What is ADC12 aluminum and when should I use it?

ADC12 is a JIS high-silicon Al-Si-Cu alloy for high-pressure die casting. It excels at thin-wall, complex parts that need reliable fill and predictable coated cosmetics—electronics, lighting, appliance frames, and interior auto castings.

What are typical ADC12 properties and density?

As-cast HPDC ranges: UTS ~260–330 MPa, YS ~150–190 MPa, elongation ~1.5–3.5%, hardness ~80–95 HBW, density ~2.72–2.74 g/cm³. Values depend on wall, gating, vacuum level, and melt quality.

ADC12 Aluminum Die Casting Alloy: Properties, Equivalents & Design Guide

By Haijiang Lai

Owner at YongZhu Casting

As a supplier of aluminum casting since 2004, if you have a project need to get off the ground. Contact us today, or Mail: yongzhucasting@gmail.com

What is ADC12 aluminum and when should you specify it?

ADC12 is a high-silicon, aluminum–silicon–copper alloy defined in JIS H 5302 for high-pressure die casting (HPDC). Engineers choose it when parts have thin walls, long flow paths, dense ribs/bosses, tight corners, or fine textures that must fill reliably with repeatable cosmetics after coating.

It’s a staple for electronics/telecom housings, lighting enclosures, appliance frames, automotive interior brackets, small gearbox/actuator covers, and other medium-strength components where castability and appearance outrank maximum ductility.

Use ADC12 when you need:

Strong thin-wall fill (≈1.5–2.5 mm typical; local ~1.2 mm possible with tuned gating/vacuum).
Complex geometry replication (logos, vents, fine fins).
Predictable paint/powder appearance after proper pretreatment.

Consider other alloys when:

You need higher elongation/corrosion resistance outdoors (often A380 or design/finish changes).
You require post-cast heat strengthening (HPDC porosity makes T6 impractical).

ADC12 chemical composition

Typical production ranges (mass %). Always purchase to the exact standard/revision and require melt certificates.

Element	Range (wt. %)	Role in casting/performance
Si	~9.0–12.0	Drives fluidity, thin-wall fill; higher Si lowers solidification shrinkage but can reduce elongation.
Cu	~1.5–3.5	Boosts strength/hardness; excessive Cu can reduce corrosion resistance.
Fe	~0.6–1.3	Controls die soldering; too high may embrittle/elevate porosity.
Mn	≤0.5	Balances Fe phase; helps limit soldering.
Mg	≤0.3	Small additions for strength/ageing response; affects anodizing behavior.
Ni, Zn, Sn	≤0.5 each (typ.)	Trace controls; excessive Ni lowers ductility.
Al	Balance	—

Supplier practice varies by region; verify chemistry on the spectrochemical report for every heat/lot.

ADC12 mechanical properties

Representative ranges for HPDC parts; actual values depend on wall, gate design, vacuum level, and melt quality.

Property	Typical Range	Notes
Ultimate tensile strength	~260–330 MPa	Thicker, sound sections trend higher.
Yield strength (0.2%)	~150–190 MPa	Sensitive to porosity/solidification rate.
Elongation	~1.5–3.5 %	Thinner walls & higher Fe/Ni push lower end.
Brinell hardness (HBW)	~80–95	Correlates with Cu/Mg and cooling.

Physical properties & casting behavior of ADC12

Property	Typical value / range	Design implication
Density	~2.72–2.74 g/cm³	Mass estimates for housings/covers.
Thermal conductivity	~90–120 W/m·K	Useful for lighting/electronics.
Electrical conductivity	~22–30 % IACS	Adequate for shielding enclosures.
CTE (20–100 °C)	~21–23 µm/m·K	Consider in tight assemblies.
Solidus–liquidus	~520–590 °C	Guides die/melt temperature windows.

