JIS G3302 Galvanized Steel Sheet Grade Guide: SGCC to SGCE — Coating Weight, Grades, and Specifications

JIS G3302 is the Japanese Industrial Standard for hot-dip zinc-coated (galvanized) cold-rolled steel sheets and coils. The standard covers five formability grades — SGCC through SGCE — and a complete designation system for coating weight, spangle type, surface treatment, and post-coating treatment. Reading a JIS G3302 designation correctly means understanding five independent parameters that define the delivered product. This guide explains the complete grade and designation system, the coating weight Z-code interpretation, the galvannealed (-ZF) variant, and how JIS G3302 maps to ASTM A653 and EN 10346.

Reading a JIS G3302 Designation

Example: SGCC Z18 MC NCR O

SGCC — grade (general purpose commercial steel base)
Z18 — coating weight (≥ 180 g/m² total, both sides)
MC — minimized spangle (surface type)
NCR — non-chromate passivation (RoHS compliant)
O — oiled

Table of Contents

Standard Scope
Grade Structure (SGCC to SGCE)
Coating Weight Z-Code System
Surface Type: Spangle and Galvannealed (-ZF)
Passivation and Post-Treatment Codes
Full Designation Matrix
ASTM A653 and EN 10346 Equivalents
Mechanical Properties
FAQ

1. Standard Scope

JIS G3302:2019 covers continuously hot-dip zinc-coated steel sheets and coils produced from cold-rolled steel base. Scope parameters:

Thickness: 0.25–3.2 mm (base steel before coating)
Width: 600–1800 mm standard commercial range
Zinc coating: Pure zinc (standard) or zinc-iron alloy (galvannealed, -ZF variant)
Base steel: Cold-rolled carbon steel; properties equivalent to JIS G3141 grades

The standard does not cover: hot-dip galvanized structural sections (JIS G3444 etc.), batch galvanizing of fabricated parts (JIS H0401), or electrogalvanized sheet (JIS G3313).

2. Grade Structure (SGCC to SGCE)

Grade	Base Steel Formability	JIS G3141 Equivalent	Primary Application
SGCC	General purpose / commercial	SPCC	Roofing, HVAC, general galvanized products
SGCD1	Drawing	SPCD	Moderate-depth drawn galvanized parts
SGCD2	Deep drawing	SPCE	Deep-drawn galvanized shells, automotive underbody
SGCD3	Super deep drawing (IF)	SPCG	Extreme-draw galvanized parts; automotive structural
SGCE	Structural deep drawing	—	Parts requiring both structural strength and formability

SGCC accounts for the large majority of JIS G3302 production volume — roofing, HVAC, construction, and general fabricated galvanized parts are all SGCC. The SGCD grades are used where the zinc coating must survive a draw; the zinc coating itself constrains the practical draw depth (see Section 8). SGCE is an uncommon grade combining higher-strength base steel with drawing capability.

3. Coating Weight Z-Code System

JIS G3302 coating weights are designated by Z## where ## is the minimum total zinc coating mass in g/m² (both sides combined). Both a total minimum and a per-side minimum apply:

Z-Code	Min Total (g/m²)	Min Each Side (g/m²)	Zn per side thickness (μm)	Typical Use
Z06	60	18	~2.5	Light indoor use; rarely specified
Z08	80	24	~3.4	Light-duty indoor applications
Z10	100	30	~4.3	Automotive body panels (painted); HVAC components
Z12	120	36	~5.1	Automotive structural; appliances (painted)
Z18	180	54	~7.6	Standard for roofing, cladding, HVAC (unpainted)
Z22	220	66	~9.3	Exposed outdoor, moderate aggressive environment
Z25	250	75	~10.6	Marine-adjacent, industrial outdoor
Z27	270	81	~11.4	Maximum standard coating; severe environments

Z18 is the default specification for commercial roofing and HVAC applications in Japan. For painted automotive and appliance applications, Z10–Z12 is standard — heavier zinc coatings crack during deep drawing. For coastal or industrial environments, Z22–Z27 is required for adequate unpainted life.

To convert between JIS Z-codes and ASTM G-codes: ASTM A653 G-codes are in oz/ft² (both sides). Conversion: 1 oz/ft² = 305 g/m². ASTM G30 = 30/305 oz×g/ft×m² = approximately 92 g/m² → close to Z10. G60 ≈ Z18. G90 ≈ Z27.

4. Surface Type: Spangle and Galvannealed (-ZF)

Surface Type Code	Description	Appearance	Use
(no code)	Regular spangle	Visible zinc crystal pattern, reflective	Roofing, HVAC, uncoated structural
MC	Minimized/zero spangle	Small or no visible crystal; smoother	Painted appliance panels; pre-painted (CGCC)
ZF	Galvannealed (zinc-iron alloy)	Matte grey, no spangle, slightly rough	Automotive body-in-white; excellent paint adhesion; weld-optimized

Galvannealed (-ZF) detail: After the steel exits the zinc bath, it passes through an induction heating section (~500–550°C) that drives iron diffusion from the steel into the zinc coating, producing a uniform Fe-Zn alloy (7–12% Fe, zeta + delta intermetallic phases). The result:

No free zinc — the entire coating is Fe-Zn alloy, matte grey in appearance
Excellent adhesion for zinc phosphate + cathodic electrocoat primer (standard automotive pre-treatment)
Better spot weld electrode life than pure zinc (less electrode sticking)
Slightly reduced formability vs regular SGCC: the harder Fe-Zn alloy can powder or flake at tight bends — minimum bend radius is approximately 1.5× that of equivalent SGCC
Cut-edge protection: slightly reduced vs regular SGCC (no free zinc), but the Fe-Zn alloy still provides some galvanic activity

