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GravurChrome® from Atotech (Rock Hill, SC) is a robust process specifically designed to meet the needs of rotogravure hard chromium platers.
GF Piping Systems’ Metal Magmeter offers easy installation and accurate flow sensing in harsh environments.
Metalast advanced anodizing process deemed success
The Metalast anodizing technology, which includes the JobPro and AA-200, has been included in the 2008 Navy Environmental Sustainability Development to Integration (NESDI) year in review report. NESDI partners with the U.S. Navy and their various functional working groups and assigns projects based on various economic and environmental needs, striving to become more effective and efficient in the areas they target. The NESDI program focuses on three primary objectives: (1) Collect, validate and rank environmental research development, test and evaluation, (2) Resolve high priority needs and (3) Integrate solutions and validate benefits. In the report, the METALAST anodizing technology is listed and classified as a NESDI successfully executed project. The entire NESDI report can be downloaded here. To read about the METALAST anodizing technology project specifically (titled “Advanced Anodizing Using Process Control Technology”), scroll to pages 3, 8, and 15 in the report.
GF Piping Systems’ Metal Magmeter offers easy installation and accurate flow sensing in harsh environments
GF Piping Systems (Tustin, CA) will display the Signet Model 2552 Metal Magmeter at Booth #202 at the SUR/FIN 2011 Trade Show and Conference to be held June 13-15 at the Donald E. Stephens Convention Center in Rosemont, IL. The Signet Metal Magmeter is a rugged insertion flow sensor that permits hot-tap access to the pipe stream. This allows quick and easy installation or maintenance without system shut-down, significantly reducing overall costs. The robust design and durable metal housing provide accurate flow sensing in extremely harsh environments.
The lightweight Model 2552 Magmeter can be mounted into a broad range of pipe sizes from 2 to 102 in. (DN50 to DN2550). The patented design offers outstanding performance characteristics including a wide dynamic flow range of 0.15 to 33 ft/sec (0.05 to 10 m/sec) with repeatability of ±0.5% of reading at 25°C. Superior linearity of ±1% reading provides excellent performance across a wide range of applications. Corrosion-resistant materials include 316 Stainless Steel, PVDF and FPM to ensure long service reliability and minimal maintenance.
Integral to the unit’s innovative design is its adjustable capabilities, which permit hot-tap installation using a ball valve. The low friction threaded steel hub allows installation or service to be completed without any additional tools or disrupting the pipe flow, and retrofitting is easily accomplished. The sensor’s short insertion depth minimizes pressure drop, conserving energy for pump operation. For special underwater applications, a submersible waterproof cable is available for limited periods.
The magmeter insertion technology features no moving parts to wear or foul and high accuracy sensing without the excessive costs associated with full bore magnetic flow units. With no moving parts to wear, the unit accurately measures flow in fluids containing a high content of particles, solids and fibers, making it an excellent choice for applications with dirty fluids. The magmeter’s economical price point makes it an ideal choice for upgrading or replacing maintenance-prone mechanical flow sensors. Typical applications include municipal water distribution, water inlets to process plants, surface, ground and ocean water, chemical processing, mining applications, water and wastewater monitoring and industrial water distribution.
GF Piping Systems supplies a full range of plastic pipe, fittings, tubing, valves, actuators, rotameters, fusion machines, secondary containment, tank linings, heat exchangers, custom products, sensors and instrumentation for industrial process control. For further information, Phone: (800) 854-4090, Fax: (714) 731-6201; E-mail: email@example.com; Web: http://www.gfpiping.com
Innovations that could change the way we manufacture
Honoring both innovation and manufacturing, the Society of Manufacturing Engineers (SME) (Dearborn, MI) has announced the 2011 list of Innovations That Could Change The Way You Manufacture. This annual list of innovations showcases new and emerging technologies that are making a difference in manufacturing. This is not the usual list of emerging technologies. These are innovations that can be used today or within a few months and have already shown some successful implementation.
“Not only has innovation enabled us to make better things at lower costs,” said Boris Fritz of Northrop Grumman Aerospace Systems and Vice Chair of SME’s Innovation Watch Committee, the panel of industry experts that selected the innovations, “but innovation also leads to the development of things we couldn’t even dream of just a decade ago.”
Among this year’s innovations is graphene, which is not only the strongest material ever developed, but this one-atom thick sheet of carbon is lightweight and electrically conductive. Fifty times stronger than steel, graphene is being used for extremely sensitive sensors, super-fast electronic switches, aircraft braking systems and touch screens. Companies using graphene include IBM and Bell Helicopter, and the material is available from companies such as Angstron Materials.
