Tag: additive manufacturing

Vocational Orientation Opens Young Eyes to Opportunities

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Students look at a 3D printed architectural model at 3D Systems in Rock Hill, SC, during 3D ThinkLink Vocational Orientation October 20, 2016

Introducing at-risk youth to 3D design and printing is only one part of YouthQuest’s 3D ThinkLink Initiative. Our larger purpose is to help troubled teens learn to think in new ways and dream big.

One way we do that is through Vocational Orientation events, which are a requirement for completion of the 3D ThinkLink training we provide for National Guard Youth ChalleNGe Programs in South Carolina, Maryland and Washington, DC. Students spend a day touring businesses and universities to see real-world applications for the concepts they’re learning about in class.

During an October 13 Vocational Orientation event, University of Maryland grad student Max Lerner tells 3D ThinkLink students from Maryland and DC about the 3D printers he uses in the Biomaterials and Tissue Engineering Lab.
3D printers in the University of Maryland Biomaterials and Tissue Engineering Lab

Many of the kids we serve have struggled with academics and their life experience is severely limited. Before they enrolled in a ChalleNGe Academy, few imagined themselves pursuing higher education or a career in a STEAM (Science, Technology, Engineering, Art, Math)-related field.

That’s why being in a college lab or a high-tech manufacturing facility for the first time can be a life-changing moment for these at-risk teens. In essays they write about how our 3D ThinkLink training affected their lives, students frequently mention being inspired by something they saw during Vocational Orientation.

In October, our Maryland and DC students enjoyed a full day of eye-opening experiences, starting with a visit to the newly opened City Garage in South Baltimore. The former bus garage has been transformed into a wonderland of innovation, anchored by Under Armour’s Lighthouse, a 35,000-square-foot design and manufacturing center. The UA Lighthouse includes a room equipped with more than 50 cameras for 3D scanning of athletes. Designers use the scans to create individually tailored sportswear. The students also learned that UA uses 3D design and printing to prototype footwear and apparel.

Josh Dunn of Bustin Boards tells 3D ThinkLink students from Maryland and DC how the company designs and builds skateboards during a Vocational Orientation tour in Baltimore on October 13, 2016.
Josh Dunn explains how Bustin Boards makes skateboards

Elsewhere in the City Garage complex, the kids had fun at the Bustin Boards skateboard company. Along with trying out the boards, they discovered that the Moment of Inspiration software they’re learning to use in class is the same type of CAD (Computer Aided Design) program the company’s designers use. That led to a discussion about how CAD skills are needed for both 3D printing, or “additive manufacturing,” in which machines build objects by putting material only where it is needed, and traditional “subtractive manufacturing,” in which machines cut away material to form objects.

All kinds of additive and subtractive manufacturing devices were on display next door at The Foundery, a large makerspace. In the midst of all that modern technology, the kids also got some hands-on experience with one of the oldest manufacturing methods – blacksmithing. After heating, pounding and bending red-hot steel, the kids surely gained an appreciation for 3D software that can turn a simple shape into something useful or decorative with just a few clicks of a mouse.

3D ThinkLink students from South Carolina Youth ChalleNGe Academy examine a 3D printed object during a Vocational Orientation visit at Duncan-Parnell's 3D printing shop in Charlotte on October 20, 2016.
Students visit Duncan-Parnell’s 3D printing shop in Charlotte

Students from South Carolina Youth ChalleNGe Academy also saw additive and subtractive manufacturing processes in action as they visited Duncan-Parnell’s 3D printing department in Charlotte, NC, 3D Systems headquarters in Rock Hill, SC and the University of South Carolina Department of Mechanical Engineering in Columbia.

The medical uses for 3D printing often strike a chord with our 3D ThinkLink students.

The kids from Maryland’s Freestate and DC’s Capital Guardian Youth ChalleNGe Academies were fascinated to see how 3D printing is used to develop things like bone and vascular replacements in the University of Maryland’s Biomaterials and Tissue Engineering Lab.

South Carolina Youth ChalleNGe Academy Cadets look at a display on 3D printing in medicine during Vocational Orientation tour of 3D Systems in Rock Hill, SC, October 20, 2016.
Medical technology display at 3D Systems

At 3D Systems, the South Carolina students learned about the company’s work in the fast-growing specialty of pre-surgery modeling. A 3D Systems team recently worked with doctors at Children’s Hospital at Montefiore in New York who separated baby brothers joined at the head. They were able to plan and practice every step of the complex surgery thanks to precise 3D-printed models made from MRIs and CT scans of the boys’ skulls.

We often remind students that being exposed to new ideas and experiences literally makes their brains grow, as new connections between neurons are formed. Our field trips also open students’ minds and expand their view of what’s possible. Vocational Orientation events make these at-risk teens aware of opportunities they had never imagined. While they may not end up working on the cutting edge of technology, the thinking skills and confidence they develop during their 3D ThinkLink experience will help them make the most of any opportunity they choose to pursue.

