Saturday, April 28, 2012

Polyurethane System Density Below Water




It is good to see someone working on this problem.  Changing out the mineral fillers has needed to be done forever. 

I would like to see a system for producing polyurethane fiber that is hollow.  Then using polyurethane as a binder one should be able to control strength and weight.  There are expensive ways to do this but a cheap method is needed.

The advent of the electrical vehicle has made weight reduction a huge necessity and the protocol is likely to maintain weight sensitivity even after we have good batteries. After all you will know continuously the effects of your loading.

Lighter than water - Bayer MaterialScience develops polyurethane system for even more energy-efficient vehicles

Tuesday - April 17, 2012


Maastricht, April 17, 2012 – Demand for lightweight construction systems in the automotive industry is now at an all-time high, with the aim being to cut fuel consumption, costs and CO2 emissions. According to VCD Verkehrsclub Deutschland, reducing the weight of a vehicle by 100 kilograms lowers fuel consumption by 0.5 liters over a distance of 100 kilometers and cuts carbon dioxide emissions by 1.2 kilograms over the same distance. Lightweight structures are now more important than ever given the trend toward future-oriented drive technologies such as electric mobility.

Bayer MaterialScience has already developed a wide range of energy-efficient polyurethane materials for the automotive sector. At UTECH 2012, it is going one step further with the presentation of the Bayflex® RIM Light Weight polyurethane system that can be used to further reducing the weight of finished components by up to 30 percent. With a density of just 0.9 kilograms per liter, this material is even lighter than water.

This solution owes its lightweight design to the high-grade Bayflex® polyurethane system in tandem with a clever combination of fillers that replace the usual mineral fibers,” explained Dr. Birgit Meyer zu Berstenhorst, who was responsible for developing the material. “The excellent mechanical properties remain intact,” she added. The material enables a considerable reduction in fuel consumption and CO2 emissions and, with certain vehicle models, also improves driving dynamics. In electric cars, this better compensates for the still considerable weight of the battery and helps extend the vehicle's range.

This compact material offers great design freedom for vehicle construction and can be used to make components with a Class A surface that are to be finished with a high-grade coating. It is processed using tried-and-tested RRIM  technology.
(Reinforced Reaction Injection Molding)


In addition to car components, Bayflex® RIM Light Weight can be used for applications in other forms of mobility such as trucks, buses, trains, aircraft and ships. Bayer experts believe it is also suitable for use in the leisure and furniture sector, the construction industry and the IT segment. 

About Bayer MaterialScience:

With 2011 sales of EUR 10.8 billion, Bayer MaterialScience is among the world’s largest polymer companies. Business activities are focused on the manufacture of high-tech polymer materials and the development of innovative solutions for products used in many areas of daily life. The main segments served are the automotive, electrical and electronics, construction and the sports and leisure industries. At the end of 2011, Bayer MaterialScience had 30 production sites and employed approximately 14,800 people around the globe. Bayer MaterialScience is a Bayer Group company.

This news release is available for download from the Bayer MaterialScience press server at
www.press.bayerbms.com.
Find more information at www.materialscience.bayer.com.

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