Product News

Game-changing technology for 3D printing tiny structures revealed

A new type of 3D Printing technology enabling rapid prototyping of high-resolution microscale structures has been revealed. It all started after a kick-start from KiwiNet to commercialise the technology. New Zealand microfabrication researchers Andrea Bubendorfer and Andrew Best, the co-inventors of a new way of fabricating very small things with Laminated Resin Printing (LRP), are part of Callaghan Innovation’s MicroMaker3D team which launched the new patent pending technology in the US recently. The team are one of ten selected worldwide for IDTechEx’s Santa Clara Launchpad, an initiative showcasing new disruptive and state-of-the art technologies. Andrea, who leads the microfabrication team at Callaghan Innovation that has created the technology, says: “We’re very excited about the potential for this technology to be a game changer in a range of industries from medicine to wearable technology to aerospace. It will create the first opportunity to rapidly prototype a huge range of miniaturised structures from optical slits to miniaturised microwell plates, micromoulds and more. “Custom sensors are a great example of a niche area we’re keen to explore. One high value approach would be to use molecular sensing to functionalise microstructures, so we could rapid prototype devices for detecting insulin concentration, biomarkers, presence of toxic gases or pollutants. “There are endless possibilities to what we can print – and what is most exciting, though, will be when people start to print things we didn’t even know existed”, says Andrea. The MicroMaker3D project was kick-started when Andrea received KiwiNet Emerging Innovator Programme funding, commercialisation support and advice to explore ways to make microfabrication more accessible. “We ended up creating a new 3D printing technology that can build up tiny structures using specially engineered Laminated Resin Printing (LRP) materials. We can print structures with features as small as five microns. To put this in context, a […]

Autonomous parcel delivery solution unveiled

NEXT is introducing the world’s first Modular Mobile Parcel Locker. NEXT Future Transportation Inc. has announced a ground-breaking automated logistics solution for Smart and Connected Cities. Its fully automated multiservice ‘online-to-offline’ (O2O) platform includes a modular vehicle solution and the supporting operating system required to bring an ecosystem of logistics services to market at scale. To date NEXT has entirely focused on creating innovative solutions for the municipal mass transportation market. NEXT now enters the global USD $2.3 trillion e-commerce market, which is driving a rapid transformation of the traditional retail supply chain. Built on the company’s patented modular transportation platform, the logistics solution is an automated electric vehicle system that is designed to be customisable and scalable for a wide range of Mobility-as-a-Service (MaaS) applications. A fully integrated logistics solution, NEXT compliments warehouse optimisation strategies, and workflow environments of 3PL providers, Retailers and Manufacturers. The unique modular platform seamlessly integrates with mixed fleets of autonomous mobile robots existing operating systems. Upon completion of the automated warehouse loading process, individual vehicles autonomously connect to form a fleet, thus allowing the joint internal space to be utilised. While in route, parcels may autonomously shift amongst vehicles to ensure optimal final delivery. NEXT’s approach fundamentally differs from all current Autonomous Ground Vehicles or e-Shuttles in that vehicle open interior design layout can flexibly adapt to accommodate specific needs. Furthermore, the fleets may be operated by a human driver, a remote human operator, or autonomously. They plan to operate on public roadways in the near term. To meet the growing global market demands of future multi-mode transportation and business applications, NEXT is introducing the world’s first Modular Mobile Parcel Locker. The unique locker solution will provide retailers with more control, while reducing the overall costs of delivery. The public will benefit from superior […]