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Students Explore 3D Printing Beyond the Classroom

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3D ThinkLink students from DC's Capital Guardian Youth ChalleNGe Academy visit the University of Maryland's Tissue Engineering Lab during Vocational Orientation in April 2016

Vocational Orientation is an important part of YouthQuest’s 3D ThinkLink training because it shows students some of the ways they can use the skills they’re learning in class.

In April, 3D ThinkLink students from Maryland’s Freestate, the District of Columbia’s Capital Guardian and South Carolina Youth ChalleNGe Academies visited businesses and universities to:

  • Deepen their understanding of 3D printing technology;
  • Learn about career opportunities in related fields;
  • Meet people who use 3D design and printing in their occupations;
  • See teamwork, creative thinking and problem solving in action.

At the Rock Hill, S.C., headquarters of our 3D ThinkLink Strategic Partner, 3D Systems, the South Carolina cadets learned about 3D printing’s explosive growth in areas ranging from medicine, automotive and aerospace engineering to fashion and entertainment. Director of Corporate Communications Tim Miller led a tour showing the full line of 3D Systems products and explaining the special applications for each machine. The students, who have only simple, desktop plastic-extrusion 3D printers in their classrooms, were amazed by the variety of printing methods and materials available.

Duncan-Parnell's Camren Summerlin shows students a 3D-printer
Duncan-Parnell’s Camren Summerlin shows students a 3D printer

The SCYCA students began their Vocational Orientation Day with a visit to a business that uses many 3D Systems products in its work with civil engineering clients, Duncan-Parnell in Charlotte, N.C. The staff showed them some of the latest 3D printers and talked about jobs available for operators who have the skills to produce high-quality 3D models. Applications Engineer Camren Summerlin also encouraged the students to consider repairing and maintaining 3D printers as a career.

The day wrapped up in Columbia with a tour of the University of South Carolina’s Department of Mechanical Engineering. Graduate Director Dr. David Rocheleau explained how mechanical engineers “make things and break things” – analyzing the strengths and weakness of materials in research to create better, safer products. In addition to 3D printers, the students saw engineering tools such as a wind tunnel, a century-old milling machine and a huge device that can cut through practically anything using a high-pressure stream of water.

UMD grad student Bao Nguyen explains how this 3D-printed scaffold is used to create a hip bone replacement.
UMD grad student Bao Nguyen explains how this 3D-printed scaffold is used to create a hip bone replacement.

The Maryland and DC students learned about 3D printing’s role in a very different kind of engineering during their visit to the University of Maryland in College Park. They met Laurie Bracaglia, Charlotte Piard, Bao Nguyen and other graduate students in the Tissue Engineering and Biomaterials Lab who are developing innovations such as human bone replacements. The researchers use 3D printing to build delicate forms around which bone cells will grow. The cadets took part in hands-on demonstrations of an emerging technology that would have seemed like science fiction not so long ago.

Our students also discovered how 3D printing fits into the invention process when they  toured Prototype Productions, Inc., in Ashburn, VA, another 3D ThinkLink Strategic Partner. Chief Operating Officer Italo Travez and his staff explained that everyone at PPI – designers, engineers and machine operators – share ideas and work together to find innovative solutions to customers’ needs.

During Vocational Orientation for 3D ThinkLink students from Maryland and DC in April 2016, Prototype Productions COO Italo Travez demonstrates products PPI developed
PPI’s Italo Travez demonstrates some of the products his company developed

Mr. Travez, who emigrated from Ecuador with his family when he was a child, also shared personal stories about what drove him to become a mechanical engineer and how he and his brother, Joe, built their small family business into a state-of-the-art prototyping operation that has developed hundreds of products.

There was even a side-order of innovation during a lunch break at Topgolf Loudoun in Ashburn. Director of Sales Cassandra Taylor led a tour of the facility that puts a high-tech spin on the traditional driving range. Players hit golf balls embedded with RFID (radio frequency identification) chips into targets equipped with sensors that read the chips and send the scoring data back to the players. Although most of the cadets had never touched a golf club, they had fun giving Topgolf a try.

The at-risk teens in our 3D ThinkLink classes typically have a narrow view of the world and their place in it. Many have never been to a high-tech workshop or a major university campus. These Vocational Orientation events help open students’ eyes to what’s possible for them as they plan their next steps into adulthood.

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3D Systems Gives YouthQuest 35 3D Printers

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35 Cube 2 3D printers donated to YouthQuest's 3D ThinkLink Initiative by 3D Systems

Santa just made an early delivery to The YouthQuest Foundation. A sleighload of Cube 2 3D printers has arrived from 3D Systems.

