Apple on Tuesday was granted a patent for a carbon fiber molding process that could one day be used to produce parts made from the lightweight material, like laptop casings or mobile device chassis.
Apple's U.S Patent No. 8,257,075
for a "Carbon composite mold design" describes the systems and methods needed to manufacture "aesthetically pleasing" parts from carbon fiber and other resin based composites.
While the applications of carbon fiber composite materials are many, Apple specifically notes that the invention can be used to "form outer housings for a laptop computer or other similar device." The patent may prove useful as an increasing consumer demand has pushed the industry toward slim and sleek portables with relatively heavy large screens. For example, the weight of the much-rumored next-generation iPhone's expected 4-inch screen could be offset by a carbon fiber monocoque.
It seems that the invention is aimed at larger devices like Apple's MacBook line, however, much like Sony's carbon fiber Vaio Z thin-and-light series.
From the patent's background:
As but one example, it would be particularly helpful if portable electronic device housings and components could be stronger and more durable than what is now typically provided in plastic parts that are formed via ordinary plastic injection molding processes. In particular, it would be beneficial if laptops, notebook computers, and other relatively large and heavy portable computing devices could have outer housings that are better able to protect the entire device from drops and other mechanical shocks.
The patent notes that traditional resin-based composites are made by layering resin-impregnated sheets of into or over a mold, which then cures under increased heat and pressure. Removal of the part can prove a hassle as the resins stick to the mold surfaces, which often requires manual prying and peeling from an operator. As a result, surface blemishes and other defects often occur.
Apple's proposed method looks to enable the mass-production of carbon fiber parts that have a consistent visual appearance by streamlining the manufacturing process.