Learn how to use a digital marketplace to improve your company.

About the presentation Manufacturing is foundational to the global economy because it brings innovation taking place across numerous industries to life. Its success going forward relies on digital marketplace platforms to efficiently connect buyers and suppliers to produce tomorrow's transformative technologies. Digital marketplaces are ushering in a new era where engineers and enterprise buyers can connect with manufacturers worldwide to make products that are the backbone of our economy. This paradigm shift impacts how future-oriented engineers are sourcing and pricing their prototype and production projects, from conceiving part designs to manufacturing them. Marketplace manufacturing acts as a supply chain consolidator without the downsides of single-sourcing or geographic vulnerabilities. It uses a distributed manufacturing strategy with a platform used by both customers and manufacturers.

Meet your presenter Greg Paulsen leads the applications engineering team at Xometry. He works with customers and suppliers on unique projects and shares the capabilities of Xometry's proprietary digital manufacturing marketplace. He sits at the intersection of technology and manufacturing, and under his direction his team plays a key role in Xometry’s mission of accelerating the digitization of the industry. He’s also a subject matter expert in 3D printing, CNC machining, injection molding, and beyond.

About the company For years, the on-demand manufacturing industry suffered from a lack of consistent pricing driven mainly by existing manufacturing sourcing and procurement processes that were complex, uncertain, costly, and time-consuming. Pricing was opaque. Xometry focused on developing a means to generate an instant and accurate price for our buyers and allow sellers to source curated manufacturing opportunities that match their specific processes and capacity. Artificial intelligence (AI) gives us the tools to create a machine learning approach that accurately and quickly prices part designs and lead times and matches them to the appropriate sellers. It allows us to combine part features with data gathered from financial transactions conducted on our marketplace to construct and continually improve prices that both buyers and sellers find acceptable across a wide range of designs, materials, and sizes.

About the presentation Titanium has always placed demands on tools and machines during the cutting process. In recent years, titanium 3.7165 became prevalent among lightweight materials as a material with outstanding properties, especially in the aviation, space, and medical industries. This alloy, normally referred to as Ti6Al4V, shows a very good combination of strength, corrosion resistance, and capacity to withstand stresses. Although this material has good empirical values and cutting data, processing it remains one of the supreme disciplines in machining. WFL pays attention to implementing customer requirements so they become an integrative part of the overall concept. For example, it’s possible to respond to the requirements of customer projects through a special design for guides and spindles and to adapt the machine components to the respective loads. The topic of cooling is especially important where titanium machining is concerned. As titanium burns at temperatures above 880°C, appropriate fire and explosion protection must be ensured. An additional factor is that it’s  also possible to measure the workpieces inside the machine when work is in progress on the WFL complete machining centers.

Meet your presenter John Kelly began his career more than 30 years ago as an applications engineer with Cincinnati Milacron in Worcester, Massachusetts. Since then, he’s worked for various production equipment builders, specialty steel manufacturers in the sales and operational capacities. Kelly returned to the machine tool industry nine years ago, holding sales positions with DMGMori and SNK Inc. Currently he is a regional sales manager for the Eastern U.S. with WFL Millturn Technologies.  His diversified experience throughout industrial sectors gives him the ability to accept the extensive technological changes and challenges that today’s machine tool industry represents.

About the company WFL Millturn Technologies GmbH & Co. KG is the leading supplier in the field of complete machining. WFL is the only manufacturer worldwide that focuses exclusively on the production of multifunctional turning-boring-milling centers. Both the modular structure of the Millturn’s and the tailor-made special solutions guarantee the perfect solution for complex manufacturing tasks. With a Millturn, the customer doesn’t only acquire a CNC-machine which fulfills the highest quality and precision levels, but also gets an unbeatable competitive advantage.

Teams should submit their experiment ideas by Oct. 24, 2022; virtual educator workshop to learn more about the challenge is Aug. 27.

NASA is calling on middle and high school students to join the second NASA TechRise Student Challenge, which invites student teams to develop, build, and launch science and technology experiments on high-altitude balloons.

Students in grades six to 12 attending U.S. public, private, or charter schools – including those in U.S. territories – are challenged to team up with their schoolmates to design an experiment under the guidance of an educator. Administered by Future Engineers, the NASA TechRise Student Challenge offers hands-on insight into the design and test process used by NASA-supported researchers. It aims to inspire a deeper understanding of Earth’s atmosphere, surface features, and climate, as well as space exploration, coding, electronics, and the value of test data. Teams should submit their experiment ideas by Oct. 24, 2022.

“We are thrilled to offer the second annual NASA TechRise Student Challenge,” said NASA Administrator Bill Nelson. “The quality of the experiments and the creativity we saw from students in the last challenge are exactly the kinds of problem-solving and hands-on learning NASA hopes to inspire. We’re eager to see what innovative ideas pour in from students around the nation this year.”

