If you need precision metal manufacturing expertise, you’ve come to the right place! Our photochemical machining (PCM) process is ideal for a wide range of metal components applications, but our team has unique experience in EMI/RF shielding, micro screens for separation, particle reduction and filtration, and custom metal card manufacturing. Learn more about some of our key industries below.
When compared to stamping or forming manufacturing methods, our photochemical machining has efficiencies built into every step of the process to produce precise and complex metal bipolar plates and meshes with ease.
You need a screen that was built to last. Our process allows for single piece designs that do more for longer, allowing you to maximize your production without limitations. Simply put, our micro screens are stronger, more durable and more rigid than alternatives like wire mesh, which means higher yield and less downtime.
Switzer’s precise process for etching traces on metal elements enables heater manufacturers to better control temperature, while also meeting both dimensional and resistance requirements. Our tooling is generated in-house under climate-controlled conditions, engineered and plotted to match your specific application – from deicers on an airplane to heated mirrors on a car.
Switzer’s chemical etching process for flow field plates and bipolar plates offer superior electrical and heat conductivity to power a variety of applications including cars, UAVs, forklifts, auxiliary power units and more.
Metal core credit cards and other custom metal cards are the best way to give your customers the look and feel of luxury with a custom design that still meets all standard regulatory requirements. Our EMCORE technology was designed for forward-thinking customers like you.
Switzer’s chemical etching process is a unique, but extremely well-suited method for automotive interior trim manufacturing. It allows automotive designers and manufacturers the opportunity to cost-effectively create highly intricate, attractive and functional designs.
When compared to stamping or forming manufacturing methods, our photochemical machining has efficiencies built into every step of the process to produce precise and complex metal bipolar plates and meshes with ease.