Waterjet metal cutting is a method that's capable of making precise cuts in a vast range of materials. But did you know that it's also being used in the medical field? In fact, this innovative cutting tool is helping medical professionals solve complex health problems in creative ways.
Waterjet metal cutting is a great tool for precision cutting of material without being affected by heat, making it a preferred choice in medical device manufacturing. This article explores the different applications of waterjet metal cutting in the medical field and how it is helping to improve the health of patients today.
Unlike traditional cutting methods that generate heat and can alter the material's properties, waterjet cutting operates under cold conditions. This is particularly advantageous in the medical field as it ensures the integrity of the materials used in prosthetic devices.
Common materials like titanium, stainless steel, and specialized plastics are frequently used in fabrication, and their properties should remain consistent to ensure durability and functionality throughout the lifespan of the prosthetic.
Moreover, the waterjet metal cutting technique offers high levels of accuracy and repeatability, which are critical when it comes to the creation of intricate components often found in prosthetic devices.
For example, the multiple-joint structure in a prosthetic hand requires each piece to fit together precisely, allowing for smooth movement and functionality. The waterjet's ability to cut complex patterns and shapes with high precision makes it a preferred method in the manufacturing of such critical components.
Medical Sensor Components
Medical sensors are intricate devices that monitor various physiological parameters such as heart rate, body temperature, and blood pressure in real-time.
Given their critical role in diagnostics and patient monitoring, these sensors need to be of the highest precision and quality. With its ability to make fine and detailed cuts, waterjet cutting has proven to be the ideal manufacturing process.
The waterjet cutting method can craft sensor components made from various materials, including those that are hard to cut. This is particularly important because many sensors require specific materials to function accurately.
For instance, blood glucose sensors need an electrode made with a specific metal to react with the glucose in the blood. With waterjet cutting, the process becomes more straightforward, allowing manufacturers to use a wider range of materials, including those that might degrade under other cutting methods.
While waterjet metal cutting has been around for quite some time, its application in the medical field is relatively new. This innovative method of precision cutting offers an ideal solution to difficult manufacturing problems. For more information, contact a company like Vested Metals.