals and display industry, mechanical engineering, plant construction, ship-building, mining moderately good resistance to oils and gasoline. They also show a low and mineral oil production. Typical Baypren® products are (reinforced) hoses, gas permeability and good mechanical/physical properties as well as belts (power transmission and conveyor), bellows, axle boots, air springs, an excellent abrasion resistance. If suitable formulations are chosen, the dampers, cables and insulation for low voltage cables, sponge rubber, corro- flame retardancy and combustion behaviour of Baypren vulcanizates can sion-resistant linings, roll covers and wiper blades. ® be tailored to meet special requirements. The properties of Baypren® vulcanizates are influenced by the type of modification of the raw polymer Food contact (e.g. pre-crosslinking, sulphur or xanthogendisulfide modification). Information concerning compliance with FDA and BfR regulations can be obtained on request from the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Deutschland GmbH. Mooney Density Crystallization viscosity(1) (g/cm3) Physical form Packaging Remarks ML (1+4) 100°C General purpose grades M-modified grades Baypren® 110 very low 41 +/– 5 1.23 25 kg paper bags with PE inner bags Baypren® 110 very low 49 +/– 5 1.23 (0.05 mm thick, Vicat softening point Baypren® 110 very low 65 +/– 7 1.23 DIN 53 460, ca. 75°C); 40 bags pallet = Baypren® 112 low 41 +/– 8 1.23 ivory-colored 1.000 kg net / 35 bags pallet = 875 kg Baypren® 210 medium 43 +/– 4 1.23 chips net. Also available only on request: 20 kg Baypren® 210 medium 48 +/– 4 1.23 PE bags; 50 bags per pallet = 1.000 kg Baypren® 211 medium 39 +/– 4 1.23 net / 40 bags per pallet = 800 kg net / Baypren® 230 medium 100 +/– 8 1.23 25 kg PE bags 40 bags per pallet = Baypren® 230 medium 108 +/– 10 1.23 1000 kg net Baypren® 116 very low to low 43 +/– 5 1.23 Baypren® 116 very low to low 49 +/– 5 1.23 excellent mechanical Baypren® 126 very low to low 70 +/– 7 1.23 ivory-colored properties due to Baypren® 216 medium 43 +/– 5 1.23 chips Baypren® 216 medium 49 +/– 5 1.23 Baypren® 226 medium 75 +/– 6 1.23 XD-modified grade see above formation of perfect network Special grades Precrosslinked grades Baypren® 114 very low 62 +/–10 1.23 ivory-colored Baypren® 214 medium 55 +/–6 1.23 chips extrusion application Baypren® 215 medium 50 +/–6 1.23 Baypren® 510 low to medium 42 +/–5 1.23 Baypren® 510 low to medium 50 +/–5 1.23 Baypren 611 low to medium 35 +/–5 1.23 Baypren® 611 low to medium 43 +/–6 1.23 ivory-colored suitable for mastication; Baypren 611 low to medium 48 +/–6 1.23 chips Baypren® 711 low to medium 43 +/–6 1.23 Baypren 711 low to medium 48 +/–6 1.23 see above especially designed for Sulfur-modified grades ® ® ® (1) Unmassed (ISO 289) 8 see above easy to process; for dynamic applications INNOVATIVE CR TYPES Following many years of research and development work on chloroprene High Performance rubber, two new Baypren® products lines are now being launched: The products in this new Baypren® line feature significant improvements to specific key properties and thus extend the range of applications for Baypren High Performance (HP) chloroprene rubber. The initial High Performance products – Baypren® HP Baypren Green Finishing (GF) M010 VP and Baypren® HP M210 VP – provide particularly low Mooney ® ® viscosities that are unprecedented on a production scale. Baypren® HP M010 VP Mooney (UML 1+4 (100 °C)) Crystallization MTT crosslinking < 35 slow + Baypren® HP M01D VP < 35 slow o Baypren® HP M210 VP < 35 medium + Baypren® HP M21D VP < 35 medium o Green Finishing The innovative production process we have developed reflects our com- The new Baypren® GF products are still modified using mercaptan or mitment to sustainability, using less water, no natural gas for drying and no xanthogen disulfide. ammonia, a coolant that is harmful to the environment. This also conserves The Green Finishing products in the xanthogen disulfide series exhibit resources. very good properties, with superior strength, tear