“We are so very grateful to 3D Systems for their generosity and continued support of our 3D ThinkLink Initiative. They resonate with our educational goal to provide critical thinking and problem solving skills to America’s at-risk youth, particularly high school dropouts,” said YouthQuest Co-Founder and President Lynda Mann. “3D Systems products are the heart of our program, and this generous donation allows us to expand our initiative to more youth who are working to turn their lives around.”

3D ThinkLink students work with a Cube 2 printer in class at DC's Capital Guardian Youth ChalleNGe Academy
Students work with a Cube 2 printer in class at Capital Guardian Youth ChalleNGe Academy

“This also gives us the resources to launch a pilot program in 2016 that will provide training for young adults with high-spectrum autism, and we are very excited about the possibilities in the new year,” she added.

The 3D ThinkLink Initiative uses instruction in 3D design and printing as a tool to teach at-risk youth critical thinking and problem solving skills, and to stimulate interest in STEM (Science, Technology, Engineering and Math).

The Cube 2 is a basic, easy-to-use printer that’s been a workhorse in the 3D ThinkLink Initiative ever since the project began in 2013. So far, YouthQuest has taught nearly 200 young people how to use it to transform their ideas into 3D-printed reality.

Advanced students with Cube 2 printers during immersion week in the 3D ThinkLink Lab
Advanced students with Cube 2 printers during immersion week in the 3D ThinkLink Lab

Having these additional printers at class sites will mean less waiting and more creating for students, who are always eager to see how the objects they design with 3D modeling software turn out when printed. For those who receive advanced training at the 3D ThinkLink Lab in Chantilly, Virginia, there will be a Cube 2 available for every student.

3D Systems is YouthQuest’s strategic partner in the 3D ThinkLink Initiative. Nearly all the equipment in the lab is made by the company – from the consumer-level Cube 2 and Cube 3 machines to professional-grade printers and scanners.

3D Systems also hosts Vocational Orientation tours of its headquarters in Rock Hill for all 3D ThinkLink students from South Carolina Youth ChalleNGe Academy.

Now in its 10th year as a 501(c)(3) nonprofit organization, YouthQuest ‘s mission is to provide the resources at-risk youth need to become successful adults. Learn more at www.YouthQuestFoundation.org.

3DThinkLink Students Explore Innovation in Action

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Prototype Productions Inc. Co-Founder and CEO Joe Travez with 3DThinkLink students from Capital Guardian Youth ChalleNGe Academy during Vocational Orientation October 15, 2015

Vocational Orientation is an important part of YouthQuest’s 3D ThinkLink Initiative because our program does much more than introduce students to 3D design and printing.

Our goal is to teach at-risk youth to think differently so they can achieve their potential as successful adults. Their brains grow when they are exposed to new things. The more they experience, the more they have to draw on when thinking creatively about solving problems.

Prototype Productions, Inc., our 2015 3D ThinkLink Strategic Partner, teamed up with Topgolf Loudoun this month to provide a valuable Vocational Orientation experience for our students from Maryland’s Freestate ChalleNGe Academy and the District of Columbia’s Capital Guardian Youth ChalleNGe Academy. PPI Co-Founder and CEO Joe Travez organized the October 15 event which focused on innovation.

Innovation in Practice

3DThinkLink students examine 3D-printed objects at Prototype Productions, Inc. during Vocational Orientation
Students examine 3D-printed objects at PPI

As they toured PPI’s headquarters in Ashburn, Virginia, our 3D ThinkLink students discovered that innovative thinking is at the heart of the design, engineering and production work being done there. “Contemplation and action” is how Joe described it to the Cadets.

Chief Technology Officer Ben Feldman explained the ways PPI uses 3D printing, also known as additive manufacturing, along with traditional subtractive manufacturing methods to solve engineering problems.

For example, our students learned how the powered rail system PPI developed for military rifles not only lightens a soldier’s load by as much as 12 pounds by reducing the number of batteries he must carry, but can also be used for sending and receiving potentially lifesaving information on the battlefield.

Another PPI product they saw is a haptic device that mimics a sense of touch for training medical workers to insert IV needles or catheters into patients. Students selected for our advanced immersion training will get to try 3D modeling using haptic devices we recently added to the 3D ThinkLink Lab.

Visiting PPI showed our students some of the ways the technical knowledge and thinking skills they’re learning in class are applied in the working world. It opened their eyes to career paths they might never have considered.

Applied Innovation

From PPI, the group headed to nearby Topgolf Loudoun for a fun, hands-on lesson about innovation in action.

