There is enormous demand from across industry today for microscopic thermoplastic components with exacting micron tolerances and high precision geometries. In addition, lead-time pressures are commonplace these days in many industrial sectors, and so the concept of so-called concurrent engineering is standard, with the idea of “over the wall” product development being replaced by different “departments” working in parallel.
As such, when locating a specialist micro moulder, it is important to find one with the not just the wherewithal to achieve exacting micro tolerances, but also expertise at the design, tooling, manufacture, assembly, validation, and measurement stages of the micro product and component development process. This will ensure that the requirement for lengthy and costly design reiterations will be minimised, and so micron tolerances can be achieved cost-effective and in a timely fashion.
MICRO INJECTION MOULDING
Micro moulding is an art form honed over many years of expertise and troubleshooting, and it is vital that micro moulders have the business culture, personnel, and equipment in place to provide the service necessary to ensure a successful project outcome. Micro moulding for OEMs from a variety of industry sectors requires the ability to cater for low, medium, and high volume runs in a variety of different materials, all requiring different levels of validation. Micro moulders must also have expertise in handling, storing, and processing often extremely expensive and sensitive materials that in many instances will be used in safety critical applications.
The transition from injection moulding machines that can effectively produce “small” parts, and machines that can produce “micro” parts and features is important, and micro moulders must be able to utilize state-of-the-art equipment designed for exacting micro applications.
The necessity for the degree of control and repeatability needed in micro manufacturing requires the moulding press to be equipped for such precision. Traditional machines tend to struggle to maintain accuracy the smaller the part dimensions often adding additional processing struggles. So saying, micro injection molding machines — which may be manufacturing parts with weights less than 0.005g — can not only handle much smaller geometries and tolerances, but have a positive effect on material usage, residence time, and consequent material degradation common on larger presses.
MICRO TOOL FABRICATION
It is in the area of tooling for micro moulded parts that time and money can be wasted if the micro moulder does not have the expertise required. Tooling for micro moulding projects does not require an extrapolation of the rules governing tooling in traditional injection moulding. Features in micro moulded parts often exceed the allowable tolerances in traditional injection moulding, and similar issues are confronted in the areas of venting and tooling mismatch. Micro moulders must be in a position to employ an array of moulding technologies, including the latest CNC machining technologies, and also — as is often required — EDM
Other tooling issues specific to micro moulding are requirements for an understanding of polishing for micro-mold cavities, and the heating and cooling implications when dealing with extremely thin steel inserts that can be negatively affected by temperatures involved in many molding applications. In addition, as many micro moulding applications use high temperature, high performance materials, such as bio-resorbables, liquid crystal polymers, and PEEK, it is necessary to use and understand the nature of tooling materials such as stainless steel rather than traditional tool steels which may not be able to withstand the high temperatures necessary, and can corrode.
PROCESS CONSIDERATIONS
Process parameters in micro moulding are different in many ways from traditional injection moulding, but key is an understanding of the balance between melt temperature, injection pressure, and injection velocity and their effect on dimensional accuracy. In addition, attention must be focussed on micro moulds that in many instances require mold alignment to less than 5 microns, and with gate diameters that are typically anything from 60 to 200 microns. Proper venting and runner design are also critical steps for the process to be as efficient as possible.
Due to the often critical nature of some micro moulded parts and products, it is often necessary to manufacture under cleanroom conditions. With extremely exacting quality and traceability systems, complete control of the entire manufacturing process is required, and adherence to the parameters set out in ISO 9001 ro ISO 13485 can be hugely important, setting out the requirements for a comprehensive quality management system for the design and manufacture of safety critical components.
QUALITY CONTROL
One thing that makes micro moulding supplier choice a key concern in the design to manufacturing cycle is the increased pressure in the area of quality control. Quality control and high-quality requirements are characteristic of many industrial sectors today. This is a direct reflection of the fact that micro manufactured components in numerous industrial applications are now performing critical functions, and so failure rates — even in high volume mass manufacture — must be zero. This not only requires painstaking attention to manufacturing process control, but also demands that focus is maintained on quality control procedures and validation.
COST-EFFECTIVE & REPEATABLE MANUFACTURE
It is unsurprising that industry should take advantage of the possibilities that exist through the judicious use of micro manufacturing technologies and techniques today. Micro injection moulding, for example, facilitates the cost-effective and repeatable manufacture of small or micro products to extremely tight specifications, or larger parts with tiny features. In general, where possible, moulded products are replacing machined components. The primary advantage of micro injection moulding over micro-machining being cost, micro injection moulding taking no time at all to mold components in relatively low-cost materials compared to machining.
Micro moulding also facilitates the manufacture of extremely complex geometries and represents a dimensionally stable production process with no particle contamination, and often a better surface finish.
For OEMs seeking to take advantage of the possibilities that exist today for the manufacture of small to micro plastic parts, partner selection is vital. As well as assessing the nature of the equipment that a micro manufacturing partner has in-house (this including not just processing equipment but handling, assembly, and inspection equipment as well), of paramount importance is finding a supplier with an intimate knowledge of the process and the specific requirements of different industrial sectors. Accumold's expertise with small and micro-sized injection molding is an ideal fit for an array of industrial sectors that require precision thermoplastic components with dimensional stability.
For all industry sectors, Accumold’s pre-eminence in micro mould tool design and fabrication is also extremely important, as this is the key stumbling block as OEMs attempt to enter the micro moulding arena. Accumold has in-house mould building capabilities, with cross-functional teams of designers and toolmakers working together to fabricate tools that are capable of producing production-ready parts the first time. This reduces the likelihood of multiple and costly design iterations and tool redesign.
SUMMARY
Micro moulding projects are often highly strategic, highly complex, and also expensive, so it is vital that OEMs carefully select a micro moulding partner with the expertise and depth of knowledge required to navigate often difficult decisions in material and process selection. Only through careful supplier selection can OEMs ensure that they are working with a micro moulding partner that has the capabilities and values needed to ensure optimal manufacturing outcomes.
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