propagation resistance One feature of the new Baypren® GF products is their optimized crosslinking and fillability as the mercaptan grades. with N-methyl-thiazolidine-2-thione (MTT), a vulcanization accelerator that poses no handling risks. This speeds up the crosslinking process and makes it easy to control. M-modified grades: Baypren® GF M020 VP Mooney (UML 1+4 (100 °C)) Crystallization MTT crosslinking 47 +/-10 low + Baypren® GF M02D VP low o Baypren® GF M220 VP medium + medium o Mooney (UML 1+4 (100 °C)) Crystallization MTT crosslinking 76+/-10 60 +/-10 Baypren GF M22D VP ® XD-modified grades: Baypren GF X020 VP low + Baypren® GF X02D VP low o Baypren® GF X220 VP medium + medium o ® 53 +/-10 Baypren GF X22D VP ® UML, Unmassed Mooney, Large rotor + Rapid crosslinking 0 Standard crosslinking Production of these grades will commence early in 2014, marking the start of a new product generation. Low-viscosity, MTT-optimized Baypren® grades are the first members of a new product family that will expand in the future. The products described here are already available in sample quantities of up to 100 kg. The specified Mooney ranges and limits will be defined more precisely after the start of production. 9 ACRYLONITRILE-BUTADIENE RUBBER (NBR) Our broad range of grades of high performance NBR provides a varying ratio between the non-polar monomer butadiene (50 % 82 %) and the polar monomer acrylonitrile (18 % - 50 %). In that way we meet customer’s demands relating to both exceptional low temperature flexibility and excellent resistance to swelling in oils, fuels and greases. Perbunan® is a special fast-curing NBR rubber enabling very quick molding Baymod® N serves as a modifier in powder form and improves in the final cycles. Besides their extreme oil resistance, vulcanizates are characterized product the resistance to oils, fuels and greases. Its free flowability ensures by a high modulus and good sealing force retention. The clean Perbunan® automatic metering and processing. It is highly compatible with different base grades are – among other properties – designed for molding applications polymers such as PVC or Phenolic Resins. Thermoplastics modified with to reduce the tendency toward mold fouling. In addition they are suitable for Baymod® N remain permanently flexible and elastic while also being impact- food and potable water applications. resistant. Furthermore, it enables a very low extraction rate of plasticizers. Perbunan® is ideal for the automotive, construction and machine industries Pre-crosslinked Baymod® N grades provide excellent dimensional stability in as well as for food contact applications. It is preferably used for molded rubber extruded soft PVC profiles. In friction materials, they serve as an excellent parts such as seals, membranes, vibration dampers and hoses. Furthermo- binder for both fillers and fibers and improve the coefficient of friction. re it is also suitable for rubberized fabrics, roll covers, sheets, conveyor and transmission belts, shoe soles among other applications. Linear Baymod® N grades are soluble in wet processes and therefore used in the rubber industry for gaskets manufactured in a solution process as well as for wet processes in the friction industry as a binder that improves the impact resistance. In the plastic industry they are preferably deployed for soft PVC in injection molding processes. Krynac® is used in various applications for the automotive and industrial equipment & machinery industries, shoe soles and flooring. Among many areas of application it is preferably used for hoses, seals and membranes as well as for roll covers, coated fabrics, sheets, thermal insulation tubes and sheets and footwear. Krynac® is a multi-purpose medium-cure polymer for technical rubber products that are exposed to oils, fuels and greases. Its extreme resistance to those liquids makes it suitable for a wide range of applications. Moreover, specially produced Krynac® grades feature slowcuring, pre-crosslinked and carboxylated types leading to high processing safety, very