Topgolf Loudoun Facilities Manager Stephen Coffin explains how RFID chip-embedded golf balls are scanned and sorted
Facilities Manager Stephen Coffin explains the innovative technology behind Topgolf

Topgolf puts an imaginative, high-tech spin on the concept of a driving range. The golf balls are embedded with radio frequency identification (RFID) microchips and players try to hit targets in the outfield that are equipped with sensors that read data from the balls. The information is instantly relayed to computers that process the data, tally scores and display the information on players’ monitors.

The three-tiered facility has more than 100 player bays and hundreds of HDTVs, plus big-screen video games and other electronic goodies, all connected to a roomful of computers by miles of cable.

Director of Sales Cassandra Taylor and Facilities Manager Stephen Coffin led a behind-the-scenes tour to explain how everything works. Afterward, the students picked up the clubs and gave it a try. Few of them had ever played golf, but with a little coaching from the Topgolf pros, some of the kids quickly got into the swing of things.

A Capital Guardian ChalleNGe Academy Cadet hits a drive at Topgolf Loudoun during 3D ThinkLink class Vocational Orientation
A student experiences a high-tech twist on golf

It might have looked like just fun and games, but Topgolf was yet another new experience to stimulate creative thinking.

The Maryland and DC students wrapped up their Vocational Orientation Day by visiting the University of Maryland Tissue Engineering and Biomaterials Lab in College Park to see how researchers are using 3D printing to make medical marvels such as blood vessel grafts and bone replacements.

A week later, 25 Cadets from South Carolina Youth ChalleNGe Academy – our largest 3D ThinkLink class ever – toured 3D Systems in Rock Hill, Duncan-Parnell’s 3D printing division in Charlotte and the University of South Carolina’s Department of Mechanical Engineering in Columbia.

Innovation’s Impact

The young people in ChalleNGe programs used to be turned off to education. For any number of reasons, they dropped out or were kicked out of school. They’ve made a commitment to turn their lives around and we’re helping them turn their brains back on.

Spending a day immersed in innovation can be a profound experience for at-risk children. It inspires them to dream big. It reminds them there’s a wide world of possibilities open to them.

We are grateful to all the companies and schools that provide Vocational Orientation tours for our students. In doing so, they are giving back to the community and investing in tomorrow’s workforce.

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Vocational Orientation Has 3D Printing Students Thinking About the Future

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3D ThinkLink student Matthew Crews from South Carolina Youth ChalleNGe Academy talks about 3D printing with Rajeev Kulkarni, , Vice President and General Manager of Consumer Solutions for 3D Systems. at the company's headquarters in Rock Hill, SC, Oct. 23, 2014.

In addition to teaching at-risk teens 3D design and printing, YouthQuest’s 3D ThinkLink Initiative shows them how those skills can take them places they never imagined.

Students from our Maryland and DC classes examine objects created with a Cube 3 printer. at 3D Systems factory in Herndon, Va., Oct. 17, 2014.
Students from our Maryland and DC classes examine objects created with a Cube 3 printer.

“Awesome!”

“Crazy!”

“Mind-Blowing!”

Those were a few of the reactions from the 3D ThinkLink students who toured 3D Systems headquarters in Rock Hill, SC, on Oct. 23. The visit was part of Vocational Orientation for the class from South Carolina Youth ChalleNGe Academy.

The students were fascinated by the array of advanced 3D printing technologies and products on display. They had lots of questions about the machines 3D Systems makes and job opportunities in the company, which is our strategic partner in this project.

“I got to learn things about 3D printing that I never knew before, like there are ones that use metal powder and certain machines can use up to a million different colors,” said Cadet Matthew Crews, 16.

UMD grad student Tony Melchiorri tells Capital Guardian students how this 3D printer helps him make blood vessel grafts. at Maryland NanoCenter Oct. 17, 2014
UMD grad student Tony Melchiorri tells Capital Guardian students how this 3D printer helps him make blood vessel grafts.

Cadet Crews enthusiastically discussed his interest in 3D printing with Rajeev Kulkarni, Vice President and General Manager of Consumer Solutions, who was just as eager to hear our students’ thoughts about the Cube 2 printers they use in class. Kulkarni also showed them the newly released Cube 3, which future 3D ThinkLink classes will use.

A week earlier, on Oct. 17, students from our classes at Maryland’s Freestate and the District of Columbia’s Capital Guardian ChalleNGe Academies, watched Cube 3 printers being assembled at the 3D Systems factory in Herndon, Va.

Those Cadets also saw how 3D printing helps create products for military, medical, automotive and aerospace customers at Prototype Productions, Inc., in Ashburn, Va. At the Maryland NanoCenter’s Tissue Engineering and Biomaterials Lab in College Park, they visited graduate students who are using 3D printing to develop vascular grafts and grow human bone.

