Tech papers
Member Since 2017
Motion Solutions has one driving purpose: to provide our customers with the engineering services, solutions, and products they need to best achieve their goals. With more than 20 degreed engineers, we have deep domain expertise in the subject of motion. We work with clients across a continuum, ranging from application support on their existing projects to extensive collaboration on complex clean-sheet designs. As a result of deep relationships with our portfolio of marquee partners, we offer an extensive array of components, from simple hardware to cutting-edge technology. It’s our ability to adapt to and deliver on customer needs that best defines us as an organization.
Content Filed Under:
Industry:
Aerospace and Energy/Solar/Wind PowerAerospace , Energy/Solar/Wind Power , Factory Automation , Food & Beverage , Laboratory Equipment & Automation , Machine Tool , Medical Devices , Metals , Military/Defense , Motion Control Component Manufacturing , Oil and Gas , Packaging , Paper , Pharmaceutical , Robotics , Semiconductor , and Wood Products/Lumber
Application:
N/A
See More
Blog Post: Selecting the Right Linear Actuator
POSTED 10/02/2017
| By: Shawn Hakim, Sales Engineer
ALISO VIEJO, CA -Building a successful linear motion system starts with choosing the appropriate actuator. Between the different sizes, technologies, and qualities, hundreds of options exist. The trick is to winnow down to the actuator that will deliver the best results. Fortunately, that is not as difficult as it sounds. The requirements of the application will reduce the set of possible actuator solutions and the constraints of the project will determine the best fit.
The process starts with considering a series of key factors:
Speed
Speed is an important factor to consider when selecting an actuator. Although screw-type actuators are effective, economical components, at very high speeds, they suffer from a phenomenon known as screw whip, in which the screw bows out as it turns. Screw whip causes vibration and premature wear.
The threshold for screw whip, called the critical speed, depends upon the dimensions and material of the screw. Critical speed, can be calculated analytically using well-known equations. If the speed is too high for the use of a screw-type actuator, consider a linear motor or a belt drive actuator. . .
Visit our website to view the entire blog post!