Casting behavior (plain-English):
ADC12 flows easily into thin, intricate features and tolerates higher gate speeds. It is prone to gas porosity if venting/vacuum are weak; well-placed overflows and vacuum assist improve pressure-tightness and cosmetics. Fe/Mn balance and lube control help prevent die soldering. With the right pretreatment, ADC12 takes paint/powder/e-coat very predictably.

What is ADC12 equivalent to in other standards?

Cross-references (verify per spec before buying):

AA/ASTM (US): A383 (purpose-equivalent family)
EN (EU): EN AC-46000 (AlSi9Cu3) family
Common CN/ISO notations: AlSi9Cu3-family grades

These are equivalents by intent, not identical chemistries. On POs, specify your base standard, allow named equivalents, and require melt certs plus any mechanical/finish tests that matter to you.

ADC12 vs A380: which alloy is better for thin walls and complex parts?

Factor	ADC12	A380	What it means
Fluidity / thin-wall fill	Higher	High	ADC12 reproduces fine ribs/vents with fewer short-shots.
Hot-cracking tendency	Lower	Low	Better for tight corners & long flow.
Pressure-tight potential	Medium (good with vacuum)	Medium–High	Both may need impregnation for zero-leak specs.
Ductility	Medium	Slightly higher	If elongation matters, A380 may edge out.
Cosmetics after coating	Very good	Very good	ADC12 often shows cleaner knit lines in thin sections.
Availability	Very common (APAC/EU)	Very common (global)	Choose by geometry + supplier experience.

Rule of thumb: ADC12 for thin/complex parts and crisp detail; A380 when geometry is moderate and you want the broadest strength/cost balance.

Can ADC12 be heat-treated or anodized/painted effectively?

HPDC ADC12 is usually used as-cast. Full T6 heat treatment is not typical (porosity can blister and dimensions can drift). A light stabilize/age cycle is sometimes used to improve machining/flatness stability—validate on first articles.

Finishing reality

Powder/paint/e-coat: Most predictable appearance & corrosion performance with proper pretreatment (clean → light etch → zirconium or phosphate conversion).
Anodizing: Possible but tends to be grey/matte on die-cast surfaces; run trials if appearance is critical.
Plating: Feasible with tight pretreatment control (clean → zincate/strike → build); qualify on production-like coupons and geometry.

How do you design ADC12 parts?

Feature	Starting guideline	Why it helps
Wall thickness	1.5–2.5 mm (local ~1.2 mm possible)	Matches ADC12 fluidity without freeze-off.
Ribs	0.6–0.8× wall; base fillet ≥0.25× wall	Reduces sink/hot-spot; fills reliably.
Bosses	OD ≥2.0× screw size; core draft ≥1°	Prevents tearing at ejection; supports threads.
Draft	1–2° cavity; 0.5–1° cores (add for texture)	Protects cosmetics; eases release.
Fillets	Internal ≥0.5× wall; external generous	Lowers stress & porosity risk.
Gating/overflows	Gate into thickest region; generous overflows at knit lines	Purges gas and improves cosmetics.

Parting line & ejection: Place on non-cosmetic faces; avoid thin webs as primary datums.
Texture effects: Add 0.5–1.0° extra draft for medium–heavy textures.

For minimum wall thickness deep-dive guidance, see your dedicated page “What’s the Minimum Wall Thickness for ADC12 Die-Cast Parts?” and link it here.

Machining, sealing & dimensional control for ADC12

ADC12 machines well with sharp carbide, positive rake, and flood coolant. On thin webs/bosses, use multiple light passes to avoid edge crumble and spring-back. For threads, cut or form depends on wall and load; thread inserts are best for high clamp/repeat assembly.

Leak-critical parts

Prefer vacuum HPDC, balanced flow, and clean venting.
Define the leak test method & limit (air-under-water or mass-flow) in your PO.
For zero-leak specs, budget impregnation (targeted if CT shows pore connectivity near sealing faces).

Dimensional stability

Uniform stock removal; avoid localized heavy cuts.
Rigid fixturing that minimizes clamp distortion.
Optional stabilize/age step for tight flatness or positional tolerances.

