AZDEL SUPERLITE COMPOSITE GIVES SIGNIFICANT COST AND WEIGHT SAVINGS IN LOW VOLUME AUTOMOTIVE BONNETS/HOODS.

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AZDEL SUPERLITE COMPOSITE GIVES SIGNIFICANT COST AND WEIGHT SAVINGS IN LOW VOLUME AUTOMOTIVE BONNETS/HOODS.
17 March 2004 - GE Advanced Materials

As the result of a joint development, GE Advanced Materials’ Azdel Superlite composite will be used by BI Composites, a major UK automotive moulder, to replace the steel in the bonnet/hood of a high-powered sports vehicle to be launched by a leading international carmaker in early 2004.

The bonnet development was driven by the need to provide a cost-effective material solution that could be applied to low-volume production, niche segment vehicles. Key application criteria included recyclability, impact strength, low weight combined with high stiffness, the ability to bond with steel, extremely low coefficient of thermal expansion (CTE), and the ability to obtain a Class A finish with strong paint adhesion.

BI Composites tested a range of high-temperature engineering thermoplastics before selecting Azdel Superlite composite as the material that offered the optimum balance of properties and met the cost-reduction target.

While initial series production using Azdel Superlite composite indicated a premium over that for a steel bonnet skin, the tooling cost for a steel skin solution could only be justified by amortization over high-volume production. In contrast, tooling for Azdel Superlite composite is a substantially lower investment because of the material’s low-pressure formability. With a EUR 70,000 (approx. $88,000 USD) tool, meeting a production level of 15,000 units per year, and the process being developed to achieve 150,000 units from a single tool, unit cost represents a 50 percent savings over low-volume steel production and a 75 percent savings over comparable thermoset composites. This illustrates the competitiveness of Azdel Superlite composite and the low-pressure forming process for vehicle production volumes of between 500 to 50,000 units, whereas steel shows savings after 100,000 units.

“This development also achieved a very considerable weight savings,” says Mike Birrell, business development director for BI Composites. “With an optimised skin thickness of 2mm, Azdel Superlite composite gave greater stiffness than the steel it replaced at 50% lower weight. As part of our benchmarking process we also produced a bonnet skin in a carbon fibre/epoxy composite, however, it weighed as much as steel in this application.”

The performance of Azdel Superlite composite bonnets was independently measured. In high-speed, offset front-impact tests, the bonnets exhibited less damage than that sustained by similar steel panels tested under the same procedure. Moreover, the bonnets' adhesive bonding remained intact throughout impact testing.

As well as delivering high impact strength, the continuous unidirectional glass fibre reinforcement of Azdel Superlite composite, and its thermal stability, enable a Class A paint finish. The material’s surface is flame treated and prepared with a standard polypropylene primer before painting with a finishing coat.

“With Azdel Superlite composite, we are offering the outstanding combination of light weight, high impact strength, and thermal stability properties,” says Gordon King, commercial director of AZDEL, Inc., Europe. “We expect Azdel Superlite composite to benefit OEMs in the automotive industry for specific applications – from interior to bonnet – where, previously, composites would not have been considered.”

GE Advanced Materials’ Azdel Superlite composite is a low-pressure, thermoformable composite developed specifically for automotive applications. Azdel Superlite composite is based on short, chopped-fiber reinforcement, with a glass content of 42 to 55% and a weight of 600 to 2,000 grams per square meter. The material can be compression moulded in less than one minute at very low pressures of 0.5 to 5 bars. This ratio of fibres to polymers, as well as the base weight of the web, can be customised for different interior and exterior automotive applications.

Characterised by light weight, a high stiffness-to-weight ratio, good dimensional stability, and high impact resistance over a wide temperature range, Azdel Superlite composite allows engineers to design high-performance components that can replace steel, meet aesthetic demands, and contribute to vehicle weight reduction. Azdel Superlite composite’s good polypropylene/fibre bond enables it to be recycled into other engineering applications at the end of its first-life use.

BI Composites, a leading producer of moulded components for executive and luxury cars, is a business of the UK-based BI Group Plc, an international group of specialist engineering companies. The company has annual worldwide sales of approximately ₤ 200 million (approx. $364 million USD) and employs more than 2,000 people in 14 countries.

http://www.ge.com

About: GE Advanced Materials
GE Advanced Materials is a world leader in providing materials solutions through engineering thermoplastics, silicone-based products and technology platforms, and fused quartz and ceramics. Among its businesses are:

• Silicones, which includes GE Toshiba Silicones in the Pacific region and GE Bayer Silicones in Europe, offers silanes, specialty silicones, urethane additives, adhesives, sealants, resins, and elastomers for a variety of industries such as personal care, automotive, tire and rubber, construction, healthcare, electronics, household and institutional, agriculture, textiles, appliances, bedding and furnishings, foam control, and consumer (http://www.gesilicones.com/gesilicones/am1/en/home.jsp);

• Plastics is a global plastics materials supplier and distributor, which serves customers in a variety of industries including aerospace, appliances, automotive, building and construction, data storage and optical media, medical, electrical and electronics devices, telecommunications, computers and peripheral devices, outdoor vehicles and devices, and packaging (http://www.geplastics.com/);

• Quartz produces high purity materials for the semiconductor, fiber optic, lamp making and water purification industries. GE Quartz is a leading supplier of quartz materials to the semiconductor industry (http://www.gequartz.com/en/index.htm);

Established in 1968, GE Advanced Materials’ Specialty Film & Sheet business is a leading supplier of high-performance engineering film and sheet products to the United States, Europe, Africa, India, the Middle East, Asia Pacific and operates a worldwide network of sales, research, manufacturing and technical services facilities.

Today, GE Advanced Materials, Specialty Film & Sheet employs about 600 people, and manufactures engineering sheet and film products at 12 facilities in 9 countries worldwide.

Recent investments:
• 2003 New Roofing Structures Line in Italy, Europe
• 2003 New Coating Lines in China & Malaysia, Pacific
• 2002 Acquisition of Plastech, China
• 2001 New Film Lines in USA and Europe
• 2001 Acquisition of Carboron, Malaysia
• 2000 Acquisition of Matraplast, Canada
• 2000 Acquisition of Nim Plastics, USA

Products:
GE Advanced Materials offers a variety of film materials are to meet different type of applications such as graphic film, coated products, electrical & electronic products, and specialties. The key film materials available today include:
• Lexan* Polycarbonate film
• Ultem* film
• Lexan* SLX film
• Valox* film
• Lexan* Illuminex* film

GE Advanced Materials’ sheet product line includes a wide range of structures from solid sheet, multi-wall sheet and corrugated sheet through to coated sheet and laminates and combinations of each of these.

The key sheet materials available today include:
• Lexan* Polycarbonate sheet
• Lexan* Solar Control IR sheet
• Margard* coated sheet
• Lexgard* laminated sheet
• Ultem* sheet
• Lexan EXL* sheet

GE Advanced Materials, Specialty Film & Sheet, serves customers in a variety of industries including aircraft, appliances, automotive, building and construction, business machines, electrical & lighting, furnishing, greenhouse, industrial roofing, medical, electrical and electronics devices, telecommunications and packaging.

In January 2004, in line with GE Corporate’ new brand architecture, GE Advanced Materials has announced the change of GE Structured Products business naming to GE Advanced Materials, Specialty Film & Sheet.

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