Lot Marking Pins – Accurate Batch Identification & Traceability Solutions
High-precision lot marking pins engineered for clear batch coding, reliable identification, and long-lasting performance in die casting applications.
Precision Engineered Lot Marking Pins
Lot marking pins are essential components used in die casting moulds to mark batch or lot numbers for product traceability and quality control. At Accurate Engineers, we manufacture precision-engineered lot marking pins designed to deliver clear, consistent, and durable markings.
Our marking pins are produced using advanced CNC machining and EDM processes to achieve sharp engraving and accurate dimensions. Built with high-quality tool steels, these pins are designed to withstand high temperatures, pressure, and repeated usage in demanding die casting environments.
KEY FEATURES
- High precision engraving for clear batch marking
- Excellent resistance to heat, wear, and pressure
- Long-lasting performance under repeated use
- Consistent and accurate marking results
- Customizable designs for lot and batch coding
APPLICATIONS & MATERIALS
Our lot marking pins are widely used in automotive, aerospace, industrial, and aluminum & zinc casting applications, including high-pressure die casting moulds. We use premium tool steels such as H13, D2, DIEVAR, and high thermal conductivity steels to ensure durability and performance. Surface treatments like nitriding and PVD coating enhance wear resistance and extend tool life.
MANUFACTURING & QUALITY
We follow a precise manufacturing process including CNC machining, engraving, heat treatment, grinding, VMC & EDM machining, and 3D inspection using ATOS GOM technology. Strict quality checks, dimensional verification, and detailed inspection reports ensure high accuracy and consistent marking quality.
Looking for High-Quality Lot Marking Pins?
Partner with Accurate Engineers for precision-engineered lot marking pins that ensure reliable traceability, improved quality control, and consistent performance in your manufacturing process.