SCIENCE

With the widespread adoption of composite ice hockey sticks over the past decade, the frequent breakage of these sticks is all too common. Not only do these breaks drastically change the game at the professional level, they also lead to exorbitant costs for players. Reliable and durable hockey sticks can have a large impact on the game itself, on professional and recreational players, and of course on the wallets of parents whose children aim to be hockey stars one day!

Hockey Robotics is a company that has pioneered the concept of robotic testing for the hockey industry. It specializes in hockey stick design, performance, and durability testing using an advanced hockey stick testing robot. Hockey sticks most often break during a slap shot; therefore the company’s goal was to produce a robot capable of properly mimicking the professional hockey slap shot. The Hockey Robotics team, with support from industry partnerships, manufactured the SlapShot XT, a dynamic hockey stick robot capable of delivering a slap shot at speeds up to 110 mph. Hockey stick manufacturers are now using the robot to test their designs in a highly repeatable and controlled manner, providing evaluation data never before available.

The SlapShot XT is the first ever robot capable of executing a slap shot like a professional hockey player. The robot’s integrated advanced electronics and software allows the gathering of data never seen before, enabling even more detailed analysis of the results to support further refinements in hockey stick design. The SlapShot XT is bringing about revolutionary changes in the way hockey sticks are developed.

MapleSim played a critical role in the design and development of the SlapShot XT. MapleSim is a physical modeling and simulation tool from Maplesoft built on a foundation of symbolic computation technology. It efficiently handles all of the complex mathematics involved in the development of engineering models, including multi-domain systems, plant modeling, and control design. MapleSim allowed Hockey Robotics to efficiently and accurately simulate the coupled dynamic electrical and mechanical behavior of the equipment. MapleSim enabled the concurrent study of the flexible body deformation and rigid body motion of the machines, which is a very difficult, time-consuming, and error-prone task when done by hand. It also allowed them to quickly prototype the designs and investigate the coupled motion of the mechanisms very easily.

"This technology will improve the future of the game," said Guy Lafleur, NHL Legend.

Read the full article and watch the video: Game-Changing Hockey Sticks with Help from MapleSim.

Want learn more? 

Check out MapleSim during a one hour webinar on Wednesday, October 26th at 2:00 pm EST. Click here to register.