Dr. David Rocheleau leads a tour of a mechanical engineering lab at the University of South Carolina during vocational orientation for YouthQuest's 3D ThinkLink students from the South Carolina Youth ChalleNGe Academy Oct. 23, 2014.
David Rocheleau leads a tour of the University of South Carolina mechanical engineering lab.

The Maryland NanoCenter, PPI and 3D Systems have generously hosted previous Vocational Orientation events. For the first time, we also took the South Carolina students to the University of South Carolina in Columbia.

Mechanical Engineering Department Graduate Director David Rocheleau led a tour of several labs where researchers use 3D printing and traditional technologies to test materials. He explained, to the students’ delight, that mechanical engineers spend a lot of their time “trying to break things and blow them up.”

At every stop, our hosts helped the students understand that they’re part of the 3D printing boom. What they’re learning seems novel to most people now, but this technology has the potential to become as commonplace and essential as the personal computer soon.

Thanks to these eye-opening Vocational Orientation experiences, our students now see there are many ways they can be part of building the 3D-printed future.

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Essay ‘From the Heart’ Earns Scholarship for 3D Printing Student

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YouthQuest President Lynda Mann presents a $500 scholarship to Requan Da Sant for his winning essay about his experience in the 3D ThinkLink class at Freestate ChalleNGe Academy.

Recent Freestate ChalleNGe Academy graduate Requan Da Sant is the winner of the first essay competition for students in the YouthQuest Foundation’s 3D ThinkLink Initiative classes.

He earned a $500 scholarship for writing about how the STEM education project for at-risk youth has affected his life.

Requan Da Sant shows a Morgan State University student how to design a 3D object.
Requan Da Sant shows a Morgan State University student how to design a 3D object.

“Being able to use computers for graphic arts and be recognized for it is a dream come true,” Requan said in his essay, The Impact of Creativity.

YouthQuest provides instruction in 3D design and printing at Freestate in Aberdeen, Md., as well as the District of Columbia’s Capital Guardian and South Carolina Youth ChalleNGe Academies, where high school dropouts get the opportunity to turn their lives around in residential programs run by the National Guard Youth Foundation. The 3D ThinkLink classes promote critical thinking and creativity while introducing students to the booming technology of additive manufacturing.

Requan’s essay focused on a visit in April to Morgan State University in Baltimore, where he and his classmates showed college students how to create 3D objects. He described it as a “life-altering event” that made him feel “empowered” and helped improve his leadership skills.

YouthQuest Director of Instruction Tom Meeks watches as Freestate Cadet Requan Da Sant operates a 3D scanner at YouthQuest's booth at the USA Science & Engineering Festival in Washington, DC, April 25, 2014.
Requan Da Sant operates a 3D scanner as part of  YouthQuest’s exhibit at the USA Science and Engineering Festival in Washington, DC.

Requan, 16, said the opportunity to teach college students also reassured him that he should continue his education.

Students in all three 3D ThinkLink classes were invited to write about their experiences. Members of the YouthQuest Foundation Board of Directors judged the entries.

“The reason he was selected by the Board was because he wrote from the heart,” YouthQuest President and Co-Founder Lynda Mann said at the Freestate awards ceremony June 10.

Requan plans to return to high school and earn his diploma, then join the Air Force Reserve and study graphic engineering in college. He will receive the scholarship money after he completes high school.

“I am a very creative individual with the readiness to work and achieve great possibilities,” he wrote.

We have no doubt Requan will do exactly that.

Here is his winning essay:

My 3D ThinkLink Experience: The Impact of Creativity

I truly appreciate being chosen for this potential scholarship. My name is Requan Da Sant and I attend Freestate Challenge Academy. I am 16 years old and I live in Edgewood, Maryland. I believe I should be chosen for this scholarship because I have demonstrated hard-work ethics, responsibility, and the willingness to learn and further my knowledge. I am a very creative individual with the readiness to work and achieve great possibilities. Albert Einstein once said, “The true sign of intelligence is not knowledge but imagination”. While attending Freestate Challenge Academy I was given the opportunity to experience a training which involved a 3D ThinkLink course. This course consists of a program called Moment of Inspiration.  While using this program we are able to build objects and produce them on our 3D Printing Machine.

I had the honor to teach college students at Morgan State University on April 23, 2014. This was their first encounter with the program. The program was taught to the students in a step by step process. At the end of this process each student was able to build their own 3D key chain. As each student completed their key chain I felt empowered. They were very intrigued by the 3D software and what it detailed. The wise words of Audrey Hepburn, “Nothing is impossible, for the word itself say I’m possible” inspired me to continue on with 3D ThinkLink training and the outstanding growth it brought to my leadership goals.

Being given an opportunity to teach college students at such a prestigious school such as Morgan State University is a life-altering event. It gave me the reassurance that going to college is the best option for me. My fellow cadets and I were greeted with such gratitude and enthusiasm, it made my peers and I feel as though we were on top of the world.

