Quality Assurance
We are developing and operating cutting-edge inspection automation equipment that dramatically improves product quality stability by applying inspection standards trusted by customers, thereby preventing continuous defects and continuously reducing the defect rate through accumulated AI learning of defective data, and by developing quality stability in the post-process through AI-based LVLM model and defect detection of forged products using vision and collaborative robots.
Optimal product design through preliminary analysis and interpretation of metal flow
We perform high-precision forging simulations under conditions similar to actual forging using a mold-based model. We analyze temperature distribution, metal flow, internal stress, and forging loads, and iteratively optimize the mold model to pre-verify the machining process.

This minimizes test shot and mold modification costs and shortens the overall development period. Furthermore, simulation results visualize mold temperature and stress, enabling precise identification of vulnerable areas where damage begins. This allows for preventative design to significantly improve mold life.

Various inspection equipment

Electron microscope

Electron microscope

used to observe and analyze the microstructure and defects on the surface of heat-treated forged specimens at high magnification

Electron microscope

Rockwell hardness tester

measures the hardness of a material by measuring the penetration depth of an indenter under specified conditions

Electron microscope

Brinell hardness tester

a device that measures the hardness of a material by measuring the diameter of a permanent indentation made by pressing a large spherical indenter with a constant load.

Electron microscope

Component analyzer

accurately determines the chemical composition and content of each element contained in a material by analyzing the wavelength of light emitted from the sample through spark or combustion

Electron microscope

Impact tester

measures the amount of energy absorbed (impact value) when impact is applied to the notch of a material to destroy it, and evaluates the brittleness (easiness to break) resistance and tensile strength

Electron microscope

Tensile tester

measures mechanical properties such as yield strength, tensile strength, elongation (degree of stretching), and cross-sectional shrinkage by applying force to a material at a constant rate until it breaks

Global Certification