SPCC is the JIS G3141 designation for general-purpose cold-rolled steel sheet — the starting point for automotive body panels, appliance housings, office equipment enclosures, and stamped components across virtually every manufacturing sector. Unlike structural steel grades (SS400, S45C), SPCC carries no minimum tensile strength specification: the standard defines only chemical composition and elongation. What SPCC guarantees is consistency of thickness, surface quality, and basic formability. Understanding what SPCC does and does not specify is essential for any engineer or procurement specialist working with pressed or stamped steel parts.
| Property | SPCC (JIS G3141) |
|---|---|
| Standard | JIS G3141:2021 |
| Form | Cold-rolled sheet and strip, 0.25–3.2 mm thickness |
| ASTM equivalent | A1008 CS Type B (Commercial Steel) |
| EN equivalent | EN 10130 DC01 |
| Tensile strength | Not specified (typically 270–410 MPa) |
| Elongation (t ≥ 1.0 mm) | ≥ 34% |
| Carbon (max) | 0.15% |
| Typical hardness | 40–70 HRB |
- What JIS G3141 Actually Specifies
- Chemical Composition
- Mechanical Properties
- Grade Designations Within JIS G3141
- Surface Finish and Skin-Pass Codes
- ASTM and EN Equivalents
- Common Mistakes
- Applications
- FAQ
1. What JIS G3141 Actually Specifies
JIS G3141 covers cold-rolled carbon steel sheet and strip. The standard specifies:
- Chemical composition limits (C, Mn, P, S maximums)
- Minimum elongation (formability indicator)
- Thickness tolerance (by thickness range and width)
- Width, length, and flatness tolerances
- Surface finish category (dull, bright)
The standard does not specify minimum tensile strength or yield strength for SPCC. This is intentional — cold-rolled general-purpose sheet is designed for formability and surface quality, not for structural load-bearing. If you need a guaranteed strength level in cold-rolled flat form, you specify a higher-grade: SPCD/SPCE for formability, or structural grades like SS400 in plate form.
2. Chemical Composition
| Element | SPCC | SPCD | SPCE |
|---|---|---|---|
| C (max) | 0.15% | 0.12% | 0.08% |
| Mn (max) | 0.60% | 0.50% | 0.45% |
| P (max) | 0.100% | 0.040% | 0.030% |
| S (max) | 0.050% | 0.040% | 0.030% |
Source: JIS G3141:2021. The progression from SPCC → SPCD → SPCE shows a systematic reduction in C, Mn, P, and S — all elements that impede dislocation movement during deep drawing. SPCC’s relatively high P tolerance (0.100%) is the key reason it is not suitable for complex deep-drawn shapes: phosphorus embrittles ferrite grain boundaries, increasing the risk of tearing at tight bends and deep draws.
3. Mechanical Properties
| Property | SPCC | Test Standard |
|---|---|---|
| Tensile strength | Not specified | — |
| Yield strength | Not specified | — |
| Elongation (t < 0.6 mm) | ≥ 28% | JIS Z 2241 |
| Elongation (0.6 ≤ t < 1.0 mm) | ≥ 31% | JIS Z 2241 |
| Elongation (t ≥ 1.0 mm) | ≥ 34% | JIS Z 2241 |
| r-value (Lankford coefficient) | Not specified | — |
Typical values from mill production (not specification minimums): tensile strength 280–380 MPa, yield strength 140–280 MPa. The wide yield strength range reflects that cold-rolled sheet hardness varies with reduction ratio — the same SPCC grade may arrive from the mill at different hardness levels depending on temper. The elongation specification provides the only minimum formability guarantee.
