March 19, 2019 | Volume 15 Issue 11 |
Manufacturing Center
Product Spotlight
Modern Applications News
Metalworking Ideas For
Today's Job Shops
Tooling and Production
Strategies for large
metalworking plants
3D-printing materials just keep getting better -- and now there are more choices than ever. Watch as Walter Voit, SVP Polymer Materials, Desktop Metal, describes the 3D printing of DuraChain Elastic ToughRubber photopolymers, which produce tough and resilient end-use parts while eliminating the need for a two-part resin. DuraChain photopolymers also demonstrate a long pot life of roughly one year, depending on environmental conditions, making them more suitable for volume production and reducing waste from spoiled, unused material. These materials are offered exclusively on the ETEC Xtreme 8K top-down DLP systems. ETEC is a wholly-owned subsidiary of Desktop Metal.
Learn about this exciting material.
Learn about the ETEC Xtreme 8K DLP systems -- and what makes them so much better.
THK has developed its best-performing, high-speed rotary bearing ever: the High-Speed, Double-Row Angular Contact Ring BWH. This rotary bearing has balls aligned inside a cage between the inner and outer rings and is part of the THK Rotary Series, along with the cross-roller ring. The main features of this product are its ability to receive loads in all directions as well as its high rigidity and rotational accuracy, which are equal to that of cross-roller rings. By adopting a new structure to change the rolling elements from rollers to balls, this product achieves the greatest high-speed performance ever offered by THK.
Learn more.
Ruland Manufacturing has expanded its jaw coupling line to meet the demands of high-torque applications, now offering bore sizes up to 1-3/4 in. or 45 mm and torque capacities of 2,655 in.-lb (300 Nm). Target uses are in precision systems with high deceleration and acceleration curves, such as semiconductor, solar, conveyor, and warehouse automation applications. Features include zero-backlash, industry-leading misalignment capabilities, and a balanced design that reduces vibration at speeds up to 8,000 rpm.
Learn more.
Can you get a design and functional edge with a wedge? In this animated video, Nord-Lock explains the principle behind their original wedge-locking technology, which secures bolted joints even when exposed to severe vibration and dynamic loads. The company says it is impossible for this washer type to loosen unintentionally, due to the wedge created underneath the bolt head and nut.
View the video.
Copper foam from Goodfellow combines the outstanding thermal conductivity of copper with the structural benefits of a metal foam. These features are of particular interest to design engineers working in the fields of medical products and devices, defense systems and manned flight, power generation, and the manufacture of semiconductor devices. This product has a true skeletal structure with no voids, inclusions, or entrapments. A perennial favorite of Designfax readers.
Learn more.
Rotor Clip has just launched its new, patented InterShim™ Wave Spring design, which has been engineered for high-acceleration electric motor applications. It features alternating turns between inactive (flat) and active (waved) turns to ensure reliable performance under torsional loads and precise rotational movement. The highly customizable wave spring's advanced design addresses physical challenges such as extreme forces and vibrations, making it a versatile solution for high-speed and high-stress applications across various industries.
Learn more.
Xometry's just-launched downloadable Laser Tube Cutting and Tube Bending Design Guide covers design tips and tricks for cutting parts, including minimums, tolerances, and sizes. The guide also covers important rules for mandrel tube bending, like tolerancing, distance between bends, and bends to avoid. Interested in even more in-depth information? Watch the corresponding on-demand webinar, which introduces how Xometry is bringing AI and machine learning to provide instant pricing and lead time on tube bending and cutting to its Instant Quoting Engine.
Get the guide. No registration required.
Watch the extended Best Practices webinar.
A new additive manufacturing material from Stratasys and BASF is aimed at driving greater part quality, versatility, and cost efficiency. SAF™ PP is recognized for its exceptional chemical resistance and airtight capabilities, making it the ultimate choice for complex applications across various industries. It can also be welded to other polypropylene components.
Read the full article.
The new CFL Series cam follower from IKO International boasts a unique, space-saving outer ring design and polymer layer that exceeds the capabilities of conventional resin-type cam followers. Many conventional cam followers press-fit a layer of resin onto the unit's standard outer ring to maintain radial load capacity and provide quiet, clean, and durable operation. However, this thicker assembly makes it difficult to fit into constrained spaces. The CFL Series significantly improves on this design with a polymer layer that is molded directly onto the IKO exclusive thin-walled steel outer ring. This construction solves the dilemma of being able to install a cam follower with special polymers, offering self-lubricating and shock-absorbing properties into existing applications.
Learn more.
SPIROL's new video showcases their updated Model PR and Model CR Semi-Automatic Installation Machines for Pins, Alignment Dowels, and Bushings. The video demonstrates how to operate the machine, details standard features, and optional quality and error-proofing enhancements. More than 80% of the components in this installation equipment are standard, pretested, production-proven, off-the-shelf parts. This translates into faster delivery, greater reliability, and lowest cost for equipment of comparable quality.