ZW3D for one man operations, SMEs and corporates

Affordable CADCAM must deliver: • Enterprise-level mechanical design and engineering system. • Cost effective ownership. ZW3D CADCAM is truly integrated. It’s core objective is provide unified environment from concept design to final manufacturing. This is achieved with a powerful proprietary hybrid 3D CAD and CAM kernel. Not only is complex surface generation and manipulation at the centre of the design, the modelling database is object oriented improving speed and providing flexibility. ZW3D does not distinguish between solid, surface or wireframe methodology. All ‘objects’ are usable as a source for developing geometry. The edge of a solid can be used as the profile for a surface or solid extrusion in any direction, as a path for a sweep, the edge of a loft, part of a UV curve set, the path for a distributed pattern of any other object from points through to components. Even if the resulting surface or shape is non sensible in the real world, ZW3D will accept this as a valid object and allow you to continue modelling without a hiccup. CAM users benefit massively from having ready access to high level modelling capability. Comprehensive translators are standard. Some common file types can be used directly. ZW3D Point cloud tools, including STL manipulation can handle millions of points, reduce data and apply complex smooth surface meshes. Resultant surfaces are then used as part of the solid model for shape generation. No additional software or plugins required. AutoCAD users use existing drawings to develop 3D models. One user is currently migrating 2,500 2D sketches to 3D parts. Assembly anomalies have been discovered and resolved. Now they can build and document assemblies with drawings, cross sections, BOM and even instructional explode and unexplode videos. Sheet metal, weldments, morphing , patterning and direct editing tool suites are also standard within ZW3D […]

Showa 707HVO: Highly Visible, safe for users

The inventors of the world’s first biodegradable single use nitrile glove now bring you a new addition to their biodegradable hand protection range: Showa 707HVO – a chemical resistant glove engineered with revolutionary Eco Best Technology (EBT), in high-visibility orange. Investing in tomorrow Showa, which translates to “finding a balance between different elements” in Japanese, has paved the way in biodegradable innovation within the PPE glove market. Driven by the desire to make a positive impact on the planet, a large proportion of research is devoted to biodegradable products and to developing fibers that have no impact on the environment. In 2012, Showa’s Research & Development reached a major breakthrough with the invention of the world’s first biodegradable single-use nitrile glove. Showa 707HVO blends the best of single use and chemical resistant technology to deliver optimum fit, feel and comfort while protecting against chemicals. The 0.23mm thick unsupported, unlined biodegradable nitrile complies with EN ISO 374-1 (JKOPT) and 374-5, and is impermeable to protect against oils, hydrocarbons, grease, chemicals and abrasions. The 305mm long glove is chlorinated for easy donning and doffing, with a rolled cuff to prevent dirt from entering the glove. Typically to Showa, the gloves are manufactured using a unique hand former, allowing for a lightweight protection that fits like a second skin. The bisque finish on palm and fingers offers long-lasting grip and excellent tactility. Its fluorescent orange colour makes it highly visible and an excellent choice for food, janitorial or sanitation environments, or to separate applications on processing floors.

Konecranes strengthens its bulk handling presence in Japan

Konecranes Gottwald Model 4 Mobile Harbor Cranes handling bulk material. A similar crane will handle coal and coconut husk in the Japanese Port of Miike. Konecranes is supplying an eco-efficient, diesel-electric Gottwald Model 4 Mobile Harbour Crane to Miike Port Logistics (MPL). MPL will begin to operate the crane – which was ordered via Chikuho Seisakusho Co., Ltd. (CS) – at the end of 2018 at its terminal in the Port of Miike. The machine will be dedicated to bulk handling, mainly of coal and coconut husk. MPL has been operating a smaller Konecranes Gottwald Mobile Harbor Crane since 2006. This crane has been handling different types of cargo, including bulk, with a motor grab. Miike’s new mobile harbor crane will replace an ageing bulk gantry crane. Makoto Aso, President, CS, explains: “Bulk handling technology from Konecranes has proven to be very productive and reliable at many terminals around the world. MPL has been very impressed by the performance of their Konecranes cargo handling equipment to date. It was logical to opt for a Konecranes Gottwald Mobile Harbor Crane in order to further expand our bulk handling activities.” Holger Schauer, Regional Sales Manager, Konecranes Port Solutions, says: “We are pleased that the fleet of Konecranes Gottwald Mobile Harbor Cranes at Japanese terminals is growing. Since 2003, we have delivered one Model 2 and nine HMK 170 E mobile harbor cranes, the predecessor of Model 2, to nine terminals around the country. The new crane will be the first Model 4 mobile harbor crane to be operated in Japan.” The four-rope grab crane has a maximum lifting capacity of 95 tons, an outreach of up to 46 metres and a high-performance grab curve. To meet the special requirements in Japan, Konecranes will deliver the crane with an additional overload indicator.

