We’re beginning with European enterprise information on this weekend’s Information Briefs, as ASTM Worldwide and CECIMO are collaborating to drive additive manufacturing in Europe, and Farsoon Europe has opened a brand new Innovation Middle in Germany. Shifting on, Domin used Renishaw’s AM to scale up manufacturing for hydraulics. Lastly, Horizon Microtechnologies introduced that its micro-AM coatings have handed radiation testing, and researchers in South Korea developed next-generation 3D printed microfluidic programs that can be utilized for sweat evaluation.
ASTM & CECIMO Signal MoU to Advance World AM
On the current ICAM occasion in Las Vegas, ASTM Worldwide and CECIMO, the European Affiliation of Manufacturing Applied sciences, signed a Memorandum of Understanding (MoU) to attach U.S. and European AM management and advance transatlantic cooperation in AM requirements, certification, and workforce growth. Their new partnership is constructed on a few years of current collaborative efforts between each organizations and their dedication to advancing business via certification, consensus requirements, and extra. The settlement builds on CECIMO’s pan-European initiative, AM Europe, launched earlier this yr and backed by ten nationwide associations with the intention to unite the continent’s widespread AM group. Beneath the brand new settlement, ASTM and AM Europe, operated by CECIMO, will work to align AM-related standardization and certification initiatives, help workforce growth initiatives, promote information alternate throughout the worldwide AM ecosystem, and facilitate engagement amongst U.S. and European AM stakeholders with the intention to shore up international provide chain readiness.
“This collaboration displays our shared perception that additive manufacturing—like many essential and rising applied sciences—is a worldwide motion. By combining the experience and sources of ASTM and AM Europe, operated CECIMO, we are able to drive interoperability, improve effectivity, and pace the adoption of additive manufacturing globally,” stated Dr. Mohsen Seifi, ASTM Worldwide’s Vice President of World Superior Manufacturing Packages.
Farsoon Europe Holds Grand Opening for New Innovation Middle in Germany
Earlier this month, Farsoon Europe held the official grand opening of its new Innovation Middle in Sindelfingen, Germany. Not solely is that this a devoted hub for industrial AM growth, nevertheless it’s additionally the corporate’s everlasting European headquarters. The brand new Farsoon Europe Innovation Middle integrates the corporate’s production-scale AM programs with the commercial ecosystem of Europe. By hands-on testing, validation, and partnership packages, the location is supposed to assist Farsoon prospects with collection manufacturing readiness, collaborative industrialization, and provide chain resilience. The corporate will have the ability to provide native experience, sooner technical help, and stronger collaboration with business in Europe, serving to companies scale effectively and validating processes, supplies, and workflows underneath real-world manufacturing situations. This facility is an enormous step in Farsoon’s dedication to the manufacturing business in Europe.
“The Sindelfingen Innovation Middle marks an necessary milestone in Farsoon’s European journey. It’s the place concepts turn out to be industrial actuality — enabling our prospects to maneuver past pilots into true collection manufacturing and long-term competitiveness,” stated Oliver Huizhi Li, Managing Director, Farsoon Europe GmbH.
Domin Scaling Manufacturing for Hydraulics Utilizing Renishaw’s Additive Manufacturing
UK firm Domin designs and manufactures modern hydraulic merchandise, together with high-performance valves, elements, and lively suspension programs used within the aerospace, automotive, and manufacturing sectors. The corporate says most hydraulic programs haven’t modified a lot over time, however Domin is at all times working to make its movement management programs extra light-weight, highly effective, cost-effective, and energy-efficient. It first labored with engineering applied sciences firm Renishaw in 2019, and invested in a RenAM 500Q four-laser LPBF system in 2023 for hydraulic valve manufacturing. Final yr, to fulfill elevated demand, Domin obtained the RenAM 500Q Extremely, which is the highest-productivity mannequin within the RenAM 500 collection and makes use of Renishaw’s unique TEMPUS expertise to optimize construct instances. Their persevering with collaboration has resulted in main operational effectivity enhancements, in addition to elevated manufacturing throughput—Domin is now printing round 120 metallic manifolds day-after-day. Moreover, Domin’s 3D printed hydraulic merchandise have enabled operational financial savings as much as $400 per valve a yr, and the expertise has additionally helped Domin scale back its materials waste and enhance fluid dynamics, which led to decreased Co2 emissions.
