How to Set Iron Casting Wall Thickness the Smart Way

YBmetal has provided our customers with a wide range of thin-walled and thick-walled castings. Engineer’s rulebook for gray/grey and ductile iron: minimum iron casting wall thickness by process, uniformity ranges, rib/fillet/boss ratios, transition design, and machining stock & draft. Includes mm/in tables, simple charts to create, and an RFQ checklist.

  • Realistic minimum walls on modern lines:
  • Gray iron: 4–6 mm (0.16–0.24 in) in green sand; 3–4 mm (0.12–0.16 in) in shell.
  • Ductile iron: 5–7 mm (0.20–0.28 in) in green sand; 4–5 mm (0.16–0.20 in) in shell.
  • Uniformity target: adjacent sections vary by ≤ 20–30 %, otherwise add transitions/ribs.
  • Ribs vs thick plates: stiffness comes cheaper from ribs; plate thickening creates hot spots.
  • CT & stock: specify ISO 8062-3 CT for as-cast, and keep machining allowance 1.0–3.5 mm (0.04–0.14 in) by size/process.
  • When to switch process: persistent thin-wall + high accuracy → shell; heavy sections/large parts → resin sand.
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Minimum iron casting wall thickness by material & process

MaterialProcessTypical minimum wall*Notes
Gray/grey iron (EN-GJL / ASTM A48)Green sand4–6 mm (0.16–0.24 in)Best flow & damping; thin ribs help stiffness
Ductile iron (EN-GJS / ASTM A536)Green sand5–7 mm (0.20–0.28 in)Needs feeding & nodule control; avoid knife edges
Gray ironShell molding3–4 mm (0.12–0.16 in)Clean surfaces, tight CT; good for thin webs
Ductile ironShell molding4–5 mm (0.16–0.20 in)Good for thin + accuracy; tooling cost ↑
Gray/Ductile ironResin sand6–10 mm / 7–12 mmStable for large/heavy parts and many cores
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Uniformity rules

Variation limit & step transitions

  • Adjacent sections: aim for ≤ 20–30 % thickness change.
  • If the change is larger, use a ramp (transition length ≥ 3–5× the wall) or blend with generous radii.

Junctions (T, L, X) and hot-spot control

  • At T-junctions, local thickness ≈ 1.2–1.4× wall; add a fillet radius to spread modulus.
  • For L/X junctions, add coring or relief pockets to prevent heavy nodes; consider chills where needed.

Ribs, bosses & fillets (stiffness without hot spots)

FeatureRule of thumbWhy it works
Rib thickness0.6–0.8 × wallStiffness ↑ with less mass; cools uniformly
Rib height3–5 × wallEfficient bending stiffness
Boss diameter≥ 2.0–2.5 × wallPrevents sink & localized shrinkage
Boss thickness≈ wall to 1.2 × wallAvoids hot mass; add under-cuts only if needed
Fillet radius (internal)0.25–0.5 × wallReduces stress & feeding problems
Fillet radius (external)≥ 0.25 × wallMold strength & better flow
Cored hole Ø≥ 1.5 × wallCore strength & cleaning access

Draft, shrinkage, and machining stock (tie to ISO 8062)

  • Draft angles: external 1.0–1.5°, internal 1.5–2.0° (green sand); shell can be lower.
  • Shrinkage allowance (pattern): gray 0.8–1.0 %, ductile 1.0–1.2 %.
  • Typical machining allowance (both units):
  • Specify: as-cast features → ISO 8062-3 CT grade; machined features → GD&T with datum strategy.
Rough weightGreen sandResin sandShell
≤ 5 kg (≤ 11 lb)1.0–1.5 mm (0.04–0.06 in)1.5–2.0 mm0.8–1.2 mm
5–20 kg (11–44 lb)1.5–2.5 mm (0.06–0.10 in)2.0–3.0 mm1.0–1.5 mm
≥ 20 kg (≥ 44 lb)2.5–3.5 mm (0.10–0.14 in)3.0–4.0 mm1.5–2.0 mm
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Iron Casting Wall Thickness strategies that actually work

  • Replace plate thickness with ribs; keep rib-to-wall ratios in table above.
  • Spread thickness changes with long blends; avoid abrupt steps and sharp corners.
  • Vent the hardest-to-fill areas; add chill/sleeve only where modulus demands.
  • Control melt & sand: pouring temp window, inoculation, AFS GFN/moisture/LOI control.
  • Validate early: pilot cast + FAI/CMM / 3D scan on the thinnest paths.
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When to switch process (green vs resin vs shell)

  • You require ≤ 4 mm gray or ≤ 5 mm ductile with tight CTShell molding.
  • You have large/heavy geometry or many cores → Resin sand for dimensional stability.
  • You target volume, moderate accuracyGreen sand for best piece-price.
About YBmetal Green Sand Casting
About YBmetal Resin Sand Casting
About YBmetal Shell Molding Iron Castings

YBmetal provides Quality & verification plans for iron casting products

  • Metallurgy: spectrometer per heat; Brinell hardness per batch; ductile: nodule count/shape.
  • Dimensional: FAI + CMM; 3D scan on thin-wall regions; gauge R&R on critical datums.
  • Defects control: monitor scrap by reason (misrun, porosity, shrink), apply root-cause (feeding, coating, venting).
  • Records: pouring temp, yield, sand KPIs; traceability heat/batch/serial with photo logs.
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RFQ checklist (send with drawings)

  • Annual volume & batch size; target process (green/resin/shell).
  • Material & grade (e.g., EN-GJL-250 / EN-GJS-500-7).
  • Minimum wall targets & tight areas; preferred CT grade; draft and machining datum plan.
  • Leak/NDT requirements; PPAP level; sampling plan.
  • Coating/packaging; destination.
  • Any prior rejects/risks you want solved.
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FAQs

Gray: 4–6 mm (0.16–0.24 in) in green sand; 3–4 mm in shell. Ductile: 5–7 mm (0.20–0.28 in) in green sand; 4–5 mm in shell—assuming correct design and process windows.

Rib thickness 0.6–0.8× wall, height 3–5× wall. Over-thick ribs create hot spots—use slots/lightening if needed.

Blend over ≥ 3–5× wall with large radii. If a junction still heats up, add core-outs or chills.

By process/size: 1.0–3.5 mm (0.04–0.14 in) for green sand; shell is less; resin sand is more. See the stock table above.

Use ISO 8062-3: small parts often CT7–CT8, mid-size CT8–CT9, large CT9–CT10. Tight features should be controlled as machined with GD&T.

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