Archer’s Jamieson Tank manganese project capable of battery production

Archer Exploration Limited (ASX: AXE), is pleased to announce outstanding results from recent metallurgical test work conducted on a composite drill sample sourced from the Company’s 100% owned Jamieson Tank Manganese Project (located near Cleve, South Australia). The metallurgical test work was completed by Kemetco Research Inc, the same company that did the Ketchowla manganese and cobalt test work (ASX announcement 12 February 2018), and showed that the Jamieson Tank manganese was capable of making an EMD product with a manganese content of >92%, which is the standard required for alkaline and lithium-ion batteries The test work involved the leaching of the manganese from the old drill sample provided by Archer, purification of the leach to remove iron, cobalt, nickel and other potentially deleterious elements and finally the precipitation of the electrolytic manganese dioxide onto graphite cathode and titanium anodes. Executive Chairman, Greg English commented: “It is very exciting that our manganese at Jamieson Tank has been independently shown to be suitable in the production of high-grade manganese EMD, with its high-value applications in emerging and established battery technologies. This is consistent with our expanding exploration portfolio focus on advanced materials and reliable energy storage technologies.” Mr English continued: “The Jamieson Tank Manganese Project complements our nearby Campoona graphite and graphene project with its granted mining tenements, and our other manganese and cobalt exploration prospects at Ketchowla and North Broken Hill. We look forward to updating the market on further developments over the coming weeks.” The Jamieson Tank Manganese Project The Jamieson Tank Manganese Project straddles two separate tenements both owned by Archer: Carappee Hill (site of the proposed Sugarloaf Graphite Processing Facility) and Waddikee. The Carappee Hill portion was initially drilled by Archer in 2008 with follow up drilling under a joint venture between Archer and the manganese miner […]

Countries with the highest density of robot workers

Data from the International Federation of Robotics (IFR) reveals that industrial automation is accelerating across the globe. In 2015, the average global robot density in manufacturing industries was 66 robot units per 10,000 employees. Just one year later, the number increased to 74 robot units. Europe is the reigning champ, sporting a robot density of 99 units per 10,000 workers. The next highest regions are the Americas and Asia, with 84 and 63 units, respectively. When it comes to overall growth rate, Asia tops the list. “Robot density is an excellent standard for comparison in order to take into account the differences in the automation degree of the manufacturing industry in various countries,” says Junji Tsuda, president of the IFR. “As a result of the high volume of robot installations in Asia in recent years, the region has the highest growth rate. Between 2010 and 2016, the average annual growth rate of robot density in Asia was nine percent, in the Americas seven percent, and in Europe five percent.” Breaking those numbers further down by countries, South Korea had the largest installation of industrial robots per 10,000 employees in 2016, reaching 631. South Korea’s electrical, electronics, and automotive sectors have all contributed to this high installation volume. Singapore comes in second, with 488 units. “About 90 percent of robots are installed in the electronics industry in Singapore,” according to the IFR. Germany (309 units) and Japan (303 units) ranked third and fourth, respectively. Check out the full IFR report here to learn more.