To be offered a scholarship of this magnitude at this point in my life is a blessing. Being able to use computers for graphic arts and be recognized for it is a dream come true. Graphic arts is something that has always fascinated me. I plan to stay focused and further my career in the graphic engineering field.

I remember my mother always telling me, “You are so intelligent and if you use your mind for good, you can really go far in life”. I always think about her saying this in my mind and use it for motivation. If not for my mother I probably, never mind the probably, I would not be where I am right now. She has inspired me to obtain and achieve the unachievable. If I receive this scholarship, it would make my mother proud and it would also make me proud. It would be an honor and a blessing to receive this scholarship. Thank you very much for an opportunity such as you have given me.

3D Printing Class Graduates Explore Career Opportunities

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Director of Project Management Derek Johnson leads ThinkLink students from South Carolina on a tour of 3D Systems headquarters in Rock Hill

A wide world of possibilities awaits the students from South Carolina, Maryland and the District of Columbia who have just completed the 3D ThinkLink Initiative training course provided by the YouthQuest Foundation.

They got a close-up look at some of their educational and career opportunities during Vocational Orientation events last week.

YouthQuest’s 3D design and printing classes supplement the math and science curriculum at three National Guard Youth ChalleNGe Academies, where high school dropouts get a chance to turn their lives around. Our project introduces these at-risk teens to the revolutionary technology of additive manufacturing while also helping them develop the critical thinking and problem-solving skills they need to succeed.

3D ThinkLink Initiative students from Maryland and DC visit the 3D Systems factory in Herndon, Va., June 6, 2014
Students at the 3D Systems plant in Virginia

The South Carolina Youth ChalleNGe Academy class was treated to an extensive tour of 3D Systems headquarters in Rock Hill, S.C., on June 5. The next day, the Cadets from Maryland’s Freestate and DC’s Capital Guardian programs visited the 3D Systems facility in Herndon, Va., where the Cube 2 printers they used in class were made.

The company is the Foundation’s strategic partner in the 3D ThinkLink Initiative.

“3D Systems really pulled out all the stops for us,” said YouthQuest President and Co-Founder Lynda Mann.

She praised the many 3D Systems employees who took time to show the students around and answer their questions. Their explanations helped the Cadets see how concepts they learned about in school, such as the scientific method, are used on the job.

In Rock Hill, employees from many departments – such as accounting, legal, sales and human resources – joined the students during lunch to take the conversation beyond technology. They asked about the Cadets’ aspirations and described the sometimes-twisted path they took to their job at 3D Systems. The teens came away with some valuable insights to consider as they plan their own careers.

The South Carolina students wrapped up their day with a visit to ITT Technical Institute in Columbia, where they explored opportunities in skilled-trades education and used a computer program to create some simple house designs.

University of Maryland FabLab Director Jim O'Connor holds a silicon disk
Maryland FabLab Director Jim O’Connor

The Maryland NanoCenter at the University of Maryland was the first stop for the DC and Maryland students on June 6. FabLab Director Jim O’Connor used a 60-year-old transistor radio and a silicon disk printed with billions of microscopic transistors to illustrate nanotechnology. Then he took the group into a lab where engineers and biologists are working together to 3D-print human tissue.

The Cadets were impressed and pleasantly surprised to learn that they’re only a few years younger than many of the students they met who help with the groundbreaking research in the lab.

Switching from the research to the production aspects of 3D printing, the students toured Prototype Productions, Inc. in Ashburn, Va.

PPI’s Chief Technology Officer Ben Feldman and Project Engineer Darin Janoschka showed how the company uses a combination of additive manufacturing and traditional machine shop work to develop products for clients in industries including medical, biotech, aerospace and defense.

Coming a week before graduation, these Vocational Orientation events were important in providing real-world context for the lessons the students learned in class. Now, as they take the next step in their lives, they have a better understanding of the options available to them, thanks to our 3D ThinkLink Initiative.

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VIDEO: 3D ThinkLink Initiative on Display at USA Science & Engineering Festival

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A Freestate ChalleNGe Academy Cadet in YouthQuest's 3D ThinkLink Initiative class 3D scans a young visitor to the Foundation's exhibit at the USA Science & Engineering Festival on April 26, 2014

Students in YouthQuest’s 3D ThinkLink Initiative classes got the opportunity to do some learning and some teaching at the USA Science & Engineering Festival in Washington, DC, on April 25-27.

The Cadets and teachers from Maryland’s Freestate ChalleNGe Academy and the District of Columbia’s Capital Guardian Youth ChalleNGe Academy joined our Foundation’s President and Co-Founder Lynda Mann, Director of Instruction Tom Meeks and Communications Director Steve Pendlebury at YouthQuest’s exhibit booth.

