Forging is a critical metal forming process used to manufacture high-performance components for industries such as aerospace, automotive, oil and gas, energy, and machinery. The performance and reliability of forged parts heavily depend on the quality of the raw materials used. Any inconsistency in chemical composition, cleanliness, or structure can lead to defects during forging or failures in service.
To ensure product quality and compliance with customer and international standards, it is essential to carry out comprehensive inspection and testing of forging raw materials. In this article, we explore how to check forging raw materials, the key methods involved, industry standards, and best practices for material traceability and certification. Whether you are a quality inspector, procurement manager, or forging engineer, this guide will help you optimize your material control process.
Forging raw materials refer to the metal inputs—usually in the form of billets, ingots, bars, or blooms—used to produce forged parts. These materials can be:
Carbon steel
Alloy steel
Stainless steel
Nickel-based alloys
Titanium alloys
Aluminum alloys
Each material must meet strict chemical, mechanical, and metallurgical criteria to ensure successful forging and product performance.
sakysteel supplies high-quality forging raw materials with full mill certifications, traceability, and quality control to meet customer specifications across global markets.
Checking forging raw materials ensures:
Correct material grade and composition
Compliance with standards (ASTM, EN, DIN, JIS)
Internal soundness and cleanliness
Traceability for audits and customer verification
Prevention of forging defects (cracks, porosity, non-metallic inclusions)
Without proper checks, the risk of non-conforming products, process disruptions, and customer complaints increases significantly.
The first step is to verify the material documentation:
MTC (Mill Test Certificate): Includes chemical composition, mechanical properties, heat treatment status, and standards.
Certificate Type: Ensure it complies with EN10204 3.1 or 3.2 if third-party verification is needed.
Heat Number & Batch ID: Must be traceable to the physical material.
sakysteel provides all forging raw materials with detailed MTCs and third-party inspection options for critical projects.
Upon receiving raw materials, perform a visual check to identify:
Surface defects (cracks, pits, rust, scale, laminations)
Deformation or warping
Incomplete labeling or missing tags
Mark and isolate any material that does not meet acceptance criteria. Visual inspection helps prevent faulty inputs from entering the forging process.
To ensure that the material matches the required grade, perform chemical composition analysis using:
Optical Emission Spectroscopy (OES): For quick and accurate on-site verification
X-Ray Fluorescence (XRF): Suitable for rapid alloy identification
Wet Chemical Analysis: More detailed, used for complex alloys or arbitration
Key elements to check include:
Carbon, manganese, silicon (for steel)
Chromium, nickel, molybdenum (for stainless and alloy steels)
Titanium, aluminum, vanadium (for Ti alloys)
Iron, cobalt (for nickel-based alloys)
Compare test results with standard specifications such as ASTM A29, ASTM A182, or EN 10088.
Some critical forging applications require checking the raw material’s mechanical properties before processing. Common tests include:
Tensile Testing: Yield strength, tensile strength, elongation
Hardness Testing: Brinell (HB), Rockwell (HRB/HRC), or Vickers (HV)
Impact Testing (Charpy V-notch): Especially for low-temperature applications
These tests are often performed on test pieces taken from the raw material or as per the MTC.
Ultrasonic inspection is a non-destructive method used to detect:
Internal cracks
Porosity
Shrinkage cavities
Inclusions
UT is essential for high-integrity parts in aerospace, nuclear, or oil and gas sectors. It helps ensure the internal soundness of the material before forging.
Standards include:
ASTM A388 for steel bars
SEP 1921 for high-strength materials
sakysteel conducts UT as part of the standard QC process for all forging-grade bars above 50 mm in diameter.
Evaluate the material’s structure using:
Macroetch Testing: Reveals flow lines, segregation, cracks
Microscopic Analysis: Grain size, inclusion rating, phase distribution
This is especially important for materials like tool steels, where uniform grain structure ensures performance.
Etching and metallographic testing follow ASTM standards such as ASTM E381 or ASTM E112.
Verify dimensions such as:
Diameter or cross-section
Length
Weight per piece or per meter
Use calipers, micrometers, and weighing scales. Tolerances should conform to:
EN 10060 for round bars
EN 10058 for flat bars
EN 10278 for precision steel bars
Correct dimensions are essential for forging die fitting and material volume control.
Surface finish must be free from:
Excessive scale
Rust
Oil and grease
Decarburization (loss of surface carbon)
Decarburization can be checked via metallographic sectioning or spark testing. Excess decarburization can weaken the surface of the final forged part.
Each material must have:
Clear identification tags or paint marks
Heat number and batch number
Barcode or QR code (for digital tracking)
Ensure traceability from raw material to finished forging, especially for critical industries like aerospace, defense, and energy.
sakysteel maintains full traceability through barcode systems, ERP integration, and documentation for every heat batch.
| Standard | Description |
|---|---|
| ASTM A29 | General requirements for hot-wrought steel bars |
| ASTM A182 | Forged/stainless/low alloy steel pipe components |
| EN 10204 | Inspection documents and certificates |
| ASTM A388 | UT inspection of steel forgings and bars |
| ISO 643 / ASTM E112 | Grain size measurement |
| ASTM E45 | Inclusion content analysis |
| ASTM E381 | Macroetch testing for steel bars |
Following these ensures global acceptance of your materials.
Relying only on supplier MTCs without verification
Skipping UT for critical components
Using wrong alloy grades due to poor labeling
Overlooking decarburization on bars for surface-critical parts
Missing traceability records during audits
Implementing a standard inspection workflow reduces production risks and enhances product reliability.
sakysteel is a leading supplier of forging-quality materials, offering:
A full range of carbon steel, alloy steel, and stainless steel grades
Certified materials with EN10204 3.1 / 3.2 documents
In-house UT, hardness, and PMI testing
Quick delivery and export packaging
Support for custom size cutting and machining
With customers across the aerospace, oil & gas, and mechanical engineering sectors, sakysteel ensures that every forging starts with verified, high-integrity materials.
Checking forging raw materials is not just a routine task—it is a critical quality control step that directly impacts the integrity, performance, and safety of forged components. By implementing a structured inspection process involving document verification, chemical and mechanical testing, NDT, and traceability, manufacturers can ensure consistent quality and compliance with industry standards.
For reliable forging raw materials and expert technical support, sakysteel is your trusted partner, offering certified products with full traceability and professional service.