5. Passivation and Post-Treatment Codes

Code	Treatment	Effect	RoHS Status
CR	Chromate passivation (Cr(VI) hexavalent)	Excellent white rust and fingerprint resistance; iridescent film	Non-compliant — phased out for most applications
NCR or P	Non-chromate passivation (phosphate or organic)	24–168 hr white rust resistance; RoHS compliant	Compliant ✅
C3 or CO	Trivalent chromate Cr(III)	Better than NCR; Cr(III) is RoHS compliant	Compliant ✅
O	Anti-rust oil applied	Temporary rust protection for transport and storage; must be removed before painting	N/A
AFP	Anti-fingerprint coating	Thin organic layer; prevents fingerprint marks; used for unpainted visible surfaces	Compliant ✅
(none)	No post-treatment	No additional protection; for immediate processing or hot-dip galvanizing applications	N/A

Since the EU ELV Directive (2000/53/EC) and RoHS Directive phased out hexavalent chromium, almost all SGCC for automotive and consumer electronics applications is supplied with NCR (non-chromate) or trivalent chromate passivation. Building and construction applications may still use standard passivation where the final product is not regulated by RoHS/ELV.

6. Full Designation Matrix

A complete JIS G3302 product designation combines: Grade + Coating Weight + Surface Type + Passivation + Post-Treatment:

Example Designation	Meaning	Typical Application
SGCC Z18 NCR O	Commercial grade, Z18 zinc, non-Cr passivation, oiled	Standard industrial roofing, construction
SGCC Z10 MC NCR	Commercial grade, Z10 zinc, minimized spangle, non-Cr passivation	Painted appliance outer panels
SGCD2 Z10 ZF NCR	Deep-drawing grade, Z10 galvannealed, non-Cr passivation	Automotive deep-drawn body panels
SGCC Z25 NCR	Commercial grade, Z25 zinc, non-Cr passivation	Coastal/industrial outdoor cladding
SGCC Z12 ZF NCR	Commercial grade, Z12 galvannealed, non-Cr passivation	Automotive structural parts, reinforcements

7. ASTM A653 and EN 10346 Equivalents

JIS Grade + Coating	ASTM A653	EN 10346	Notes
SGCC Z10	CS G30 (≈92 g/m²)	DX51D+Z100	Closest ASTM grade is G30; not exact
SGCC Z18	CS G60 (≈183 g/m²)	DX51D+Z180	Very close match
SGCC Z27	CS G90 (≈275 g/m²)	DX51D+Z275	Very close match
SGCD2 Z10 ZF	DQSK A60 (galvannealed)	DX53D+ZF100 (GA)	Deep-drawing galvannealed
SGCC Z18 ZF	CS A60 (galvannealed)	DX51D+ZF180	Galvannealed structural

EN 10346 uses the same g/m² total convention as JIS G3302, making conversion straightforward: Z180 in EN 10346 = Z18 in JIS G3302. ASTM A653 oz/ft² conversion: G×305 = g/m² (G60 × 305 = 18,300 g/m² → wait, 0.60 oz/ft² × 305 = 183 g/m² ✓).

8. Mechanical Properties

Grade	Min Tensile Strength	Elongation (t ≥ 1.0 mm)	r̄ (if specified)
SGCC	Not specified	≥ 32%	—
SGCD1	Not specified	≥ 36%	—
SGCD2	Not specified	≥ 40%	≥ 1.4
SGCD3	Not specified	≥ 42%	≥ 1.8
SGCE	≥ 340 MPa	≥ 30%	—

Note: The elongation values for galvanized grades (SGCC ≥ 32%) are slightly lower than the equivalent uncoated grades (SPCC ≥ 34%) — the galvanizing anneal achieves the same minimum but the specification accounts for the slightly different test procedure applied to coated material. The zinc coating itself does not significantly affect tensile or elongation properties.

9. FAQ

Q: What is the difference between SGCC-ZF and galvannealed? Are they the same?

Yes — galvannealed steel is the same as SGCC-ZF (or SGCD-ZF for drawing grades). “ZF” is the JIS G3302 designation suffix for the zinc-iron alloy coating produced by in-line annealing after hot-dip galvanizing. “Galvannealed” is the industry trade term used internationally. “GA steel” is a common shorthand. All refer to the same product: Fe 7–12% in the zinc coating, matte grey surface, excellent paintability and weldability.

Q: Can I use SGCC for food packaging machinery?

Only for non-contact structural components. Zinc is approved as a food-contact material at trace levels, but bulk zinc dissolution from unprotected SGCC surfaces in wet food environments exceeds acceptable levels. Food-contact parts of food processing equipment should use SUS304 or SUS316 stainless steel. SGCC can be used for the machine structure, guards, and non-contact frames.

Summary — JIS G3302 Key Points

Five formability grades: SGCC (general) → SGCD1/2/3 (drawing) → SGCE (structural draw)
Coating weight: Z## = minimum g/m² total both sides; Z18 is standard for roofing/HVAC; Z10–Z12 for automotive/appliance (painted)
Surface type: regular spangle (default) / MC (minimized spangle) / ZF (galvannealed, Fe-Zn alloy)
Passivation: NCR or C3 (trivalent Cr) for RoHS-compliant applications; traditional hexavalent CR phased out
Full designation = Grade + Z-code + Surface type + Passivation + Post-treatment (e.g., SGCC Z18 MC NCR O)
ASTM A653 G60 ≈ Z18; G90 ≈ Z27. EN 10346 uses identical g/m² system