Two new ideas for injection molding unveiled at ANTEC meeting. (Injection Molding Close-Up).* A new method of coinjection molding dissimilar materials was presented at this year's SPE SPE - Software Practice and Experience Annual Technical Conference in San Francisco San Francisco (săn frănsĭs`kō), city (1990 pop. 723,959), coextensive with San Francisco co., W Calif., on the tip of a peninsula between the Pacific Ocean and San Francisco Bay, which are connected by the strait known as the Golden . Other new injection molding injection molding n. A manufacturing process for forming objects, as of plastic or metal, by heating the molding material to a fluid state and injecting it into a mold. techniques discussed at the meeting included ultrasonic monitoring of cavity filling. 'Push-pull' coinjection A new approach to injection molding of multi-material, multi-layer parts aims to overcome limitations of two commonly used coinjection techniques, which are typically chosen according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the rheology and compatibility of the polymers involved. When the two materials have similar rheology they can be injected simultaneously in a coinjection process. When the materials' rheology is dissimilar, an overmolding process is used, which requires a change of mold cavity and separate injection cycle for each material layer added. With both techniques, some degree of adhesion between the materials is usually desirable, if not essential. A new technology that allows co-molding of incompatible (non-adhering) materials with dissimilar rheology in one cycle and within the same mold cavity is in development at the Wolfson Centre for Materials Processing Articles on Materials processing include:
MLM Mailing List Manager MLM Marxism-Leninism-Maoism MLM Mid-Level Manager MLM Medical Liability Monitor (newsletter) MLM Multi-Longitudinal Mode MLM Military Liaison Mission ), is a variation of the Scorim process, says Peter S. Allan, technical director. Scorim (short for Shear Controlled Orientation in Injection Molding) is a patented melt-oscillation process initially designed for use with a single polymer as a tool to reduce weld-line and orientation defects and increase part strength. Scorim was developed at Brunel University in 1982 and is now owned by Cinpres Gas Injection Inc. Scorim splits the melt into two streams that enter the mold from two separate gates. An hydraulic piston is installed in each melt stream; one injects while the other retracts, pulling melt out of the cavity back into the sprue sprue, chronic disorder of the small intestine caused by impaired absorption of fat and other nutrients. Two forms of the disease exist. Tropical sprue occurs in central and northern South America, Asia, Africa, and other specific locations. . This push-pull action oscillates the packing pressure in opposite directions. The two material streams remain separate but travel through a common heated manifold block. In Brunel's experiments, the pistons were installed in the manifold block, but they could also be fitted into a hot-runner manifold, says Allan. The system does not require any modification of the injection unit. The mold is modified to accommodate separate injection points for each material. Allan says MLM does impose a cycle-time penalty, but that is offset by savings from being able to mold dissimilar materials in one mold cavity. When the first material is injected, it forms a solid skin; while it remains molten in the center, the second material is injected. The latter naturally seeks the hot center of the part where the first melt is most fluid and offers the least resistance. At the same time, the piston that injected the first material retracts, drawing displaced skin material back into the hot manifold. Next, that piston moves forward a second time, pushing skin material into the fluid center of the second material. Thus, a two-layer A/B A/B Airborne A/B Afterburner (jet engines) A/B Air Blast A/B Answerback A/B Auto-brake A/B Air Bus A/B Afterburning structure becomes a three-layer A/B/A sandwich. Another thrust forward by piston #2 creates a new core layer, forming an A/B/A/B structure. Additional layers can be produced by repeating the sequence as long as there is still molten material at the center of the part. "The process can be stopped when the desired number of layers has been produced and a conventional packing pressure can be applied to finish the cycle," says Allan. Brunel produced four- and six-layer test parts that combined GP polystyrene (18.6 MFI MFI Microfinance Institution MFI Money Flow Index MFI Melt Flow Index MFI Median Family Income MFI Malaria Foundation International MFI Massachusetts Family Institute MFI Multi-port Fuel Injection (automobile) ) with HIPS (2.1 MFI), and GPPS GPPS General Purpose Poly Styrene GPPS Grays Point Public School (Australia) GPPS Giga Packets per Second with HDPE HDPE abbr. high-density polyethylene (3 MI). Brunel discovered that MLM parts exhibited impact strengths 1.5 to 10 times greater than those of the individual layer components. Brunel is continuing research to explain this phenomenon. Ultrasonic cavity monitor The idea of using low-cost ultrasonic technology to measure melt conditions inside the cavity resonates with Charles L. Thomas