“Everyone had a good experience here,” said Capital Guardian Cadet Alexander Cruz. “It was too interesting. You find things you would never think of.”

“I’m glad to be exposed to new things like this,” added his classmate, Cadet Daikwon Jones.

The 3rd USA Science & Engineering Festival was billed as America’s largest celebration of STEM (Science, Technology, Engineering, Math). Imagine a three-day school science fair that fills both levels of the Washington Convention Center, in which the parents helped make all the displays – and all the parents are geniuses.

Hundreds of children and adults stopped by our booth to see what our students are learning and to hear about how the 3D ThinkLink Initiative is helping them develop critical thinking and problem-solving skills.

“I got to see stuff I never saw before. I got to think in ways other than I usually think about how to solve problems using different types of strategies,” Capital Guardian Cadet Demetrius Morgan said.

With the help of our strategic partner, 3D Systems, we had students operate a Sense 3D scanner to show how multiple images are captured and stitched together to create the data file that is then turned into a plastic object by a Cube 3D printer.

The Cadets also helped small children assemble 3D-printed stackable beehive puzzles to demonstrate the concept of building objects in layers. They explained to the kids that bees are nature’s 3D printers because they make honeycombs by stacking up layers of wax in precise patterns, just as the Cube machine does with heated plastic filament.

“It was a good experience to talk to people about 3D printing,” said Freestate Cadet Daniel Mueller. “I have a better understanding of it now.”

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When they weren’t staffing the booth, the students explored other exhibits and quickly discovered that they’re seeing the start of the additive manufacturing boom. The technology they’re learning about in class is quickly spreading to all sorts of industries, opening new career opportunities for those who have 3D design and printing skills.

Visitors who had been to the festival before remarked about how many displays included 3D printers this time. Just a year or two ago, the machines were a rarity. In fact, there were so many this year that a young boy asked one of our fellow exhibitors, “Is 3D printing the theme of this festival?”

It might as well have been.

However, there was also much more on display at the USASEF.

“One thing I found fascinating was the robots; how they built them, and how they use them for many things from just plain toys to defusing bombs for the SWAT team,” said Freestate Cadet Dakota Doyle.

The festival helped Freestate Cadet Kayla Coleman “learn much more about astronomy.” Her dream is to work for NASA.

“I never thought I’d be interested in science stuff like this” said Capital Guardian Cadet Daisha Allen. Being at the festival changed her mind.

In addition to learning more about STEM subjects, the students got to work on their presentation skills and practice speaking in public.

“It gave me more of the skills of talking to people because I’m not really used to it, but I know it’s something I have to work on. So it was fun for me to learn how to communicate with people better,” said Freestate Cadet Kayla McFadden.

Several visitors to our booth remarked about how poised and well-spoken the Cadets were – and what a good job they did working with the younger children.

It was clear, though, that there’s still a bit of little kid in these young men and women who are just weeks away from graduation. Asked to name their favorite activity at the USASEF, the overwhelming majority of Cadets said it was getting to eat graham crackers that had been dipped in super-cold liquid nitrogen.

To see why, watch this video from one of the STEM celebrities who appeared at the festival, Bill Nye the Science Guy.

VIDEO: What’s Ahead for YouthQuest’s 3D ThinkLink Initiative

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Keith Hammond and Tom Meeks with Capital Guardian ChalleNGe Academy cadets 2013

With a new cycle of 3D ThinkLink Initiative classes starting, it’s a good time to take a look at where our STEM education project has been and where it’s going.

What began with a group of eight graduates at Maryland’s Freestate ChalleNGe Academy a year ago has grown to include three programs and three dozen students who will receive 34.5 hours of instruction in 3D design and printing.

The South Carolina Youth ChalleNGe Academy is holding classes for the first time — joining the District of Columbia’s Capital Guardian Youth ChalleNGe Academy, which introduced classes last fall, and Freestate, where the YouthQuest Foundation launched this project last spring.

3D ThinkLink Initiative teacher training
3D ThinkLink Initiative teacher training

Instructors from all three schools spent a week at YouthQuest headquarters last month preparing for this class cycle. While the teachers work in the classrooms, YouthQuest’s Director of Instruction Tom Meeks will lead the sessions via video conferencing from a central location. Tom will also visit each class so he can get to know the students in person and reinforce the message that the things they learn in class will help them make better decisions.

As our 3D ThinkLink Initiative grows, so does the support we receive from our strategic partner, 3D Systems, which provides the Cube printers, Sense scanners and Sculpt software students use in class.

The South Carolina students will tour the company’s Rock Hill headquarters in June as part of their Vocational Orientation Day, which shows them how the skills they learn in class are used in the working world.