To participate in the challenge, visit:

https://www.futureengineers.org/nasatechrise

A total of 60 winning teams will be selected to turn their proposed experiment idea into reality and launch their technology on a suborbital flight test. The winning teams will each receive $1,500 to build their experiment and an assigned spot on a NASA-sponsored high-altitude balloon flight operated by one of two commercial providers: Aerostar of Sioux Falls, South Dakota,?or World View based in Tucson, Arizona. Both high-altitude balloons provide exposure to the stratosphere at altitudes of approximately 9 to19 miles (15 to 30km) and variable duration of flight time of hours to days. The challenge is led by NASA’s Flight Opportunities program, which rapidly demonstrates technologies for space exploration and the expansion of space commerce through suborbital testing with industry flight providers.

The winning teams will also receive technical support and mentorship from Future Engineers, including the opportunity to learn or improve technology skills such as soldering, coding, and 3D design. NASA encourages students and their instructors to submit experiment ideas even if they have no prior experience with these activities.

“We could not do a project like this in our classroom without the support of NASA TechRise,” said Jill Davis, Superintendent-Director of the Greater Lowell Technical High School in Tyngsborough, Massachusetts, which had one of the winning teams in last year’s challenge. “It is something that is truly out of this world! This challenge helped students develop their own unique ideas for future inventions, which adds a new layer of meaning to what they learn.”  

To enter the competition, teams will propose their experiment idea online using the design guidelines and proposal template on the competition site. NASA plans to announce the competition winners in January 2023. The selected student teams will build their payloads from January to May, and the final experiments will take flight in summer 2023.  

Educators interested in TechRise are strongly encouraged to join the virtual educator workshop on Saturday, Aug. 27, to learn more about the challenge, high-altitude balloons, and how to develop a NASA TechRise proposal. Attendees will also have an opportunity to ask questions of TechRise educators who recently participated in the winner build experience.

NASA also is seeking volunteers to help judge the entries anticipated from across the country. U.S. residents with expertise in engineering, space, and/or atmospheric research who are interested in reviewing NASA TechRise Student Challenge submissions can apply to be a judge on the Future Engineers website.

NASA’s Flight Opportunities program, based at the agency’s Armstrong Flight Research Center in Edwards, California, and part of NASA’s Space Technology Mission Directorate (STMD), is leading the NASA TechRise Challenge, with support from the NASA Tournament Lab, also part of STMD.

The Opportunities when Implementing Robotics Webinar is free to attend and give you access to the on-demand recording.

From collaborative to robotics as a service, learn about the latest enabling technologies and applications from our panel of experts who will discuss these trends and answer your questions live.

Presenters: Cory Raizor is SCHUNK’s Business Development Manager, Automated Machine Tending, Automation & Gripping Systems. With nearly 10 years of experience in automation sales, Raizor is a rising expert in the robotics and end-of-arm-tooling industries. Cory joined SCHUNK as a territory manager before transitioning to a focused account-based sales manager role. Cory now serves as a business development manager, leading SCHUNK USA’s Collaborative Accessories Program, a national distribution channel focused on collaborative robot solution providers.

Gary Labadie, Global Product Director of Automation products for DESTACO, is representing Reid Supply Co. on this panel. Labadie has been with DESTACO for 12 years, but in the industry for 35+ years supporting product development and product management. He’s an expert on the topic of collaborative robots (cobots).

Time: August 17, 2022 12:00 PM in Eastern Time (US and Canada)

Please join us for this insightful webinar. Registration is free and once registered, you will receive a link post-event to watch on-demand.

Learn how to use CLPM to increase productivity.

About the presentation Control loop performance monitoring (CLPM) solutions proactively identify and isolate underperforming control loops. Whereas most CLPM solutions generate analytics based on a single, generic state of operation, a new breed of CLPM solutions detail the performance associated with each of a process’s many and unique states. Using state-based analytics and an innovative measure of PID availability, CLPM solution users can improve process uptime and production throughput. This presentation distinguishes state-based control loop analytics from traditional monitoring capabilities. It also introduces the concept of overall controller effectiveness (OCE) as a proxy for process availability. Industry case-studies are included.

Meet your presenter Heiko Wenzel is managing director and chief digital officer of Wenzel Group GmbH & Co. KG. In 2013, he took over a professorship for process management and business consulting at Merseburg University of Applied Sciences. There he teaches and conducts research in the area of optimization and digitalization of operational processes. Since 2015, he’s supported the Wenzel Group in the realignment of the company's software development and digital transformation

About the company Based in Wixom, Michigan, Wenzel America is part of the Wenzel Group, a family-owned supplier of coordinate measuring machines and metrology equipment. As a CMM manufacturer, Wenzel is committed to CMM technology innovation, German-engineered quality, and unsurpassed customer service. Wenzel CMM and metrology machines are manufactured from solid natural granite and offer precision product testing accuracy. During the past 50 years, Wenzel metrology equipment has been used in nearly every manufacturing industry, including aerospace, automotive, and medical applications.