How do we verify ADC12 material and performance?

QC item	Method / note	Purpose
Chemistry	Spectrometer per heat/ladle	Confirms ADC12 window & trace control.
Melt quality	Degassing/H-indicator, inclusion checks	Reduces gas porosity/defects.
CT/X-ray	FAI + per control plan	Verifies porosity class/critical zones.
Mechanical	Tensile (cut-out or coupons), HB	Confirms strength window on PPAP/FAI.
Dimensions	CMM + functional gages (GR&R)	Validates GD&T datums and features.
Finish tests	Adhesion/salt-spray (if required)	Confirms coating robustness.
Leak test	Air or mass-flow with limit	Ensures pressure-tightness where needed.

Common defects & quick fixes

Gas porosity → stronger vacuum, larger overflows, shorter flow length, cleaner melt.
Cold shuts/knit lines → raise local metal temp, move/resize gates, add fillets.
Soldering → tune Fe/Mn, adjust die temperature/lube, polish hotspots.

Applications & part examples

Industry	Typical components	Why ADC12 works
Electronics/Telecom	Small housings, connector bodies, heat-sink covers	Thin-wall fill + decent thermal path.
Lighting	LED housings, bezels, driver covers	Fins & vents replicate cleanly; coats well.
Automotive interior	Brackets, carriers, actuator covers	Dense ribs/boss arrays with good cosmetics.
Appliances/Tools	Gearbox covers, frames, handles	Good machinability and repeatability.
General industrial	Meter bodies, valve/actuator shells	Moderate pressure-tightness with vacuum/impregnation.

Buyer’s guide: does ADC12 reduce total cost vs alternatives?

Where ADC12 saves money

Higher yield on thin/complex parts (fewer short-shots).
Less cosmetic rework before coating.
Potential weight reduction without extra operations.

Where cost can rise

Leak-critical parts (impregnation/extra QC).
Heavy machining on very thin sections (fixture time, multiple light passes).

What we need to quote accurately

3D CAD (STEP/Parasolid) + 2D with GD&T
Annual volume & target piece price band
Cosmetic faces & finish (powder/paint/e-coat/anodize)
Environment (indoor/outdoor, chemicals, salt/fog)
Leak and mechanical targets (if any)

ADC12 FAQ

What is ADC12 equivalent to?
A383 (AA/ASTM) and EN AC-46000 (AlSi9Cu3) are common cross-references; confirm chemistry/tests on the contract.

Is ADC12 stronger than A380?
Nominal strengths overlap; A380 can show slightly higher elongation. For thin/complex fills and crisp detail, ADC12 is often preferred.

Can ADC12 be anodized?
Possible but typically grey/matte on HPDC surfaces; powder/e-coat are more predictable for cosmetics/corrosion.

What density and conductivity should I use?
Use 2.73 g/cm³ for mass, ~90–120 W/m·K for thermal calcs, ~22–30 % IACS for electrical (verify with your supplier’s data).

Is ADC12 suitable for pressure-tight parts?
Yes—with vacuum die casting, robust venting/overflows, and, for strict leak limits, targeted impregnation.

What minimum wall thickness can ADC12 achieve?
Typical designs use 1.5–2.5 mm; ~1.2 mm is achievable locally with tuned gating, short flow length, and warm dies (see our dedicated minimum-wall article).

Looking for an aluminum die-casting supplier for ADC12 parts?

Yongzhu Casting provides fast, engineering-driven quotes and manufacturability feedback—then delivers production with stable quality.

Processes: High-pressure die casting (vacuum optional), CNC machining, deburr, powder/paint/e-coat
Presses: 800–2000 ton; thin-wall housings and complex brackets experience
Quality: Spectrometer melt checks, CT/X-ray (as required), CMM, leak testing, PPAP on request

Email yongzhucasting@gmail.com with STEP files, annual volume, finish target, and any leak/mechanical requirements.
We’ll return a concise DFM memo (draft/ribs/bosses/gating suggestions) and a clear quotation.