One cool way to make enclosures for short production runs (say less than 10,000) is plastics fabrication. When most people hear about plastics fabrication they think of signage, or a fairly butchered kind of plastics carpentry. That’s not what I’m talking about.
There’s a relatively new technology that combines sophisticated use of CAD engineering with production techniques borrowed from the sheet metal and cabinet-making businesses. Plastic sheet, such as ABS alloy, is machined to create vents or recesses, and then pieces are cut from a large plastic sheet (as large as four feet by eight feet). Joint and edge detail is then performed on a routing machine. Pieces are then scored on a table saw for bending with heat in a custom machine and assembled with a solvent-bonding process. That’s a quick summary of the process used by one of the manufacturers, Toolless Plastics Solutions in the Seattle.area
The technique goes back to 1985 when French engineer Jean Claude Antoine needed small numbers of housings for stage lighting. The tool-less supplier with the longest track record in the USA is a New Jersey company called Plastronic Enclosures, Inc. I had a conversation this morning with President Daniel L Cucchiara who says that PEI has some unique capabilities in software, shielding and other areas. For example, PEI has equipment that can cut shapes from four foot by eight foot sheet, which gives them advantages in time and economics. Cucchiara says he welcomes the competition because it has spurred interest in the process from design engineers. CEO and Founder Patrick Oltmanns at ClickFold Plastics in Charlotte, NC, says demand is booming from OEMs who want low volumes of electronics enclosures for medical applications. ClickFold offers an excellent FAQ section that explains process capabilities. New at Toolless Plastics Solutions is the ability to produce curved pieces, using a heated roller technology deeloped by its parent company in France, LTP.
Instead of sifting through huge amounts of technical data looking for answers to assembly problems, engineers can now benefit from 3M's new initiative -- 3M Assembly Solutions. The company has organized its wealth of adhesive and tape solutions into six typical application areas, making it easier to find the best products to solve their real-world assembly and bonding problems.
Many of the materials in this slideshow are resins or elastomers, plus reinforced materials, styrenics, and PLA masterbatches. Applications range from automotive and aerospace to industrial, consumer electronics and wearables, consumer goods, medical and healthcare, as well as sporting goods, and materials for protecting food and beverages.
Engineers trying to keep track of the ever-ballooning number of materials and machines for additive manufacturing and 3D printing now have some relief: a free searchable database with more than 350 machines and 450 different materials.
At JEC Europe Dow Automotive introduced a new ultra-fast, under-60-second molding cycle time for its commercial-grade VORAFORCE 5300 epoxy resin matrix for carbon composites. It's aimed at high-volume automotive manufacturing.
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