polymerguru

Dunlop introduces the new Sportmax Q3 sportbike tire The Sportmax Q3 delivers next-generation sportbike tire performance by incorporating Dunlop’s new Carbon Fiber Technology (CFT). Dunlop’s new Carbon Fiber Technology (CFT) incorporates a carbon fiber reinforcement element in the Sportmax Q3 tire sidewalls. The many attributes of carbon fiber—high tensile strength, low weight, high chemical resistance, high temperature tolerance and low thermal expansion—make it a great match for application in the Sportmax Q3. In addition, the success Dunlop has earned with the Sportmax D211 GP-A in AMA Pro Road Racing has led directly to many of the performance advantages in the Sportmax Q3. There’s the new tread pattern on the Q3, a planned outgrowth of the GP-A tread pattern, featuring fewer grooves that are longer in length to help route water away more effectively in wet conditions. The Sportmax Q3 also features Dunlop’s Intuitive Response Profile (IRP) design for phenomenal steering

The Teijin Group announced that Toho Tenax and GH Craft have supported Japan’s Kogakuin University Opening a new window in developing a car made with carbon fiber reinforced plastic (CFRP) for the World Solar Challenge. The Teijin Group supplied ultra-lightweight fabric made with Tenax carbon fiber, which was used to design and fabricate the CFRP car body. GH Craft has been involved from the concept design stage to develop the innovative solar car’s all-carbon composite body. Toho Tenax, together with Sakai Ovex, developed in 2010 an ultra-lightweight carbon fiber fabric measuring just 0.06 mm in thickness. The CFRP produced with this material has made it possible to fabricate an ultra-lightweight car body with the stiffness and strength needed to withstand race conditions while reducing bodyweight to an absolute minimum. GH Craft, founded in 1972, is engaged in all stages of composite structure fabrication, including design, molding and structural evaluation, for ultra-lightweight

The new BMW i3 - World Premiere to be staged simultaneously in three continents. Board members will reveal the BMW Group’s first all-electric series-produced vehicle in New York, London and Beijing. The simultaneous launch in three continents highlights the global approach embodied by the BMW i3 towards resolving urban mobility issues worldwide. This approach is rooted in the holistic idea of a purpose-built vehicle concept boasting a unique design, sustainability throughout the value chain and complementary mobility services. As such, the BMW i3 redefines urban mobility for the present and future, setting benchmarks for sustainability, design, hallmark BMW dynamics and exemplary efficiency. It is the world’s first premium electric vehicle designed from the ground up to be powered by an electric drive system. It is also a world first by virtue of bringing together visionary design, pioneering technology and an innovative vehicle concept that includes a passenger cell made of carbon-

The integrity of structural adhesives Structural adhesives are fast emerging as the preferred alternative to conventional mechanical techniques, such as bolts, rivets and welding, for bonding a wide variety of materials.  Comprising three main categories, including epoxy, polyurethane and methacrylate, the benefits of structural adhesives are now well documented. Providing a low weight answer to today’s engineering issues, they can be used to bond a variety of substrates, facilitating the strength and integrity of bonded structures whilst lowering stresses, enhancing chemical and temperature resistance, and optimising manufacturing methods.   Design trends There’s no doubt that a variety of composite, plastic and non-plastic materials will continue to play key roles in the drive to create lighter structures across different industries moving forward – from the electronics industry, through to the automotive, aerospace, general transport and oil and gas industries, the list goes on. Th

Sovereign — one of the leading food packaging suppliers — are proud to introduce The GoodLife® bio sip-lid. Made from bagasse — the fibrous matter that remains after sugarcane or sorghum stalks are crushed to extract their juice — these domed lids are truly innovative, functional and come with impeccable environmental credentials. Unlike other sip-lids which are made of plastic and have a tendency to crack, these lids have a distinctive eco-friendly appearance, are robust and are easy to drink from. After use, the sip-lid is 100% compostable and will biodegrade with general food waste. GoodLife® Bio Sip-lid Made from Bagasse The GoodLife® bio sip-lid is firm and comfortable to drink from and can be used safely even with the hottest drinks. Because of the flexible sturdiness of bagasse, the bio sip-lid fits tightly on all 90mm diameter 12oz and 16oz paper hot cups in the UK market. Indeed, tests have shown that the lid stays securely on the cup even if the cup is tipped over.

The Carbon Company – has honored Professor Klaus Müllen with the Utz-Hellmuth Felcht Award for his research into the synthesis of tailored graphenes. Professor Müllen, Director of the Max Planck Institute for Polymer Research, received the award on July 18 at the International Carbon Conference in Rio de Janeiro, Brazil. Dr Gerd Wingefeld, a member of the SGL Group Board of Management, said: “We present the Utz-Hellmuth Felcht Award to honor outstanding scientific and technological contributions in the field of carbon and ceramic materials. The extremely strong, electrically conductive carbon material, graphene, has immense application potential in computer chip manufacture, as a composite material for energy storage in batteries and fuel cells, and as a catalyst. Professor Müllen and his team have made an important contribution here. The synthesis process developed by him makes it possible for the first time to produce graphene nanoribbons with precisely defined shape and siz

Nylon label materials can offer significant advantages over polyester or  polypropylene  based films in terms of conformability. This is very important when labeling rounded surfaces such as vials or test tubes used in medical and laboratory applications or identifying wire and cable bundles for the electrical industry. The label needs to survive the life of the part identified and stiffness of a polyester or  polypropylene  material, over time, may cause failures such as flagging or delamination. The flexibility of the nylon label would all the material to conform to a rounded surface and be less likely to see this type of failure. Why is nylon better? When compared to continuous film, the woven nylon absorbs the stresses that result from dimensional changes that occur from bending or at extreme temperatures. The aggressive 1 mil pressure sensitive adhesive allows for a strong bond in extreme low temperature when adhered to rounded plastic or glass surfaces. The XF-302 is a