Die Drawing Makes 'Plastic Steel' From Wood-Filled PP.* A developer of new plastics technologies is applying low-temperature die drawing to take advantage of a new raw material: expanded, oriented, wood-filled polypropylene polypropylene (pŏl'ēprō`pəlēn), plastic noted for its light weight, being less dense than water; it is a polymer of propylene. It resists moisture, oils, and solvents. (EOW-PP). It looks and feels almost indistinguishable from natural wood but is 150% stronger. It's also 300% stronger than ordinary PP and close enough to the strength of steel that the term "plastic steel" is no great exaggeration. "We haven't been able to break it yet. It just bends," says Frank Maine, president of SHW SHW Sherwin-Williams Company (stock symbol) SHW Slide Show (file extension) SHW Super Heavy Weight SHW System High Workstation SHW Shortest Hop Win (throughput scheme) (Synthetic Hardwood Technologies Inc. in Guelph, Ont., the developer of EOW-PP. This unusual new material is made by a combination of two metalworking processes: solid-state extrusion and die drawing. Solid-state deformation deformation /de·for·ma·tion/ (de?for-ma´shun) 1. in dysmorphology, a type of structural defect characterized by the abnormal form or position of a body part, caused by a nondisruptive mechanical force. 2. processes like ram extrusion are typically used to shape high-value, non-melting plastics like UHMW UHMW Ultra High Molecular Weight polyethylene and PTFE PTFE polytetrafluoroethylene. into tubes and sheets not to form inexpensive commodity resins. Orienting of PP film and fiber is commonplace, but orienting a solid PP profile has been limited to lab work in a few universities. Squeeze billets into rods In the early 1990s, researchers at the Aluminum Company of Canada Ltd. (Alcan) in Kingston, Ont., spent six years ram extruding unmelted PP into highly oriented rods of enormous strength. The process requires two steps. First, PP is extruded conventionally into billets--solid, round, or rectangular profiles that are cut to 15-20 in. lengths. The billets are then heated to slightly below the melting point melting point, temperature at which a substance changes its state from solid to liquid. Under standard atmospheric pressure different pure crystalline solids will each melt at a different specific temperature; thus melting point is a characteristic of a substance and and are ram extruded with a very high draw ratio into thin profiles. Haul-off tension around 450 psi keeps the profiles from relaxing before they cool. Alcan patented the process and material but halted the project after the price of aluminum plunged. Symplastics Ltd. in Orangeville, Ont., a plastics processor already experienced I n deformation processing of UHMW-PE UHMW-PE Ultra High Molecular Weight Polyethylene sheet, bought Alcan's patents and lab line and spent three more years of R&D on the process. After three years, Symplastics' only commercial success with the OPP OPP Opposite OPP Opportunity/Opportunities OPP Office of Pesticide Programs OPP Ontario Provincial Police (Ontario, Canada) OPP Office of Polar Programs (National Science Foundation) profiles were small rods made for Frank Maine, who machined them into unbreakable drumsticks for musicians. "Drummers objected to the look of the plastic," Maine recalls. "They liked the performance of the PP drumsticks, but wanted the sticks to look like wood." So Symplastics added 8% wood flour Wood flour is finely pulverized wood that has a consistencey fairly equal to sand, but can vary considerably, with particles ranging in size from a fine powder to roughly the size of a grain of rice. to the billets, which made the rods look and feel remarkably like wood. Woodfilled rods acquired less orientation but still had impressive strength. Eventually Symplastics found the R&D too costly and sold the patents and lab line to Maine, who set up SHW to try to commercialize more applications for the superstrong material. One such application is unfilled OPP beams for automotive side-impact bars, which were tested recently side by side with steel beams. The load at failure for OPP was 30% below that of steel. But while the steel beam snapped when it failed, the OPP beam only delaminated. These preliminary test data were released earlier this month at the Society of Automotive Engineers SAE International (SAE) is a professional organization for mobility engineering professionals in aerospace, automotive and the commercial vehicle industries. The Society is a standards development organization for the engineering of powered vehicles of all kinds, including show in Detroit by Dr. Phillip Bates Bates , Katherine Lee 1859-1929. American educator and writer best known for her poem "America the Beautiful," written in 1893 and revised in 1904 and 1911. , Assoc. Prof. at the Royal Military College The Royal Military College can refer to:
Speeding up the process Slowness of the process was a major problem for Alcan and Symplastics. First, billets were extruded at a glacial pace of about 4 ft/hr. Adding 30% wood flour speeded up billet extrusion to about 10 ft/hr, but that still wasn't fast enough. The solid-state extrusion step was somewhat faster but very energy intensive. Pushing a 15-in.-long billet of 2.75-in. diam. through a compression chamber See: hyperbaric chamber. to form a 15-ft-long, oriented rod of 0.75-in. diam. took 4 min and required 3000 psi of force. Still the process had to go faster. What Maine tried next came from his experience in die drawing of metal wire. Maine set up an experiment to see what would happen if he grabbed the front of the billet as it emerged from the die and pulled while the ram pushed. "We were told die drawing wouldn't work with plastic, that the profile would thin out or simply break," Maine recalls. It didn't. Instead, the wood-filled plastic profile held its shape and stretched. As the polymer oriented, the profile density dropped by nearly half from 1 g/cc down to 0.52 g/cc. As the polymer chains stretched, the wood fibers lined up lengthwise length·wise adv. & adj. Of, along, or in reference to the direction of the length; longitudinally. Adj. 1. lengthwise and pulled away slightly from the polymer, leaving tubular voids behind each fiber. These micro-voids reduced weight, increased topload strength, and imparted the look of natural wood grain. Die drawing also went much faster-up to 30 ft/min, vs. 4 ft/min for ram extrusion alone. At such a speed, it may be possible to run billet extrusion in line with die drawing, Maine speculates. And with die drawing, Maine doesn't need to use the ram, thereby saving energy. Pushing the billets takes 3000 psi, but die drawing takes only 1800 lb of tension to do the same work. The ram now only pushes the first 5 in. of the billet through the die, enough for the puller to grab. Die drawing may allow larger profiles to be oriented. Ram extrusion of unfilled PP is limited to small rods, probably not over 1 in. diam., because orientation takes place only in the resin close to the compression-chamber walls. The larger the profile, the greater the ratio of weaker, unoriented core to stronger, oriented skin. Maine speculates that die drawing of wood-filled PP may cause the orientation to be more evenly distributed across the profile. Maine says die drawing can also speed the solid-state extrusion of unfilled PP. He has not yet tested the resulting product to ascertain the level of property improvement in unfilled material. Looking for Looking for In the context of general equities, this describing a buy interest in which a dealer is asked to offer stock, often involving a capital commitment. Antithesis of in touch with. partners SHW's new low-density, wood-filled composite profiles aren't out of the lab yet. SHW is actively seeking development partners in four areas: indoor construction (chiefly flooring), outdoor construction, automotive, and defense applications. The first area to be commercialized, Maine says, will be wood-replacement products for outdoor construction.
DIE-DRAWN OPP PROFILES WITH & WITHOUT 30% WOOD
Flex. Str., Flex. Mod.,
psi psi
PP 7000 270,000
Wood 14,000 1,300,000
OPP 40,000 1,100,000
EOW-PP [*] 20,000 1,100,000
(*.)Expanded, oriented, wood-filled PP.
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