Microscopic Examination Method Using Standard Rating Charts
(GB/T 10561‑2005)
I. Principle
Polished steel specimens are examined under an optical microscope at 100× magnification. Non-metallic inclusions in the field of view are compared with standard rating charts and graded by type, so as to evaluate the cleanliness of the steel. Applicable to:Structural steels, bearing steels, tool steels, stainless steels and other steel grades.
II. Specimen Preparation
Sampling Location
- Generally take transverse sections.
- Avoid surface decarburized layers and edge-damaged zones (distance from edge ≥ 1–2 mm).
Mounting
- Small specimens are recommended for hot mounting to prevent edge chipping.
Grinding and Polishing
- Grind stepwise up to 2000# abrasive paper.
- Mechanically polish to a mirror finish; smearing is strictly prohibited, otherwise fine inclusions will be obscured.
- The final surface shall be free of scratches and deformed layers.
III. Classification of Inclusions
(Four main types + special type)Classified by morphology, optical properties and deformation behavior:
- Type A: SulfidesGray or black, deformable, appearing as elongated strings or chains.
- Type B: AluminaBlack, angular, non-deformable, aligned in the rolling direction.
- Type C: SilicatesLight gray, deformable, appearing as elongated shapes.
- Type D: Globular oxidesRound or oval, non-deformable, randomly distributed.
- Type DS: Single globular inclusionsLarge-sized, spherical or near-spherical, usually exogenous inclusions.
IV. Inspection Procedure
- Magnification: 100× (10× objective + 10× eyepiece).
- Number of fields:
- Routine inspection: 100 fields.
- Special requirements: 200 or 300 fields.
- Observation method:Scan the entire specimen section uniformly, avoiding repetition or omission.Record the highest grade of each type of inclusion in each field.
V. Rating Method
- Comparison with standard rating chartsStandard grade series: 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0 …
- Two statistical methods
- Worst-field method (commonly used):Record the highest grade observed for each type of inclusion across all fields.Applicable to bearing steels, gear steels and other grades requiring high cleanliness.
- Average-grade method:Total grades of 100 fields ÷ 100.Applicable to general structural steels.
VI. Advantages and Disadvantages
Advantages
- Simple and rapid operation.
- Low cost.
- Unified standards, suitable for daily factory quality control.
Disadvantages
- Relatively subjective.
- Insensitive to very fine inclusions.
- Cannot provide chemical composition information of inclusions.
VII. Application Scenarios
- Quality monitoring during production.
- Re-inspection of incoming materials.
- Evaluation of process improvement effects.
Not used for precise scientific research or failure analysis (SEM/EDS required).
