STEEL INSPECTION FOR QUALITY EXCELLENCE

Typical 2D contrast-based surface defects

• Non-metallic inclusions – Foreign particles trapped in the steel during casting
• Blisters – Raised areas caused by trapped air or water beneath the surface
• Cracks (visible) – Longitudinal or transverse surface cracks formed by thermal stress or mold oscillation.
• Scaling – Flaking or peeling of surface layers due to poor curing or thermal cycling
• Discoloration / oxidation zones - Irregular color patches caused by overheating 
  or surface oxidation, often misclassified by 2D inspection systems.

Typical 3D topographical defects

• Spider cracks – Fine, branching cracks often caused by mold surface conditions or copper particle contamination
• Oscillation marks – Formed during mold oscillation in continuous casting
• Corner and edge tears – Mechanical damage at slab edges from improper mold design or casting speed
• Scum patches and pits – Surface depressions caused by slag inclusions or gas entrapment
• Bleeder and scab defects – Irregularities from molten steel leakage or solidification issues
• Topographic distortion - Wave‑like irregularities on hot, 
  structured surfaces detectable only through 3D triangulation.

• Parallel 2D/3D Inspection: Combines contrast-based 2D imaging and laser triangulation-based 3D topography for reliable detection of surface and depth defects on hot, structured slabs.
• Real-Time Multi-Angle Analysis: Ensures complete surface evaluation—including edge crack detection—via additional side-view sensors.
• Inline Depth & Dimension Measurement: Accurately determines defect depth and slab dimensions to improve grinder alignment and downstream handling.
• Robust Defect Classification: Algorithms distinguish surface flaws from natural slab textures under extreme conditions.
• Thermal Protection & Cooling: Smart cooling and shielding enable uninterrupted operation on hot slab surfaces.
• Grinder System Integration: Real-time feedback loop supports automatic grinder adjustment for efficient defect removal.

Typical 2D contrast-based surface defects

• Surface Cracks – Visible breaks in the surface caused by thermal stress or mechanical strain
• Discoloration – Irregular color patches due to oxidation, overheating, or contamination
• Scratches and Gouges – Linear or deep surface damage from handling or processing tools
• Blisters / Scabs – Raised or flaky areas caused by trapped gas or slag during solidification
• Delamination – Separation of surface layers, often due to internal stress or inclusions

Typical 3D topographical defects

• Oscillation Marks – Repetitive depressions from mold oscillation during casting
• Depressions and Pits – Localized surface indentations caused by slag entrapment or gas bubbles
• Bulges and Raised Areas – Surface protrusions due to uneven solidification or internal pressure
• Edge and Corner Defects – Irregularities or damage at slab boundaries from mechanical stress
• Surface Waviness – Undulating surface profile caused by inconsistent cooling or rolling

• Unique, parallel contrast-based 2D and topographical 3D inspection solution
• Defect depth analysis via 3D triangulation
• Real-time defect classification
• Documentation to meet US (ASTM) or EU (EN) quality standards 
• Modular, ruggedized sensor housing
• Designed for high-speed, high-temperature environments

• Blisters
• Shells
• Longitudinal cracks
• Edge cracks

• Scratches, grooves and gouges
• Strip edge defects
• Roll marks
• Scale or oxide patches (due to inadequate descaling)

• Heavy-duty sensor design for stable inspection in extreme heat, vibration, and scale-laden environments
• Defect classification to reliably separate critical from non-critical surface flaws

• Blisters: Raised spots from trapped gas or contamination
• Shells: Flaky surface layers that can peel off
• Longitudinal Cracks: Cracks along the rolling direction from stress
• Edge Cracks: Cracks near strip edges due to uneven deformation
• Scratches, Grooves, Gouges: Surface damage from mechanical contact

• Strip Edge Defects: Irregular edges like burrs or folds affecting processing
• Laminations – Internal layer separations that can compromise material integrity
• Inclusions – Embedded non-metallic particles from upstream processes
• Roll Marks – Periodic, low-contrast defects from worn or contaminated rolls

• Compact multi-angle camera setup for structured surface and edge defect analysis
• Defect classification with high-resolution real-time analysis
• Real-time data output enables instant classification and downstream decisions
• Encoder-based defect localization for roll-specific trend monitoring

• Heavy-duty system sensor with protective housing for oil mist, steam, and vibration
• Ultra-low contrast roll mark detection using digital signal stacking
• Roll Mark Monitor software with intuitive traffic-light alerts for predictive roll maintenance