Automating the fixturing process – Med-Tech Innovation
According to the McKinsey Center for Government, a medical device manufacturer experiences an average 10% drop in share price after a single, major product recall event. Remaining compliant is key to avoiding recalls, so providing ridged support during medical device quality testing stops unwanted movement and ensures testing is compliant.
The importance of fixtures can’t be overstated, and neither can the benefits delivered by automated metrology, which can remove thousands of manual interventions from even a simple manufacturing process. This produces significant cash savings and allows operators to focus on more profitable tasks.
Medical device manufacturers understand the importance of a reliable manufacturing process, which is fully compliant with industry regulations, such as the biocompatibility regulation ISO 10993. Naturally, this compliance must include the fixtures that secure the components during quality testing to ensure ISO/IEC 17025, which requires competent testing and calibration, throughout the whole manufacturing process.
When measuring small, intricate components, Original Equipment Manufacturers (OEMs) get the most accurate results quickly when the part under inspection is secured. Fixtures, for example, are key when inspecting medical components because they provide 360-degree access and keep them in place without exerting too much pressure and damaging the part. This is particularly important when using a touch probe as it requires access to all areas of the component for visual inspection and internal tactile probing.
These fixtures must also have an operator friendly design, especially in the medical industry, so parts can only be secured in one specific way, using methods like ‘Poka-Yoke’. These techniques can guarantee the measurements of components conform to the same standard as when it was qualified.
Choosing a fixture
OEMs have two choices of fixture, static or automated. Manual fixtures require operators to physically turn the fixture between each measurement, which can be a very time-intensive process. Both techniques have their place, but automated fixturing can deliver considerable benefits where it is suitable.
Consider the example of a medical device manufacturer making vials. The manufacturer uses a static fixture with four fixtures or ‘spars’, which require turning individually three times each measurement cycle. As a result, the operator must make twelve actions to complete one batch.
The manufacturer plans to run ten different batches, so the operators must carry out 120 operations to complete quality testing. The time-intensive process is intensified further when the manufacturer produces ten different vials that require individual quality testing, creating 1,200 actions for the operator. Ultimately, the manufacturer must employ more operators to fulfil the manual requirements of testing and avoid bottlenecks during production.
Fortunately, automated fixtures take out the time-consuming process of manually turning the spar between measurements. The automated fixture integrates a high precision rotary indexer that automatically turns the parts. The operator does not have to wait for the measurements to take place, so can carry out jobs that require human intervention, such as data analysis.
Bespoke fixturing solutions
Manufacturers will not always be able to find an off-the-shelf solution that suits their application. If the part has a complex geometry, like a hip joint, it can become unstable in a standard modular fixturing system, which will alter the accuracy of the measurement.
In these circumstances OEMs can work with a fixturing provider to create a bespoke solution that securely holds the part, reducing the risk of human error and improving accuracy. A specialist fixturing provider can also create bespoke solutions to ensure the process is compliant with medical regulations. Sourcing external expertise provides manufacturers with the R&D, testing and production skills that avoid the risk and time-consuming process of designing the fixtures in-house.
Creating a bespoke automated fixture is only a small part of the metrology process. OEMs can further reduce lead times installing robotic arms to pick and place medical parts on the fixture, further removing the need for manual intervention.
Metrology providers can also integrate automated SPC software with the fixturing process to automatically measure the part and store the data in a single, centralised data collection point. Engineers can review real-time data at any point in the production process and analyse it to prove compliance and accuracy. The software also automatically produces first article inspection (FAI) reports at the click of a button that manufacturers can share with stakeholders.
Contacting a metrology one stop shop allows OEMs to have an end-to-end turnkey solution to their metrology process. Metrology providers can assess quality testing needs and make recommendations, create the required fixtures, validate the parts based off industry regulations and deliver, calibrate, and install the technology and software.
Medical components must be vigorously inspected to avoid recalls and ensure medical device companies have reliable components.