The next generation of surface profilometer for in-process inspection

Published
January 22, 2019 - 10:45am
The next generation of surface profilometer for in-process inspection

Article from the National Research Council of Canada and Fives

As the aerospace industry in Canada and around the world continues to increase its use of automated composite manufacturing techniques to produce large aircraft components, the industry is eager to find solutions to manufacture reliable, safe, and cost effective composite structures. The National Research Council of Canada (NRC) and Fives are working together to improve the efficiency of manufacturing composite parts. They are developing an advanced profilometer that will provide faster and more accurate part inspection.

Based on an innovative optical technology, the advanced profilometer for composite placement shows considerable advantages over existing inspection technologies used for the same purposes. This groundbreaking in-process inspection technology will help manufacturers meet strict standards by providing superior measuring information without limiting the process functionality. These faster, better measurements will speed up manufacturing processes, reduce the risk of errors, and help composite manufacturers be more competitive.

Fives has already started the last testing stage of the next-generation profilometer with customers and expects to begin commercializing the technology before the end of 2019. The NRC and Fives will continue to work together to advance this technology and bring innovative manufacturing solutions to the aerospace industry.

Quick facts

  • Manufacturing makes up nearly half of Canada's aerospace sector. Canada is home to more than 700 aerospace companies employing over 85,000 skilled professionals. The aerospace industry contributed $12.6 billion to Canadian gross domestic product (GDP) in 2017.
  • The supports industry, particularly the aerospace sector, in developing, demonstrating and implementing next-generation, cost-effective manufacturing methods.
  • Fives designs and supplies machines, process equipment and production lines for various industrial sectors and is a major supplier of composite manufacturing equipment to the aerospace industry. The engineering group employs close to 8,700 people in about 30 countries, mainly in Canada, the United States and Europe. The Metal Cutting and Composites group that worked on this project has over 1,100 people globally.

Quotes

Iain Stewart, president, National Research Council of Canada: “The National Research Council of Canada (NRC) is proud to work with Fives to advance the profilometer technology, pioneered by a multidisciplinary NRC team. Our expertise, paired with Fives’ forward-thinking methods, will help achieve the original vision of developing an innovative, high-impact solution that enhances the efficiency of automated composite manufacturing and facilitates the digital transformation of the process. ”

Steve Thiry, president and CEO of Fives Machining Systems Inc.: “This is an exciting project for Fives as it demonstrates our commitment to advancing state-of-the-art composite application technology with productivity driven innovations, for both new and existing installations.”

Erik Lund, president and CEO, Fives Lund: “We have a strong history of supporting innovation. By joining with the National Research Council of Canada, we are once again contributing to the evolution of cutting-edge technologies for the aerospace and defense industries.”

 

Related Glossary Terms

  • composites

    composites

    Materials composed of different elements, with one element normally embedded in another, held together by a compatible binder.

  • in-process gaging ( in-process inspection)

    in-process gaging ( in-process inspection)

    Quality-control approach that monitors work in progress, rather than inspecting parts after the run has been completed. May be done manually on a spot-check basis but often involves automatic sensors that provide 100 percent inspection.

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