"MATLAB is far and away the best development environment, with just the right combination of power and ease of use for engineering and scientific applications."
Dave Cogdell, Timken Research
For more than 100 years, The Timken Company has been designing and creating bearings for a variety of industrial applications, including drive shafts, disk drives, drilling rigs, rolling mills, and dental drills. Before reaching the market, however, the bearings must be subjected to numerous tests to ensure top quality and customer satisfaction.
The company’s research group refined and accelerated their testing processes using MathWorks tools. This helped Timken deliver high-quality products to the marketplace faster and meet their customers’ stringent requirements and specifications, such as improving correlation between bearing geometry and running torque.
“MathWorks tools provide us with a unified testing and analysis environment,” says Dave Cogdell, research specialist in the new product technology group at Timken Research. “Now, we can design and manufacture bearings that exactly meet our customers’ specifications and keep up with the high demand for our products.”
The new product technology group at Timken Research sought greater efficiency in their testing process by developing analyses and a methodology to ensure high quality of their tapered roller bearing line.
Used in automobiles, light and heavy trucks, and aircraft, the bearings must be built to accuracy within millionths of an inch to reduce the noise, vibration, harshness, and friction of rotating machinery.
To measure and analyze dynamic torque and error motions, Timken would need to test the bearings under real-world conditions and collect resulting data. Torque and error motions tend to vary based on design and manufacturing processes, so the bearings also would need to be tested to determine the relationships between these processes and performance.
Cogdell sought to produce the test results graphically, so his team could act quickly in optimizing their manufacturing processes. “We used to generate stacks of paper six feet high that nobody wanted to read,” explains Cogdell. “We really needed to produce a graphical representation of the test results.”
Using MATLAB and related toolboxes as a platform for data acquisition, testing, analysis, and visualization, Timken quickly measured and analyzed the bearings’ torque and error motions so the manufacturing team could deliver the highest quality product.
“Without MathWorks tools, I would have never attempted this project,” Cogdell says. “It would have been such a massive undertaking in any other language.”
First, Timken tested the bearings by controlling test instruments and collecting data using MATLAB and the Data Acquisition Toolbox.
For his test environment, Timken developed a customized test instrument manufactured by Professional Instruments Company. The instrument consists of an air bearing spindle, four capacitance probes, and a loading mechanism cylinder on a large granite slab.
Cogdell used MATLAB and the Data Acquisition Toolbox to control and communicate with the custom instrument and collect test data from industry-standard data acquisition hardware. The collected data was brought directly into MATLAB for analysis and visualization of the results.
For the hardware, they used a 16-bit data acquisition board to read the four capacitance probes and another to control the motor speed and pressure to the load chamber. They created a GUI with MATLAB to translate the test data and DC voltages into binary format for analysis.
Next, Cogdell calibrated the instruments and applied nonlinear regression techniques to the testing process using the Optimization Toolbox.
“The Optimization Toolbox let us quickly apply and then evaluate the performance of optimization algorithms from MATLAB,” says Cogdell.
Finally, Cogdell used the Signal Processing Toolbox to analyze the bearings’ wobbling and torque in the frequency domain. With the toolbox, he quickly analyzed the data and identified characteristics that were associated with manufacturing tolerance ranges.
Today, Timken uses the bearing analyzer as part of their quality assurance process to ensure high product quality.
To refine and accelerate the testing process of bearings
Use MATLAB and related toolboxes to create a unified environment for capturing, analyzing, and visualizing test data