View the video.
Greg Paulsen and Steve Zimmerman from Xometry present a comprehensive understanding of CNC design principles, what features are considered common, and what can drive costs. The experts also go through guidance to make great technical drawings to communicate design intent to manufacturers. Lots of good info here. Flip through now and take it all in later when you have the time.
View the video. No registration required.
igus has a new and improved 24-piece iglide® sample box that engineers can request and receive gratis. All iglide components are self-lubricating, resistant to dirt and dust, and offer low rates of wear. The sample box contains bearings, gears, piston rings, and more, and includes many of the most widely used iglide materials. Nothing like having the materials in hand to really check them out.
Learn more.
Zero-Max's ServoClass-HSN Couplings address noise and vibration issues that can be experienced in high-gain, high-speed stepper/servo motor applications such as linear actuators, high-response gantry systems, pick-and-place systems, and semiconductor manufacturing equipment. Featuring a Highly Saturated Nitrile Rubber (HSN/HNBR) flex element, these couplings are specifically designed for maximum damping and performance. They incorporate the field-proven ServoClass clamping hub system and have a zero-backlash design.
Learn more.
UK-based company Fyous is launching the world's first infinitely reusable molding technology that can shapeshift in under 20 minutes, producing zero tooling waste and making usable parts 14 times faster than 3D printing. Sort of like a kid's pin art toy, Fyous' PolyMorphic molding can be set, used, and then reset to help create parts from carbon fiber, polyurethane, PET sheet (thermoformed), foods like chocolate, and more.
Read the full article.
Stock Drive Products/ Sterling Instrument (SDP/SI) has expanded their selection of flexible couplings to include the single disk-type couplings (short-type) series S50XHSM and the double disk-type couplings (standard length-type) series S50XHWM. The disk-type flexible couplings are an economical option that provides greater torque capability and improved performance in a reduced size, with torque ratings of 0.6 up to 12 Nm -- an improvement over similar products.
Learn more.
Access to clean water remains one of the biggest challenges facing humankind. A breakthrough by engineers at The University of Texas at Austin may offer a new solution through solar-powered technology that absorbs moisture from the air and returns it as clean, usable water.
The breakthrough, described in a recent issue of the journal Advanced Materials, could be used in disaster situations, water crises, or poverty-stricken areas and developing countries. The technology relies on hydrogels, gel-polymer hybrid materials designed to be "super sponges" that can retain large amounts of water.
A research team led by Guihua Yu in UT Austin's Cockrell School of Engineering combined hydrogels that are both highly water absorbent and can release water upon heating. This unique combination has been successfully proved to work in humid and dry weather conditions and is crucial to enabling the production of clean, safe drinking water from the air.
With an estimated 50,000 cubic kilometers of water contained in the atmosphere, this new system could tap into those reserves and potentially lead to small, inexpensive, and portable filtration systems.
"We have developed a completely passive system where all you need to do is leave the hydrogel outside and it will collect water," said Fei Zhao, a postdoctoral researcher on Yu's team and co-author of the study. "The collected water will remain stored in the hydrogel until you expose it to sunlight. After about five minutes under natural sunlight, the water releases."
VIDEO: A research team led by Guihua Yu in UT Austin's Cockrell School of Engineering combined hydrogels that are both highly water absorbent and can release water upon heating. This unique combination has been successfully proven to work in humid and dry weather conditions and is crucial to enabling the production of clean, safe drinking water from the air.
This technology builds upon a 2018 breakthrough made by Yu and Zhao in which they developed a solar-powered water purification innovation using hydrogels that cleans water from any source using only solar energy. The team's new innovation takes that work a step further by using the water that already exists in the atmosphere. For both hydrogel-based technologies, Yu and his research team developed a way to combine materials that possess both hygroscopic (water-absorbing) qualities and thermal-responsive hydrophilicity (the ability to release water upon simple heating).
"The new material is designed to both harvest moisture from the air and produce clean water under sunlight, avoiding intensive energy consumption," said Yu, an associate professor of materials science and mechanical engineering.
Harvesting water from moisture is not exactly a new concept. Most refrigerators keep things cool through a vapor condensation process. However, the common fridge requires lots of energy to perform that action. The UT team's technology requires only solar power, is compact, and can still produce enough water to meet the daily needs of an average household. Prototype tests showed daily water production of up to 50 liters per kilogram of hydrogel.
Representing a novel strategy to improve upon atmospheric water harvesting techniques being used today, the technology could also replace core components in existing solar-powered water purification systems or other moisture-absorbing technologies.
Yu and his team have filed a patent, and Yu is working with UT's Office of Technology Commercialization on the licensing and commercialization of this innovative class of hydrogels. The research was funded by the Alfred P. Sloan Foundation, the Camille & Henry Dreyfus Foundation, and the National Science Foundation.
Source: Cockrell School of Engineering, The University of Texas at Austin
Published March 2019