4. Grade Designations Within JIS G3141
| Grade | Formability Level | Typical Use |
|---|---|---|
| SPCC | General purpose | Simple bends, light pressings, housings, panels |
| SPCD | Drawing | Moderate-depth draws, automotive non-structural parts |
| SPCE | Deep drawing | Deep-drawn shells, automotive fuel tanks, body panels |
| SPCF | Non-aging deep drawing | SPCE + non-aging treatment; prevents Lüders band reappearance after skin pass |
| SPCG | Super deep drawing | Extreme draws, beverage cans, complex stampings |
The “-F” (non-aging) and “-G” (super deep drawing) grades are produced by alloying with small Ti or Nb additions that tie up interstitial C and N — the solute atoms responsible for Lüders band formation and work hardening during drawing. SPCC is appropriate for flat blanks, simple bends, and roll-formed sections. Once the draw depth exceeds approximately 1.5× the blank diameter, SPCD or SPCE become necessary.
5. Surface Finish and Skin-Pass Codes
JIS G3141 defines surface finish by two parameters appended to the grade designation:
| Suffix | Meaning | Effect |
|---|---|---|
| (none) | Standard (as-annealed + temper roll) | Slightly rough surface; Lüders bands possible under strain |
| -SB | Skin-passed (bright) | ~1% cold reduction after anneal; suppresses Lüders bands; bright surface finish |
| -SD | Skin-passed (dull) | ~1% reduction; matte surface for better paint adhesion |
Skin passing is a critical finish step for parts that will be painted or coated. Without skin passing, SPCC can develop Lüders bands (stretcher strains) — visible surface markings that appear when the steel yields during forming, caused by the propagation of yield fronts through the microstructure. These markings cannot be removed by painting. For any visible panel that will receive a painted finish, specify SPCC-SB or SPCC-SD.
6. ASTM and EN Equivalents
| JIS G3141 | ASTM A1008 | EN 10130 | ISO 3574 |
|---|---|---|---|
| SPCC | CS Type B (Commercial Steel) | DC01 | CR1 |
| SPCD | DS Type B (Drawing Steel) | DC03 | CR2 |
| SPCE | DDS (Deep Drawing Steel) | DC04 | CR3 |
| SPCF | EDDS (Extra Deep Drawing Steel) | DC05 | CR4 |
| SPCG | IF (Interstitial-Free) | DC06 | CR5 |
The equivalences are functional rather than exact — ASTM A1008 CS Type B and JIS SPCC have slightly different composition limits, particularly for phosphorus (A1008 CS max P: 0.030% vs SPCC 0.100%). SPCC allows significantly higher phosphorus, making it a less controlled grade than A1008 CS. For applications requiring strict equivalence, specify composition limits explicitly in addition to the grade designation.
7. Common Mistakes
8. Applications
Brackets, clips, reinforcements, heat shields, floor pans. Structural body panels typically require SPCD or SPCE for deeper draws and higher dent resistance requirements.
Washing machine drums (SPCE for deep draw), refrigerator inner panels, computer chassis, server rack enclosures, electrical cabinet skins.
Ceiling grids, HVAC duct blanks (before galvanizing), light steel framing studs, cable trays. Often used as the cold-rolled base for galvanized products (SGCC substrate).
9. FAQ
Q: Can SPCC be welded?
Yes — SPCC’s low carbon content (≤0.15%) makes it readily weldable by MIG, TIG, spot, and resistance welding. No preheat required for sections below 3.2 mm. The main constraint is distortion control in thin sections (below 1.0 mm); proper fixturing and low heat input techniques are needed.
Q: Is SPCC the same as “mild steel sheet”?
In practice, yes — SPCC is Japan’s equivalent of what Western suppliers call mild steel or CRS (cold-rolled steel) sheet. The key technical difference is that SPCC specifies only composition and elongation, not tensile strength. Mill certification for SPCC typically reports actual tensile and yield strength for reference, but these are not specification requirements.
Summary
- SPCC (JIS G3141) — general-purpose cold-rolled steel sheet; no minimum tensile strength; elongation ≥ 34% (t ≥ 1.0 mm) is the key specification
- ASTM A1008 CS Type B / EN 10130 DC01 — functional equivalents (P limit differs)
- Skin-pass code matters: specify -SB or -SD for painted parts; use SPCF for long-storage or high-appearance applications
- SPCC → SPCD → SPCE → SPCF → SPCG: progressively lower C, Mn, P, S for deeper draws
- Not a structural grade — for guaranteed strength in flat form, use structural steel plate or specify a processed grade
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