Leading Vietnam ceramics manufacturer going from strength to strength

Ian Trousdell, Director, Flowform International Ltd on site with some of the products made for his company by Doan Potters Ltd including Matatiki models. Hung Tran, Senior Merchandiser Doan Potters Ltd is on the right. Doan Potters Ltd., Tan Binh District, Ho Chi Minh City, Vietnam Doan is one of Vietnam’s leading manufacturers of ceramics. With more than 24 years in the business, they provide a good customer experience through their design, quality and reasonable pricing. Established in 1994, Doan Potters Ltd had a turnover in 2017 of $12.5M. The company operates from a 280,000 square feet factory and has production capacity of 200,000 pieces per month and 2,400,000 pieces per year. Their products are mainly shipped to the US market and have the advantage of being manufactured handmade, with special and unique charms. The company has a highly skilled workforce. They conduct in house laboratory testing -lead test, frost resistant test and transit test. Including for consistency of color for mass production, new development test, i.e.: new color, new clay, new technique. Major customers include Lowes, USA; London Drugs, Canada; Home goods, USA; Westelm, USA ad Pier 1, USA. Products shipped for these clients include indoor and outdoor planters, lanterns, candle holders, stools, basket wares and other indoor home accessories. Ian Trousdell, Director of Flowform International and Design for Life Ltd – www.flowform.net – ian.trousdell@flowform.net – currently expanding into China, experienced technical difficulty making figure […]

Grundfos introduces one of the world’s most efficient motors with an IE5 rating

For the first time in the Asia Pacific, pump manufacturing pioneer Grundfos has launched one of the world’s most efficient motors. New generation Grundfos MGE motors – from 0.25 kW to 11 kW – are now capable of attaining this ‘super’ status. Achieving the highest efficiency level available for electrical motors in the market today, these MGE IE5 motors will enable Grundfos pumps to reach 10 per cent in energy savings and 25 per cent in payback time, as compared to the IE3 solution. Reaching IE5 in efficiency means that businesses, residences and industrial players will not only meet but exceed IE3 premium efficiency legislative standards set worldwide, including the European Union, the US, and Japan, Korea, Taiwan, Australia and China in Asia Pacific Region. To align with international standards, minimum energy performance standards for industrial motors in Singapore will be set at IE3 level from 1 October 2018. Eric Lai, Regional Business Director – Industry, Asia Pacific Region, Grundfos said the pump manufacturer is dedicated to supporting worldwide efforts to reduce energy consumption and carbon dioxide emissions, in line with the Paris Agreement commitments. “Sustainability is a very important part of Grundfos’ DNA and we aim to create cleaner and more energy efficient technologies to enable our customers to reduce their water and energy consumption to limit the impact on the environment. “Our new MGE motors are a result of our continuous development efforts and extensive experience in the pumps sector. They perform to the highest standards and we are proud to announce they have been awarded IE5, the highest energy efficiency rating worldwide,” Eric Lai said. The key to Grundfos’ new MGE motors’ unparalleled performance is their state-of-the-art intelligent solutions as they adapt to the surrounding system which, coupled with the high-efficiency IE5 motor, drive down energy consumption. […]

Revolutionary new beam welding technology to fast-track large manufacturing projects

A new technology could improve the efficiency of large-scale manufacturing projects by enabling firms to perform electron beam welding without a vacuum chamber. EBFLOW, which features a local coarse vacuum that can be transported to and operated on site, has been developed by Cambridge Vacuum Engineering and was launched on 1st January 2018. The technology is designed to simplify the process of thick section welding in the manufacture of a wide range of large structures including ships, pressure vessels, wind farms and towers, nuclear plants, and many of the structures involved in oil and gas exploration and civil engineering projects. To date it’s only been possible to perform electron beam welding – a key technology in the fabrication of large, heavy wall structures – at sites equipped with a vacuum chamber large enough to house the structures under manufacture. But EBFLOW’s coarse vacuum can be mounted on tracks and operated locally. The technology can be used in any plant where large components are welded. In tests, EBFLOW has been shown to be 20 to 30 times faster than conventional arc welding, offering transformational gains in productivity. At the same time, it uses less power than conventional arc processes, lowering a plant’s carbon footprint. Among the myriad of other benefits are the ability to perform low-heat input welds that result in reduced distortion – ensuring quality – and the option to perform NDT testing immediately after welding, fast-tracking the manufacturing process and driving down costs. Speaking ahead of the launch Bob Nicolson, Managing Director at Cambridge Vacuum Engineering said: “This technology will transform the productivity of fabrication processes throughout the world of heavy engineering. In many cases the speed of welding can be 30 times faster than current methods. “The technology has been fully developed and pioneered in Britain and we are […]

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