In complex surgeries such as orthopedics and neurosurgery, a variety of different surgical tools are often used. To help doctors quickly access different surgical instruments according to the procedure during surgery, customized precision surgical instrument boxes are particularly critical. FEELTEK’s 3D dynamic focusing technology also provides powerful support for medical staff in this field.
Project Background
Component size: 750*550mm
Laser source: JPT 50W MOPA fiber laser
Working area: 800*800 mm
Raw material: 316 medical stainless steel
Core Requirements:
1. It is capable of completing the engraving of outer contour lines for various surgical instruments within the large processing format of 600×600mm in one go within the specified time, and ensuring the processing accuracy of the lines throughout the process.
2. One-shot forming is required, and repeated engraving is not allowed.
Why need FEELTEK 3D laser processing knowledge:
1. Functional Durability & Surgical Safety
Traditional printed markings fade over time, weakening the instrument box’s labeling function and significantly increasing the risk of incorrect instrument handling, directly threatening surgical safety.
2. Sterilization & Cleanliness
Printing leaves ink residues that adhere to instrument surfaces, interfere with sterilization, reduce effectiveness, and create hygiene hazards—failing to meet the medical industry’s strict sterilization standards.
3. Large-Size Adaptation
Traditional printing only supports small-area marking. As surgical instruments grow in size, conventional processes face challenges in meeting modern large-size marking needs.
This case provides valuable insights for solution development in the ultra-large-format metal marking industry and similar applications.
Post time: Apr-22-2026