We also are teaming up with 3D Systems for an exhibit at the USA Science and Engineering Festival, the nation’s largest celebration of STEM, next month in Washington, DC.

Students from Freestate and Capital Guardian will participate in interactive demonstrations of 3D scanning, modeling and printing. They will have the chance to tell other students what our classes have taught them about solving problems by thinking creatively. When they’re not at our booth, they’ll be exploring the scientific wonderland of exhibits that will fill the Walter E. Washington Convention Center.

USASEFOfficial_Partner_Logo_croppedVisit our exhibit at the USA Science and Engineering Festival April 26-27. Participants include more than 750 of the world’s top scientific and engineering societies, universities, government agencies, tech companies and STEM outreach and community organizations. We’ll be in Hall A, Booth 1136 – right next to 3D Systems. It’s free!

The festival is sure to be the kind of life-enriching experience our foundation strives to provide for at-risk youth. It’s also an excellent opportunity to tell our story to people in the STEM education and additive manufacturing communities who can help support YouthQuest’s mission.

One of our immediate priorities is to begin creating a 3D fabrication laboratory equipped with software and printers that can do more than the ones our students use in class. Two students from each of the classes that are now starting will be selected to spend a week in the lab in July, where they will delve deeper into 3D printing and learn to work with materials other than plastic, such as clay and even candy.

Eventually, community groups and individuals will be able to use the facility for a fee, to help cover the costs of our educational programs.

Another goal for this year is to expand the 3D ThinkLink Initiative beyond the National Guard Youth ChalleNGe Program. YouthQuest President and Co-Founder Lynda Mann is leading an outreach effort to partner with other youth organizations that work in underserved communities throughout America.

Click on the video below for more about where we’ve been and where we’re headed.

If you would like to make a tax-deductible contribution to support the 3D ThinkLink Initiativeclick here to donate or contact us at info@youthquestfoundation.org or (703) 234-4633.

3D ThinkLink Initiative’s Impact: ‘I Didn’t Think I Could Learn Anything Like This’

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Capital Guardian Youth ChalleNGe Academy Cadet Kenneth Cruz looks at a 3D-scanned image of himself.

Patience. Persistence. Attention to detail. Creativity.

Those are some of the lessons the YouthQuest Foundation’s 3D ThinkLink Initiative taught Cadets at the District of Columbia’s Capital Guardian Youth ChalleNGe Academy.

Our STEM (Science, Technology, Engineering, Math) education project not only introduces students to the revolutionary field of additive manufacturing, it uses 3D design and printing classes to teach critical thinking skills that help at-risk teens make better decisions as they enter adulthood.

“I didn’t think I could learn anything like this before,” said Cadet Dalonta Crudup, whose dream is to design and build his own house from the ground up.

“I was thinking that when I start architecture in college it was going to be hard, but joining this class has made it seem a lot easier – how to deal with things, how to deal with situations and building stuff,” he said.

Cadet Niema Travers also was worried at first that she wouldn’t be able to learn 3D design and printing.

“Now I can do this without any problem,” she said with a smile. “It made me feel better than anything because … to be able to make something on the computer, for it to print out and be in your hand, is amazing.”

The 3D classes taught Niema, who has her sights set on a career in information technology, to be patient and methodical in solving problems.

“You have to figure out which piece goes where and if you do it wrong, you have to figure out what happened and go back,” she explained. “It takes a lot of hard work, but I love it.”

“It helped me pay attention to detail,” agreed Cadet Kenneth Cruz, who hopes to study 3D printing in college and perhaps become a video game designer.

It was also a confidence-builder for Kenneth and his classmates.

“Being in this class, it helped me understand that you can put your mind to anything,” he said.

The 3D ThinkLink Initiative gave Cadet Gerry Rubi, who plans to be a civil engineer, the opportunity to get creative with technology.

“One of the main things it taught me is there’s a lot of ways to do one thing,” he said.

Gerry took a 3D engineering class at his previous school, but was only able to look at his designs on a computer screen.

“We never got the chance to physically print it out and be able to hold it and say we created that,” he said.

The class at Capital Guardian allowed him to come up ideas for objects, design and print them and make revisions until he was satisfied with finished item. Gerry likened it to the difference between “drawing a picture and bringing the picture to life.”

YouthQuest’s 3D ThinkLink Initiative was launched at Maryland’s Freestate ChalleNGe Academy early last year and expanded to Capital Guardian in the fall. The National Guard Youth ChalleNGe Program operates these residential academies where dropouts get a second chance to earn a high school degree and prepare for employment or continued education. The ChalleNGe program in South Carolina will start 3D ThinkLink Initiative classes in a few weeks.

If you would like to make a tax-deductible contribution to support this unique STEM education project, click here to donate or contact us at info@youthquestfoundation.org or (703) 234-4633.

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