Charles Leroy Thomas (17 April 1920-15 February 1980) was United States Army officer who was awarded the awarded the Medal of Honor for his actions during World War II as a first , director of the Center of Excellence in Rapid Prototyping and Manufacturing at the University of Utah The University of Utah (also The U or the U of U or the UU), located in Salt Lake City, is the flagship public research university in the state of Utah, and one of 10 institutions that make up the Utah System of Higher Education. . The university recently introduced the approach in a system dubbed Ultrasonic Data Acquisition and Control System (UDACS UDACS Uniform Design and Construction Standards UDACS Universal Display And Control System ), suggested as an alternative to conventional cavity-pressure sensing. "Common drawbacks to ultrasonic sensing have been the high cost of the equipment, the delicate nature of the equipment, and the level of understanding required to operate it," says Thomas. The university developed a continuous-wave ultrasonic technique that is said to be lower cost, more robust, and easier to operate. With this technique, the sensor does not contact the melt or require any modification of the tool to accommodate the measuring device. Unlike conventional cavity-pressure sensors, UDACS can measure mold-filling rates and monitor melt temperature, cavity pressure, short shots, and the polymer solidification rate in the cavity--all with one sensor. UDACS uses a piezoelectric The property of certain crystals that causes them to produce voltage when a mechanical pressure is applied to them such as sound vibrations. This technique is used to build crystal microphones, phonograph cartridges and strain gauges, all of which turn mechanical movement into voltage. ultrasonic transducer transducer, device that accepts an input of energy in one form and produces an output of energy in some other form, with a known, fixed relationship between the input and output. installed on the back of the mold-cavity plate. It sends pulses of ultrasonic vibrations through the metal of the plate to the surface of the empty cavity, where the energy reflects back to the transducer. The arrival of melt in the cavity changes the speed of the ultrasonic vibrations. What's more, speed of the ultrasonic waves is also affected by melt temperature and pressure. Signal attenuation Loss of signal power in a transmission. Attenuation The reduction in level of a transmitted quantity as a function of a parameter, usually distance. It is applied mainly to acoustic or electromagnetic waves and is expressed as the ratio of power densities. (sound absorption) indicates the degree of solidification of the polymer. The system can be set up in reflection mode with one device that both sends and receives the ultrasonic pulses, or in transmission mode with an emitter and receiver sensor mounted on opposite sides of the cavity plate. The controller can process the ultrasonic signal and outputs an analog or digital signal that can be displayed on a PC. Thomas says the system is competitive in price with cavity-pressure transducers and is similarly sensitive but offers more flexibility in installation. It also provides much more process monitoring capability than optical sensors or thermocouples. UDACS could be supplied in a digital or an analog configuration. At present UDACS technology is offered for licensing from university's Technology Transfer Office. The university is seeking a partner to commercialize UDACS. In commercial form, the all-digital version is expected to cost from $3000 to $4000 for the instrument and $200 to $500 for the transducer. Much simpler, non-programmable analog instrumentation would cost only $500 to $700. The university is developing a "plug-and-play" version that will be a simpler replacement for cavity-pressure-based switch-over control in molding. In addition, studies are ongoing on the use of UDACS with multi-material, multi-cavity, and gas-assist molding. NEED TO KNOW MORE? Technology Transfer office, University of Utah, Salt Lake City (801) 581-7792, www.utah.edu Cinpres Gas Injection Inc., Ann Arbor, Mich. (734) 663-7700, www.cinpresinc.com Wolfson Center for Materials Processing, Brunel University, Uxbridge, U.K. +44 1895 274 000, www.brunel.ac.uk/research/ wolfson |
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