Thanks to its excellent set of properties, Baypren® is being used for the production of highly stressed rubber articles in many sectors, primarily in the automotive industry, mechanical engineering, plant construction, ship-building, mining and mineral oil production. The properties of Baypren® vulcanizates are influenced by the type of modification of the raw polymer, either by pre-crosslinking, sulfur modification or xanthogen disulfide (XD) modification. With the correct formulation, finished products made of Baypren® display the characteristic outstanding properties in addition to their excellent rubber-elastic behavior.- Aging and heat resistance: Baypren® vulcanizates stabilized with an optimized antioxidant system, display excellent aging resistance. They neither soften nor harden at high temperatures or over long periods of stress and remain elastic and useable. The heat resistance of Baypren® vulcanizates is considerably better than that of natural rubber vulcanizates. It also exceeds the heat resistance of nitrile rubber.- Weathering and ozone resistance: While vulcanizates produced from many other rubbers tend to crack and harden relatively quickly and degrade when exposed to weathering and/or ozone, properly compounded Baypren® vulcanizates do not exhibit any significant deterioration, even after many years of exposure to atmospheric influences such as light, UV, rain, industrial gases, ozone and oxygen. Weathering experiments in an ozone athmosphere show that technical rubber goods based on Baypren® display sufficient elasticity for the majority of static applications (for example structural profiles) even after 50 years of continuous operations.- Resistance to water and chemicals: Baypren® vulcanizates are resistant to water, acids, alkaline solutions and a large number of industrial chemicals. With a good resistance to hydrocarbons, Baypren® vulcanizates show sufficient performance in contact with mineral oils to make them suitable for many applications. The corresponding volume change in mineral oils decreases with increasing naphthenic and, in particular, paraffinic content of the oil. Baypren® vulcanizates have a swelling resistance that is considerably better than that of vulcanizates based on styrene-butadiene rubber, natural rubber or ethylene-propylene diene rubber.- Resistance to fungi and bacteria: Technical rubber goods that are in contact with soil for long periods of time are susceptible to be attacked by soilborne bacteria and fungi. In the long term, this can lead for example to destroyed underground cables. In contrast to the majority of other rubber types, Baypren® displays superior resistance to these microorganisms. This resistance can be enhanced through suitable compounding.- Abrasion resistance: Baypren® vulcanizates are highly wear-resistant. Their abrasion resistance is similar to that of nitrile rubber.- Resilience: Properly formulated Baypren® vulcanizates feature very good resilience, although they do not attain the level of natural rubber. Very good resilience values are achieved in vulcanizates with a relatively high hardness.- Dynamic fatigue resistance: Baypren® vulcanizates are highly resistant to dynamic fatigue. Special grades are available to meet extremely stringent specifications, such as those applied to drive belts. For these grades the loss factor and hence the heat build-up under dynamic load are particularly low.- Deformation properties: Baypren® vulcanizates have a low compression set over a wide temperature range. The low-temperature compression set is a key value employed in the assessment of vulcanizates for use in seals. At higher temperatures, where aging also plays a role, the compression sets are lower than those of a large number of other elastomers.- Combustion behavior: Baypren® vulcanizates can be compounded for improved combustion behavior. The inherent flame retardancy of the polymer itself means that even stringent end-user specifications can be met. Limiting oxygen index (LOI) values above 50% can be attained with Baypren®. For example demanding specifications for flame retardant conveyor belts in underground mining applications can easily be met by properly compounded Baypren®.- Low-temperature flexibility: The glass transition temperature of Baypren® polymers remains fairly constant almost irrespective of the polymers’ tendency to crystallize. The brittleness temperature and the glass transition temperature of Baypren® vulcanizates can be reduced to below -50°C by an appropriate compound formulation. Where rubber parts made of Baypren® are required to remain flexible at low temperatures over long periods, grades with a low crystallization tendency are recommended.- Electrical properties: Baypren® is highly suitable for cable sheathing and, in many cases, for low-voltage insulation. It is recommended for the use in cables that must have an excellent weathering, ozone, oil and aging resistance as well as a good flame retardance. The thermal conductivity and coefficient of thermal expansion of Baypren® vulcanizates are comparable with other elastomers. The values obtained are, of course, largely influenced by the compound formulation. The thermal insulation is also similar to that of the majority of plastics used in the construction industry today.Main application industries- Building and wire & cable industry: rubber-sheathed flexible cables for heavy-duty applications, trailing cables for use in dry and wet conditions and also in underground applications where service conditions are severe, welding cables, flat flexible lighting cables- Automotive and general industry: hoses, molded parts, conveyor and transmission belts
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