The growing need for smaller electronic parts presents real challenges for manufacturers, including in processes like micro drilling, which involves producing holes smaller than 3 mm (0.118 inches) in diameter. PHOTO courtesy Sandvik Coromant
By James Thorpe, Global Product Manager, Sandvik Coromant
Steve Jobs’ philosophy, “We’ve got to make the smalls things unforgettable,” is getting truer each year as big electronics players like Intel, Samsung and TSMC squeeze more functionality into smaller devices and printed circuit boards (PCB). But this progress presents challenges in applications like micro drilling, as manufacturers must strike a balance between quality and productivity when machining tiny components.
According to Fortune Business Insights, the global market for electronic manufacturing services (EMS) is expected to rise from $504.22 billion in 2022 to $797.94 billion by 2029. At the same time, electronic parts are getting smaller. The need for shrinking digital circuits is clear, as they can do more processing in less time and pack more storage space in the same volume. Consumers are also demanding higher resolution screen displays, which are achieved with smaller and more numerous pixels.
The growing need for smaller electronic parts presents real challenges for manufacturers, including in processes like micro drilling, which involves producing holes smaller than 3 mm (0.118 inches) in diameter. Micro drilling techniques are used to produce components ranging from aerospace components, hydraulic valves, watch cases and medical devices to surgical instruments, electronics, actuators, sensors, navigational systems and more.
But what are the challenges? In particular, manufacturers are increasingly required to machine small, intricate components from difficult-to-machine materials like Inconel, stainless steel, ceramics and titanium. It can be difficult to machine these materials cost-effectively while maintaining the utmost quality ― indeed, flawless surface finishes are as important for aerospace components as for fiber optic connectors.
To compete in the growing EMS markets, manufacturers must maintain the highest levels of quality control, while also reducing any issues in the production process that can cause excess scrap or downtime. How can manufacturers rise to these challenges, while remaining competitive? The answer lies in high-performance drilling solutions.
Manufacturers have found that micro drills can exhibit inadequate tool life when machining tough workpieces, like those made from ISO M materials. In these cases, the design, geometry and type of coating of the drill significantly impacted their performance and durability.
To provide an example, Sandvik Coromant has responded to the challenge by introducing two new micro drills: CoroDrill 462 with -XM geometry and CoroDrill 862 with -GM geometry. The tools are designed for precision drilling in industries that deal with small parts such as medical, aerospace, automotive, general engineering, electronics and watchmaking, among others. This range of micro drills is available to support machining in all ISO materials: P, M, K, S, O and H. The new geometries offer a wide range of cutting diameters and lengths.
In other words, the quality of the micro drill makes all the difference to quality of the final machined product.
Sandvik Coromant’s engineers recommend that customers seeking to drill micro-sized holes in notoriously difficult-to-machine materials, such as titanium, aluminium, glass and ceramics, should consider polycrystalline diamond (PCD) coating for extended tool life in these demanding applications. Based on successful tests of PCD drills on micro parts made from platinum, Sandvik Coromant has found that PCD is up to 100 times more wear-resistant than solid carbide, is also more accurate and can produce tighter tolerances than solid carbide tools.
Coolant is another important consideration. As with macroscale applications, it’s also critical to have quality coolant delivery to effectively evacuate chips when performing deep-hole drilling with micro tools. The immediate benefits of coolant include extended tool life and reduced risk of chip jamming.
These features have clear advantages for manufacturers’ overall operational expenditure, and can also help manufacturers strike a balance between quality versus productivity when micro drilling tough materials like ISO M. In doing so, to paraphrase Steve Jobs, they can ensure the small things are unforgettable for all the right reasons.
To find out more about the CoroDrill 462 with -XM geometry and the CoroDrill 862 with -GM geometry, visit Sandvik Coromant’s website.