25 Mar 2004

GE ADVANCED MATERIALS BROADENS PORTFOLIO FOR ELECTRONICS INDUSTRY WITH NEW FLEXIBLE NORYL® RESIN FOR WIRE COATING

NEW HALOGEN-FREE PVC REPLACEMENT FOR DC CORDS, PLUGS CAN REDUCE COSTS VS. FR-PE AND TPU

BERGEN OP ZOOM, The Netherlands — Feb. 2, 2004 — GE Advanced Materials today introduced a new family of flexible NORYL® modified-polyphenylene ether (MPPE) resin as an alternative to polyvinyl chloride (PVC), flame-retarded polyethylene (FR-PE), and thermoplastic polyurethane (TPU) in wire-coating applications for the direct-current (DC) cord and plug segments of the consumer electronics industry. The new products –
NORYL WCD910 and NORYL WCP860 resins – have passed bending-strength tests by charger manufacturers, address eco-label flame-retardant application concerns, and, unlike PVC, contain no halogens, such as chlorine, which can break down into dioxins and toxic, highly acidic gasses when burned. The new GE resins also offer a lower specific gravity than FR-PE and TPU – weight reductions of 20 to 30 percent are achievable – as well as faster extrusion rates for potentially higher productivity and lower systems costs.

NORYL WCD910 and NORYL WCP860 resins address several important needs of the electronics cord/plug segment, particularly the global move away from the use of halogenated compounds toward polymers of less environmental concern. Halogenated compounds, while effective at suppressing fires, typically give off highly acidic gases when they do burn. Hence, Europe and Asia are moving to the use of non-halogenated materials and are also calling for a reduction or elimination of heavy-metal pigments, which also raise environmental concerns. Additionally, there is strong incentive to use polymers that can easily be recycled – both in the plant and at the end-of-component life – which favors thermoplastics over thermosetting polymers. Both materials suppliers and OEMs in these highly competitive segments are extremely interested in opportunities for cost-effective environmental solutions beyond those that currently exist.

The new flexible NORYL resin grades have been designed to help meet these and other changing needs of the electronics, electrical, computing, and telecommunications sectors in a number of ways. They are non-halogenated, contain no heavy-metal pigments, offer broad thermal performance, and are lighter and more flexible than many competitive thermoplastics. Because of their improved rheology, they can process faster for potentially increased productivity and reduced systems costs vs. FR-PE and TPU.

NORYL WCD910 and NORYL WCP860 resins are the first in a new line of MPPE products from GE Advanced Materials specifically developed for wire-coating applications. NORYL WCD910 resin is formulated for use in DC cords, while
NORYL WCP860 resin is formulated for use in plug applications. In 2004, GE plans to unveil new halogen-free flame-retardant (VW-1) versions of these materials for applications that require added FR protection.

The new flexible NORYL resin grades are excellent potential candidates for a variety of consumer electronics applications. These include video tape recorder (VTR) cameras; radio/cassette, portable CD, micro-disk (MD), MP3, and DVD players; video/TV games; and sound-system components.

In the global computing segment, the new GE products are expected to be used in plug and cord applications for desktop and notebook computers, personal digital assistants (PDAs), faxes, portable personal computers (PPCs), printers, scanners, and digital cameras. In telecommunications, GE anticipates the flexible MPPE resins to make inroads into application areas such as mobile phone accessories and cordless phones.

“The timing is excellent for the launch of these two new products,” said Chisato Suganuma, industry manager, Consumer Electronics - Components, GE Advanced Materials. “With environmental requirements forcing a phase-out of PVC and neither of the current competitive alternatives able to deliver the performance and productivity benefits that manufacturers need to effectively compete on a global scale, our new flexible NORYL resins are one of the few real options available. For higher productivity, lower cost, and lighter weight, and the ability to

Reader enquiries

GE Plastics
Plasticslaan 1
4600 AC Bergen op Zoom
Netherlands

Helen Vandebovenkamp
helen.vandebovenkamp@ge.com

Tel: +31 164 29 20 97
Fax: +31 164 29 10 66
Netherlands

+31 164 29 20 97

helen.vandebovenkamp@ge.com

www.geplastics.com

Notes for editors

GE Advanced Materials

GE Advanced Materials is a world leader in providing materials solutions through engineering thermoplastics, silicon-based products and technology platforms, and fused quartz and ceramics. Headquartered in Pittsfield, Mass., GE Advanced Materials is the combined entity of GE’s former Plastics, Silicones, and Quartz businesses. Its offerings include:

• Silanes, specialty silicones, urethane additives, adhesives, sealants, caulks, resins, and elastomers for a variety of vertical markets such as personal care, automotive, tire and rubber, construction, healthcare, electronics, household and institutional, agriculture, textiles, appliances, bedding and furnishings, and foam control, as well as the consumer “do-it-yourself” market (www.gesilicones.com);

• Engineering thermoplastics resins serving 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 (www.geplastics.com);

• High-purity quartz and advanced ceramic materials for the semiconductor, telecommunications, lighting, electronics, personal care, and water purification industries. GE Advanced Materials is a leading supplier of quartz materials to the semiconductor industry (www.gequartz.com).

NORYL is a registered trademark of General Electric Company.

Related images

GE Advanced Materials today introduced a new family of halogen-free, flexible NORYL® modified-polyphenylene ether (MPPE) resin as an alternative to polyvinyl chloride (PVC), flame-retarded polyethylene (FR-PE), and thermoplastic polyurethane (TPU) in wire-coating applications for the direct-current (DC) cord and plug segments of the consumer electronics industry.