The Key to Success: Quality in Micro Molding
Micro molding is one of the most advanced and challenging disciplines within precision manufacturing. As industries such as medical, electronics, automotive, and optics demand increasingly smaller, more intricate components, the pressure on micro molders to deliver high-precision, high-quality parts has never been greater. Quality is not just a desirable attribute in micro molding, it is an absolute necessity. This article explores the fundamental need for an unwavering focus on quality in micro molding and highlights key perspectives from Accumold, a leader in micro molding innovation. The article aims to show manufacturers, engineers, and procurement professionals the importance of prioritizing quality when selecting a micro molding specialist.
The Challenge of Miniaturization
As micro molding technology advances, parts are becoming increasingly smaller, often with features that are difficult to see with the naked eye. According to Cara Bloom, Senior Quality Engineer at Accumold, “as parts get smaller, generally the tolerances get smaller as well.” This presents a unique challenge, as maintaining consistent quality at such minuscule scales requires extreme precision. The margin for error is practically non-existent.
Micro molded components are used in applications where failure is not an option. Whether it is a microfluidic medical device, a micro-optical lens, or a high-frequency RF component, even the slightest deviation from the intended design can compromise performance, functionality, or even safety. This means manufacturers must invest in sophisticated metrology and validation processes to ensure that every part meets exact specifications.
Quality as an Integral Part of the Process
At Accumold, quality is not an afterthought, it is embedded into every stage of production. The company’s vertically integrated approach ensures that validation, metrology, and quality control are seamlessly integrated from the initial design phase through to final production. A key aspect of maintaining quality in micro molding is having the right metrology tools. “We need to have equipment that can handle the precision and accuracy
needed by these challenging projects,” says Bloom.
They use Zygo’s NewView 8300 Optical Profiler, a sub-nanometer precision non-contact white light interferometry instrument, for demanding applications. Critical parameters like lens prescriptions and flatness values, some of which have tolerances as small as tenths of a micron, may be measured thanks to this technology. In addition to optical metrology, they use a variety of cutting-edge instruments, such as Zone3 software, which enables CAD model-based part evaluation, Optical Gaging Products‘ (OGP) multi-sensor equipment with rotational, touch trigger, and laser interferometry. To further improve accuracy and efficiency, Keyence devices with pattern recognition software enable the inspection of microparts with little fixturing.
Measurement: A Necessary but Often Overlooked Consideration
One of the biggest mistakes companies make when selecting a micro molder is assuming that if a manufacturer can mold a part, they can also measure it effectively. However, micro metrology presents its own unique challenges, if you cannot measure it, you cannot make it. This highlights the importance of integrating measurement development into the early stages of product development. Accurate and repeatable measurements are essential for process validation, ensuring that molded parts consistently meet design intent. At Accumold, measurement development and Gage Repeatability and Reproducibility (Gage R&R) studies are key components of the company’s quality assurance process. By working closely with customers on design for manufacturability (DFM) and design for micro molding (DfMM), they helps optimize part designs for both moldability and metrology.
Compared to conventional injection molding, micro molding requires much more work to achieve quality.
Part size and tolerances present a significant obstacle. Micromolded components include characteristics that need to be magnified 10 times or more to be seen, and they can be sized in microns.
Non-contact techniques like laser scanning, white light interferometry, or high-resolution vision systems are necessary for measuring such tiny components. Part fixturing presents another difficulty. Accurate fixturing is necessary to guarantee repeatable and reproducible measurements. They have in-house-designed fixtures made of custom steel or 3D-printed plastic that securely hold items while they are being measured, guaranteeing precision and consistency.
Another problem is surface roughness, particularly in fields where surface polish is crucial, including optics and medical equipment. Delicate microparts’ surfaces can be altered or damaged by conventional tactile measurement instruments, hence non-contact metrology is the recommended approach. As was previously mentioned, They can assess surface roughness using white light interferometry without sacrificing part integrity.
Additionally, there is an ongoing discussion regarding in-lab versus in-process metrology. While traditional metrology was often confined to lab environments, modern micro molders increasingly integrate in-process metrology for real-time quality control. Accumold strategically assesses metrology requirements based on part complexity, volume, and tolerance levels to determine whether in-process or lab-based measurement is most
appropriate.
Continuous Improvement and the Future of Micro Molding Quality Assurance
Ensuring consistent quality in micro molding is an ongoing effort. As new metrology technologies emerge, micro molders must continually evaluate and adopt new equipment and methodologies to stay ahead. “We continually evaluate new equipment that may help us improve our measurements, either in efficiency or accuracy, as new metrology equipment enters the market,”Bloom explains. This commitment to continuous improvement ensures that they remain at the forefront of micro molding quality assurance. Additionally, automation is playing an increasingly vital role in micro metrology. Automated vision inspection (AVI) systems, integrated into molding processes, allow for rapid, repeatable inspections without human intervention. This reduces variability and increases throughput, ensuring that quality control keeps pace with high-volume production
demands.
For companies looking to leverage micro molding, the emphasis must always be on quality. It is not enough to select a manufacturer based solely on cost or turnaround time — quality must be the defining factor. When evaluating a potential micro molding partner, it is crucial to assess their metrology capabilities, ensuring they have the necessary equipment and expertise to measure parts accurately. Process validation should also be a key consideration, with quality control integrated throughout the entire manufacturing process.
Collaborating with a micro molder that prioritizes design for manufacturability and metrology optimization ensures that the final components will be both functional and precise. Furthermore, a commitment to continuous improvement and investment in advanced quality control methods are indicators of a reliable and forward-thinking micro molding specialist.
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