Gearlab Engineer Uses Force Sensors to Test Paddle Strength

Gearlab Works Toward Universal Standard for Stress Testing Paddles

Gearlab Works Toward Universal Standard for Stress Testing Paddles

Taipei, Taiwan, April 24, 2019Gearlab, pioneer of the first modern Greenland-style paddles with exchangeable tips, has partnered with engineer Declan Nowak to develop a mechanism to measure the forces on a carbon fiber Greenland-style paddle in the water, allowing Gearlab designers to increase paddle strength and efficiency.

“In the industry, there is no set standard for testing stress placed on the paddles,” says lead designer and co-founder, Henry Chang. “All Gearlab products go through systematic and rigorous research, usability analysis, and field testing. As part of that process, we needed a way to measure how much force is in each stroke and determine the strength-to-weight ratio.”

In consultation with engineers at Gearlab’s design laboratory in Taiwan, Nowak designed an Arduino-powered sensor that records the force exerted by a paddler’s hands on a paddle. An Arduino is a small lightweight microcontroller that is perfect for data-recording applications because it records information to an SD card.

“Using the sensor, I was able to determine the maximum force a paddler is likely to apply in ideal paddling conditions,” Nowak explains. “By knowing the stress a paddle can withstand in controlled lab tests and what the average force of a paddle stroke is, Gearlab can ensure that every paddle will handle tough conditions and meet customer expectations.”

As a result of this collaboration, Gearlab applied these results in developing the new Kalleq paddle (from the Inuit word for lightning) to be released this spring. The new Kalleq paddle, which is even lighter in weight than other models, offers a new sharper edge that improves paddle efficiency in the water, as well as paddling stability. The Kalleq has a redesigned internal carbon fiber structure that offers greater strength and durability in harsh conditions than previous models. And Gearlab‘s signature exchangeable tips are smaller and the blade slightly wider than previous models.

With these innovations, the user can go farther and faster, with less stress to the shoulder and arm joints. The tests ensure that as the paddles become lighter, they maintain Gearlab‘s rigorous durability standards.

©paddlerguide.com

 *To simplify the graph, no data is recorded when the sensors registered a force of zero.

** While the analysis states that the units of kilograms are a force, the paddle is actually moving the mass of water.  The force on the paddle will depend on how fast the paddler is accelerating. For the purposes of this experiment, I assumed that the paddler’s acceleration was the same as the acceleration due to gravity—which is significantly more than the rate a paddler would be accelerating. 

Nowak says the next step will involve refining the sensor system and analyzing paddle strength using computer models in various water conditions. He also plans to put the new flagship Kalleq paddle to further tests this summer with Gearlab’s chief engineer, Chung-Shih Sun, on a 740-mile expedition on the historic Northern Forest Canoe Trail through the Northeastern United States and Canada.

In the future, Nowak aims to work with Gearlab to establish a universal metric for paddle companies.

Gearlab Works Toward Universal Standard for Stress Testing Paddles
Gearlab, pioneer of the first modern Greenland-style paddles with exchangeable tips, has partnered with engineer Declan Nowak to develop a mechanism to measure the forces on a carbon fiber Greenland-style paddle in the water

“While each kayak paddle company has its own internal standards for product development, Gearlab is working toward establishing a universal standard,” Nowak says. “This new standard will allow the consumer to compare the strength of paddles manufactured by different companies, the strength of various lengths and widths of Greenland paddles, and even the strength of different types of paddles—such as Euro blades versus Greenland paddles.”

For more detailed information on Nowak’s Arduino-powered force sensor and field testing, go to gearlaboutdoor.com/PaddleForceTest. 

About Gearlab:
For the past eight years, Gearlab has designed and manufactured Greenland-style carbon fiber paddles for ocean kayakers around the world. Created by a team of award-winning industrial designers and outdoor enthusiasts, the paddles are adapted from indigenous Inuit designs. Greenland paddles provide a long range, efficiency, and precision while reducing injury and fatigue. Made from 100% continuous carbon fiber material, Gearlab perfects thousand-year-old ergonomics with advanced material strength and durability. Gearlab paddles will open up a new realm of  adventure for both weekend kayakers and expert paddlers. Find out more about the benefits of Gearlab paddles at  www.gearlaboutdoor.com.

For the past eight years, Gearlab has designed and manufactured Greenland-style carbon fiber paddles for ocean kayakers around the world. Created by a team of award-winning industrial designers and outdoor enthusiasts, the paddles are adapted from indigenous Inuit designs. Greenland paddles provide a long range, efficiency, and precision while reducing injury and fatigue. Made from 100% continuous carbon fiber material, Gearlab perfects thousand-year-old ergonomics with advanced material strength and durability. Gearlab paddles will open up a new realm of  adventure for both weekend kayakers and expert paddlers. Find out more about the benefits of Gearlab paddles at  www.gearlaboutdoor.com.

Contacts:  Mike Shih | Gearlab | mike.shih@gearlab.com.tw

Communications: Beth Cochran | What’s UP PR | Cochran@whatsuppr.com