“My co-founder Andrew Collins and I noticed metallic AM as a revolutionary expertise. We analysed a number of industries to see the place we may take advantage of significant change and it grew to become clear that hydraulics could be an incredible place to start out. Steel AM can present the effectivity, sustainability and efficiency enhancements the business has lengthy wanted, and so we got down to make it central to Domin’s manufacturing processes,” stated Marcus Pont, CEO of Domin.
“In an business so susceptible to waste and inefficiencies, we believed that metallic printing might be the car with which we may disrupt. It’s not simply a possibility for 3D printing, it’s a possibility to create a brand new steady expertise inside hydraulics and movement management. By combining metallic 3D printing with different trendy instruments like superior motors, corridor impact sensors, trendy electronics, design and simulation, we’re capable of obtain that chance.”
Horizon Publicizes Micro-AM Coatings Handed Radiation Resistance Take a look at
Horizon Microtechnologies is continuous to advance its testing roadmap, and introduced a serious milestone: its metallic coated micro-AM elements have efficiently handed radiation resistance testing. The testing simulated a radiation dose that was equal to about 4 years in low earth orbit (LEO), which matches the anticipated lifetime of many satellite tv for pc components. The corporate investigated if radiation publicity would compromise the coating, or its adhesion to the polymer 3D printed construction, and it was proven that the coatings stay fully adhered and structurally intact in the course of the simulated publicity interval. Testing was additionally designed to see if radiation would degrade the polymer substrate, and as was anticipated, brittleness elevated throughout publicity. However, whereas printed components will certainly be extra brittle, it is dependent upon the precise element and software as to whether or not they’re too brittle. Additionally, Horizon provides customer-specific help if brittleness continues to be a problem after launch, and makes use of its take a look at knowledge to assist optimize half design and geometry.
“That is about delivering proof, rigorous, clear, and related. Our knowledge exhibits that coated polymer components can carry out reliably even in high-radiation environments, making them more and more viable for area missions,” stated Andreas Frölich, CEO of Horizon Applied sciences.
“Every profitable take a look at expands the envelope of the place and the way our expertise can be utilized. We’re not simply qualifying components, we’re enabling new prospects.”
3D Printed Microfluidic Techniques for Sweat Evaluation
Researchers have developed a versatile, skin-mounted 3D microfluidic machine able to analyzing sweat for real-time well being evaluation. Picture: Da Som Yang from Chung-Ang College
Secreted eccrine sweat can compromise completely different biochemical elements, like metabolites and electrolytes. Non-invasively measuring and analyzing these with wearable microfluidic sensors permits real-time monitoring of each day well being standing, and illness development when relevant. These sensors are used for purposes like environmental publicity, healthcare, and sports activities, however there are nonetheless challenges to be solved to allow them to be higher optimized. A world group of researchers from Chung-Ang College in South Korea, led by Dr. Da Som Yang, lately demonstrated their work in creating 3D microfluidic buildings which might be tender and interface with pores and skin for correct and complete measurement and evaluation of sweat price, cumulative loss, and biochemical content material evaluation, like chloride and creatinine. Their research exhibits non-invasive monitoring of essential well being indicators, together with electrolyte stability, kidney operate, and caffeine metabolism, along with profitable on-body trials that show the power to trace biomarker adjustments in actual time after complement or meals consumption.
“I’ve lengthy been keen on tender electronics and microfluidic applied sciences that instantly interface with the human physique. Sweat, particularly, is a non-invasive biofluid wealthy in physiological data. Nevertheless, the concentrations of biomarkers in sweat can change dynamically over time, particularly following the consumption of meals or dietary dietary supplements. As a result of these ranges can fluctuate vastly between excessive and low states, an efficient device is required to trace such variations with precision,” stated Dr. Yang, Assistant Professor within the Faculty of Mechanical Engineering at Chung-Ang College. “Current measurement methods have limitations in each accuracy and dynamic vary, making it troublesome to seize these dynamic adjustments. The need to beat these challenges motivated this research.”
You may learn the group’s printed research right here.
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