Programmable magnets open the door to self-assembling. The ability to manipulate magnetic fields lends itself to many applications from precision switches to snowboard bindings to spinal implants. Using heat to erase a magnetic field, the material can be reprogrammed to have multiple north and south poles of differing strengths. These magnets are available from Correlated Magnetics.
Not all innovations on this list are technical. The committee also recognized the Build to Demand (BTD) process as something that can change the way things are manufactured. BTD, an alternative to the Toyota Production System (TPS), works well for suppliers that experience variable demand and are seeking to increase customer service rates while reducing inventories and production costs. Limited or no capital investment is required to implement BTD in most companies. John Deere Horicon Works originally developed BTD in the early 2000s with assistance from the University of Wisconsin-Madison.
Microstructured molding tools will impact manufacturers of products that could benefit from enhanced surface capabilities. Created as square or custom inserts for injection or compression molds, the innovation adds several capabilities to any molded product: superhydrophobic, reduced friction, reduced fluid drag, increased heat transfer and many others. This approach reduces microstructure manufacturing cost by 83 to 98%. Developed by Hoowaki, microstructured tooling has been available since the spring of 2010.
Programming light with quantum dots is an innovation that promises not only to change the way things are manufactured, but also change the way we light our homes and offices. Quantum dots are nanoparticles of a semiconductor material that range from 2 to 10 nm in diameter. The ability to control the size of a quantum dot enables a manufacturer to determine the color of light emitted. Quantum dots are currently providing brighter images, lower power consumption and improved color purity for electroluminescent displays. Companies manufacturing quantum dot-enabled products include QD Vision and Weinberg Medical Physics.
Controlled through a Web-based application, a remote-presence robot allows a telecommuting worker to remotely attend meetings, drop into the offices of colleagues and otherwise collaborate with people in another office. With cameras in the eyes to capture video, speakers and microphones to relay sound and a laser pointer “finger,” the user can see what the robot sees and direct it around by using a computer’s arrow keys. Companies such as Procter & Gamble are using these remote-presence robots to increase the efficiencies of teams working across the world.
Ten times stickier than Velcro® and reusable gecko-inspired glues, Super Velcro is an extremely strong adhesive that comes apart when heated. Using shape-memory polymers, General Motors researchers have created a product that allows a strong but alterable bond that replaces liquid adhesives requiring lengthy oven curing, which consumes a lot of energy, or foam tapes that do not provide high adhesion strength. Super Velcro is currently being used for interior and exterior automotive trims with potential applications for furniture, toys and buildings.
In reviewing submissions for the Innovations That Could Change the Way You Manufacture, the committee also highlighted an Innovation Watch List. These technologies are showing great promise but, as yet, are unproven in the manufacturing setting. This year’s list includes:
• Continuous-flow microreactors
• Dip-pen nanolithography
• Green cement
• Large-format ceramic batteries
• Laser heating in a diamond anvil cell
• Self-assembling vehicles
• Synthetic cells
“Because most people use common, everyday products that are frequently outsourced, they think that manufacturing in America is dead.” said Fritz. “Innovations like those identified today should be a reminder that American manufacturing has moved beyond the production of commodities and is one of the most technologically advanced sectors of our economy.”
The Innovations That Could Change the Way You Manufacture will be a central focus of the Manufacturing Velocity: SME Annual Conference scheduled June 5-7, 2011, in the suburbs of Seattle. The conference brings together manufacturing professionals and leaders from throughout North America and beyond who are interested in innovations and exchanging ideas in one place.
The Society of Manufacturing Engineers (SME) is the premier source for manufacturing knowledge, education and networking. Through its many programs, events, magazines, publications and online training division, Tooling U, SME connects manufacturing practitioners to each other, to the latest technologies and to the most up-to-date manufacturing processes. For more information, visit www.sme.org
Atotech GravurChrome® - Hard chromium process for rotogravure
GravurChrome® from Atotech (Rock Hill, SC) is a robust process specifically designed to meet the needs of rotogravure hard chromium platers. It provides smooth, high hardness deposits for all rotogravure applications and allows for considerable energy savings because of its high efficiency. GravurChrome® includes the new T.C.C. technology (Trivalent Chromium Control).
The T.C.C. technology reliably controls the level of Cr(III) in the bath, with no need for additional ion exchange systems or environmentally unfriendly ancillary lead anodes and lead additives. By reducing metallic contamination and increasing bath conductivity, T.C.C. provides savings in electrical energy, longer bath lifetimes and improved plating result with predictable quality. Further processes such as CuFlex® Rotogravure for acid copper complete the range of products for rotogravure cylinder preparation.