ACADEMY

In precision manufacturing, reconciling miniature dimensions, high accuracy, and mass-production efficiency is a major challenge. CNC automatic lathes are the key technology that addresses this, enabling high-quality mass production of small components.

Material choice defines precision! Learn key machining tips for aluminum, stainless steel, and copper to ensure accuracy and stability.

From physical parts back to design!

Surface finishing isn’t just for looks—it defines precision. Learn how plating, anodizing, and coating affect CNC accuracy and how Heng Chang controls every micron.

Discover how heat treatment boosts metal hardness, stability, and lifespan — the secret to stronger, longer-lasting precision parts.

Machined parts are everywhere — from cars and electronics to medical and aerospace — powering the precision of daily life.

ISO 9001 turns quality from an inspection result into a management system.
By standardizing processes, ensuring traceability, and driving continuous improvement, precision machining companies can reduce errors, stabilize quality, and build stronger customer trust.

AS9100 improves traceability, process stability, and competitiveness for precision machining firms.

Even if materials look identical, machining behavior, tolerances, and process requirements differ. This is why distinct part numbers are essential.

Among various plastic processing methods, why use CNC lathe machining?
This article explains the advantages, challenges, and material selection of CNC plastic machining to help balance precision, cost, and lead time.

How to Choose Metal Manufacturing Methods: A Comparison of Casting, Forging, Powder Metallurgy, Stamping, and Machining in Terms of Cost, Precision, and Risk

Dimensions within tolerance but parts won’t assemble? This article explains GD&T and how form, orientation, location, and runout affect part function and machining quality.