good extrusion performance and excellent resistance to abrasion and wear. 10 (1) Fast Cure. Clean High Modulus 1846 F 2831 F 2846 F 3431 F 3446 F 3481 F 3976 VP (1) 4456 F Fast Cure.High Modulus 2845 F 2870 F 2895 F 28120 F 3430 F 3445 F 3470 F 3945 F 3965 F Medium Cure 2645 F 2840 F 2850 F 2860 F 2865 F 3330 F 3340 F (4) 3345 F 3370 F 3380 VP (1) 33110 F 3950 F 3980 VP (1) 4975 F Slow Cure 2255 VP (1) 2950 F 3360 F 4045 F 4450 F 4955 VP (1) Pre-Crosslinked 3025 3355 VP (1) 3470 Carboxylated 146 160 740 750 0.96 • 0.96 • • 0.96 • • • 0.96 • • • • 0.97 • 0.97 0.97 • 0.99 • 0.99 • 26 28 27.5 28 28 33 22 33 33 33 33 38.5 39 48.5 45 38 48 60 65 30 33 45 70 80 110 50 75 75 0.96 • 0.98 • • 0.97 • 0.97 • 0.97 • 0.97 • 0.98 • • • • 0.97 0.97 • 0.97 • • 0.97 • • • 0.99 • 0.99 • • 1.01 • • • • 22 30 33 38.5 43.5 48.5 57 53 57 45 50 55 0.96 • • 0.96 • 0.96 0.96 • 0.97 • • 0.97 • • • • • • • • • 29.5 33 34 70 55 (3) 70 (3) 0.98 • 1.00 0.97 • • • • • • • • 32.5 32.5 26.5 27 45 58 38 47 0.97 0.97 0.99 0.99 ••• ••• ••• ••• Trial product (VP=Versuchsprodukt), please see page 15 (2) Unmassed (ISO 289-1) High oil resistance (3) Massed, (ISO 289-1) (4) resistance 45 70 95 120 32 45 70 45 65 High abrasion 28 28 28 28 34 34 34 39 39 Easy processing 0.93 ••• 0.96 • • 0.96 • 0.97 • 0.97 0.97 • 0.99 • 1.01 •• High viscosity 45 30 42 29 42 78 65 55 Low temperature flexibility 18 28.6 28.6 34.7 34.7 34.7 40 44 Density (g/cm3) Mooney viscosity(2) ML 1+4/100°C FC.CHM Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® FC.HM Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® Perbunan® MC Krynac® Krynac® Krynac® Krynac® Krynac® Krynac® Krynac® M Krynac® Krynac® Krynac® Krynac® Krynac® Krynac® Krynac® SC Perbunan® Krynac® Krynac® Krynac® Krynac® Krynac® XL Krynac® XL Krynac® XL Krynac® XL X Krynac® X Krynac® X Krynac® X Krynac® X Acrylonitrile content (%) Bales – Perbunan® & Krynac® • • •• •• • • • • • •• •• • • • Plasticizer Extended 11 (1) Soluble 33.53 VP (1) 3311428.6 34.52 34.7 34.82 34.7 Pre-Crosslinked 32.12 32.32 33.61 VP (1) 3364 VP (1) 38.43 CaCO3 Silica Ca-Stearate Ca-Stearate 31.5 31.5 33 33 33 1.01 1.01 1.01 1.01 1.04 0.40 0.40 0.40 0.40 0.12 Trial product (VP=Versuchsprodukt), please see page 15 47.5 (3) 47.5 (3) 55(3) 55(3) 115 (3) (2) Unmassed (ISO 289-1) (3) • • •• • • • • Friction parts 0.50 0.60 0.70 0.70 Plastic modification 1.01 1.01 0.98 0.98 articles Partitioning agent Linear Baymod® N Baymod® N Baymod® N Baymod® N XL Baymod® N XL Baymod® N XL Baymod® N XL Baymod® N XL Baymod® N XL Rubber Average particle size (mm) 33 53 33110 3345 3370 Acrylonitrile content (%) Density (g/cm3) Mooney viscosity(2) ML 1+4/100°C Powder – Baymod® N • • •• • • •• •• Silica • PVC • • PVC •• • Silica •• CaCO3 •• • Massed, (ISO 289-1) Packaging Bales – Krynac® and Perbunan® 25 kg bales Bales are labeled with product information and the (abbreviated) batch no. Packaged in LDPE/EVA protective film (50 μm) that can be removed or incorporated if mixing temperatures of 110 °C are significantly exceeded. Products are supplied on 900 kg/1,050 kg pallets (36 or 42 bales). Powder – Baymod® N 25 kg PE bags in cardboard boxes. Baymod® N XL 38.43 is exclusively supplied in 22 kg cardboard boxes. Each pallet holds 30 cardboard boxes. Baymod® N XL 33.61 VP and Baymod® N 33.64 VP can also be supplied in 400 kg big bags. Food contact Information concerning compliance with FDA and BfR regulations can be obtained on request from the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Deutschland GmbH. 12 HIGH PERFORMANCE ELASTOMER FROM LANXESS A FIXED SIZE FOR EFFICIENCY AND SUCCESS 13 CONTACT DATA Your direct contact to LANXESS experts in your region www.levapren.com www.levamelt.com evm.apac@lanxess.com evm.nafta@lanxess.com evm.emea@lanxess.com evm.latam@lanxess.com www.therban.com hnbr.apac@lanxess.com hnbr.nafta@lanxess.com hnbr.emea@lanxess.com hnbr.latam@lanxess.com www.baypren.com cr.apac@lanxess.com cr.nafta@lanxess.com cr.emea@lanxess.com cr.latam@lanxess.com www.nbr.lanxess.com nbr.apac@lanxess.com nbr.nafta@lanxess.com