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The yes Program is designed to foster the mechanical design ideas of those with a passion for engineering - whether you are a high school or college student, university professor, or team mentor. The program's goal is to support the design ideas of students and educate them on the merits and benefits of plastic components. Product donations are available to students and robotics competitions across the U.S., Canada and Mexico.
Seniors at Northeastern University used igus® dry-tech® products, including igus® linear slide tables and motor kits (motor, motor flange, coupling and screws) to complete their capstone project. The project was to design a motion system for confocal microscopy. Skin cancer is the most wide-spread cancer in the world, affecting millions each year.
The use of confocal microscopy has been a significant development in the field of skin cancer, allowing physicians to image skin cells in-vivo and perform diagnosis without performing unnecessary biopsies. This also significantly reduces diagnostic time.
The igus® motion systems allowed the Northeastern University students to perform repeatable positioning and smooth motion of a confocal microscope over the skin surface. Mosaic images were able to be generated on live tissue, a significant development in this field, and one that is leading to further work and research by the university.
In December, the project was presented to the Northeastern community as well as a panel of Alumni judges. They were selected as the project with the “greatest potential for impact.”
Motion System Testing
Motion System Mounted to Position-able Locking Arm
In September 2014, Rutgers University's School of Engineering Professor Dr. Howon Lee asked seven students from his senior design team to create a new 3D printer. The team set the goals that their printer had to be cost effective, use short print times and high resolution, and have an easy to use "LabVIEW" interface. Currently, cost is still a problem when it comes to 3D printing, keeping it out of reach for most home users. The Rutgers students' printer, on the other hand, has a total cost of only $600.
Through the yes (Young Engineer Support) Program, the Rutgers Engineering students were able to receive a donated linear actuator to be used in their printer's design. The linear actuator allows the printer's head to be raised and lowered.
The team's goals were all met in the printer's final design. Capable of printing layers as small as 100 microns extremely quickly allows for speed without compromising resolution. The print time depends solely on the total height of the printed object, unlike other printers which are dependent on the volume of the print.
The printer has expected potential in the medical field, in applications such as casting broken limbs.
Mid-printing Eiffel Tower
Printed Honeycomb box with Rutgers R
The 2015 Rube Goldberg Machine Contest® has opened for registration to international collegiate, high school, and middle school teams. This is the fourth consecutive year for igus® as a nationwide product sponsor of the event.
The 2015 contest, entitled “Erase a Chalkboard”, is aimed to encourage critical thinking and problem solving skills in a non-traditional learning environment. Students will design and construct Rube Goldberg Machine Contest®, which are overly complex contraptions, using chain-reaction steps designed to accomplish the simple task of erasing a chalkboard
This year, teams will have the opportunity to use, igubal® flange and pillow block bearings, and drylin® linear slides and aluminum shafting donated by igus. The students have a total of six weeks to design and build their robots and will then compete with their machines at local events across the U.S.
The Rube Goldberg Machine Contest® aims to inspire young minds through innovation, humor and unconventional thinking. igus® aspires to achieve a similar goal through its yes (Young Engineers Support) Program by donating products to engineering curriculum and competitions such as the Rube Goldberg Machine Contest®.
To learn more about Rube Goldberg, visit www.rubegoldberg.com or contact Kathleen Felix, CEO at (203) 227-0818 or via email at firstname.lastname@example.org.
This summer, 18 students from Montreal competed from other student engineering teams from around the world, racing their wind-powered vehicles against the wind’s force at the prestigious Racing Aeolus Den Helder, held in Holland. Club Chinook ÉTS, from the Étole de Technologie Supérieure, a part of the University of Québec system, took first place in the competition, crushing world-records in the process. Team Chinook’s wind-turbine powered vehicle, which was built entirely by the students, even some 3D printed parts, was able to utilize 96.91% of the wind’s force to travel against the wind at top speed. The team won a total of 4 awards, including 1st place at Racing Aeolus, fastest race, and the first ever Gerhard Broers Innovation award, given to the team that uses the most sophisticated construction of their vehicle. The design of wind-powered vehicles comes from a growing demand for alternatives offered by renewable and sustainable energy sources to gradually replace fossil fuels. Chinook holds a strong belief in technical innovations, teamwork, ambition, and passion, all of which characterize their team. In Chinook’s vehicle, students utilized igus parts they received from the yes Program, including DryLin T low profile linear guides, and Chainflex continuous-flex cables. These products were donated to the team by the yes Program, which supports student engineers and their mentors across North America.
Last week, igus® attended the FIRST® Robotics Regional Championships in Boston, MA, at the Agganis Arena at Boston University. igus® was lucky enough to be able to speak with teams in their “shops” set up in rows on one half of the arena’s basketball court, while the competition field filled the other.
Student teams and their coaches and mentors were working diligently to ensure their robots were ready for the “Aerial Assist” themed competition, where the student designed/built robots are required to collect or catch large balls, then shoot them through a number of targets for points.
While walking through the aisles, we were able to spot igus® components on a number of robots, and after asking teams, we found even more igus® parts hidden within. Justin Foss, a mentor for team #558 from New Haven CT said that his team is a big fan of igus®, “We always use igus® in pivots,” he explained while his team worked behind him; “we use them every year, we never use metal.” he said.
While many teams use igus® from year to year in pivoting applications, some found igus® parts to play a more crucial role in their robotic design. Luke Yost, a student on FRC Team #811 showed the points on his team’s robot that are utilizing igus®’ igubal® self-aligning bearings in its catapult system, “Without these parts we wouldn’t have a launcher!” And in competition where launching equals points, igubal® has really been a game-changer.
Josh Keaton, a coach for team #4925 helped his team design their robot, but they were struggling to find a way to create a specific linear movement. Keaton was debating using a drawer slide when his team’s kit of parts donated by igus® was rummaged through, and Keaton asked “is that a slide system?!” The drylin® linear slide helped the team’s robot move as designed, and according to the team “it works great!”
igus® donates kits of parts to all teams participating in the FIRST® Robotics Competition each year, being named a Crown Supplier for the competition in 2014. We are looking forward to attending the World Championships next week in St. Louis, Missouri!
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