nbr.emea@lanxess.com nbr.latam@lanxess.com n High performance elastomers from LANXESS www.hpe.lanxess.com www.lanxess.com 14 help to realise modern architecture efficiently. DISCLAIMER * Trial product Product safety: (VP = Versuchsprodukt = Trial product). The information contained herein Relevant safety data and references as well as the possibly necessary warning is merely preliminary data. Testing as to properties and applications is not labels are to be found in the corresponding safety data sheets. final. Further information, including data which could change or add hazards with use, may be developed. Such information may be needed to properly Health and Safety Information: evaluate or use this product. Use is undertaken at the sole risk of the user. Appropriate literature has been assembled which provides information concerning the health and safety precautions that must be observed when handling the LANXESS products mentioned in this publication. For materials mentioned which are not LANXESS products, appropriate industrial hygiene and other safety precautions recommended by their manufacturers should be followed. Before working with any of these products, you must read and become familiar with the available information on their hazards, proper use and handling. This cannot be overemphasized. Information is available in several forms, e.g., material safety data sheets and product labels. Consult your LANXESS representative in Germany or contact the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Germany or - for business in the USA - the LANXESS Product Safety and Regulatory Affairs Department in Pittsburgh, PA. Regulatory Compliance Information: Some of the end uses of the products described in this publication must comply with applicable regulations, such as the FDA, BfR, NSF, USDA, and CPSC. If you have any questions on the regulatory status of these products, contact your LANXESS Corporation representative, the LANXESS Regulatory Affairs Manager in Pittsburgh, PA or the Health, Safety, Environment and Quality Department (HSEQ) of LANXESS Germany. The manner in which you use and the purpose to which you put and utilize our products, technical assistance and information (whether verbal, written or by way of production evaluations), including any suggested formulations and recommendations, are beyond our control. Therefore, it is imperative that you test our products, technical assistance and information to determine to your own satisfaction whether they are suitable for your intended uses and applications. This application-specific analysis must at least include testing to determine suitability from a technical as well as health, safety, and environmental standpoint. Such testing has not necessarily been done by us. Unless we otherwise agree in writing, all products are sold strictly pursuant to the terms of our standard conditions of sale. All information and technical assistance is given without warranty or guarantee and is subject to change without notice. It is expressly understood and agreed that you assume and hereby expressly release us from all liability, in tort, contract or otherwise, incurred in connection with the use of our products, technical assistance, and information. Any statement or recommendation not contained herein is unauthorized and shall not bind us. Nothing herein shall be construed as a recommendation to use any product in conflict with patents covering any material or its use. No license is implied or in fact granted under the claims of any patent. Levapren®, Levamelt®, Therban®, Krynac® and Perbunan® are registered trademarks of LANXESS Deutschland GmbH. Baymod® and Baypren® are registered trademarks of Bayer AG, Germany. 15 Specialized grades for thousands of tailored solutions. The current portfolio of LANXESS HPE covers the highly specialized demands of the world market for efficient solutions in a sovereign way: EVM, HNBR, CR, NBR LANXESS Deutschland GmbH, Business Unit High Performance Elastomers D-50569 Cologne, GERMANY www.lanxess.com Edition 12/2013