アルミニウム CNC 加工：完全ガイド 2026

CNC アルミニウム加工エンジニアガイド：6061 vs 7075 vs 2024、被削性、アルマイト、コスト、リードタイム、設計のヒント。

公開日 2026年4月25日15 min read

Precision-machined 6061 aluminium components after Type II anodising

アルミニウムは CNC の主力 — JLYPT の産業作業の約 70% が何らかのアルミニウムグレードで実行されます。本ガイドは深掘り：どの作業にどの合金、どの公差が現実的、どの仕上げが機能するか。

Why aluminium dominates CNC

Aluminium hits a sweet spot of properties no other commodity material matches:

Light — about 1/3 the density of steel (2.7 g/cm³ vs 7.85). Critical for aerospace, drones, robotics.
Strong enough — 6061-T6 yields at 276 MPa, comparable to many mild steels.
Cuts fast — soft enough to remove material at 3–5× the rate of stainless or titanium.
Anodises beautifully — every colour, hard surface, integral to the part.
Conducts heat — ideal for heat sinks, electronics enclosures, LED housings.
Corrosion-resistant by default — the natural oxide layer protects without coating.
Recyclable — chips and offcuts have real scrap value, lowering net cost.

Alloy comparison — which one and why

Cost relative to 6061-T6 bar stock at standard sizes. Machinability rating: 1=worst, 5=best.
Alloy	Yield (MPa)	Machinability	Anodise	Best for	Cost
6061-T6	276	Excellent (3-rated)	Yes — perfect	Default for 70% of work	1.0×
6063-T5	215	Excellent	Yes — best cosmetic	Extruded profiles, decorative	1.05×
7075-T6	503	Good (4-rated)	Acceptable, mottled	Aerospace, motorsport, structural	1.4×
7075-T651	503	Good	Acceptable	Stress-relieved 7075 for stable parts	1.5×
2024-T351	345	Good	Poor (clad recommended)	Aerospace skins, fatigue parts	1.3×
5052-H32	193	Excellent	Yes	Marine, sheet-metal-style folded	1.0×
5083	215	Good	Yes	Marine welded structures	1.2×
MIC-6 / Cast tool	170	Excellent	Yes (cosmetic mediocre)	Vacuum chucks, optical bases, jigs	1.6×
A380 die-cast	160	Tricky (porosity)	Difficult	Cast housings (cnc finishing only)	0.9×

CNC-machined aluminium components in different alloys — Standard JLYPT aluminium stock — 6061 and 7075 cover ~85% of customer requirements.

When 6061 is the right choice

General-purpose brackets, housings, plates.
Anything that needs cosmetic anodising.
Cost-sensitive work where strength is moderate.
Welded assemblies (6061 welds well).

When 7075 is worth the upgrade

Structural aerospace components (wing ribs, frames).
High-stress brackets that fail in 6061 testing.
Motorsport (fewer parts means weight matters more).
Where 80%+ more strength justifies the 40% cost.

Machinability and cycle times

Aluminium machines fast — but how fast depends on alloy choice and tooling. Indicative cycle times for a representative 50×50×25 mm bracket with moderate complexity:

Cycle times measured on a Mazak Variaxis i-700 with carbide tooling and flood coolant.
Alloy	Roughing speed	Finishing speed	Tool life	Total cycle (typical)
6061-T6	Very fast	Very fast	Long	8 min
7075-T6	Fast	Fast	Medium	11 min
2024	Fast	Fast	Medium	12 min
MIC-6 (cast tool plate)	Fast	Excellent	Long	9 min
Stainless 316L (compare)	Slow	Slow	Short	38 min

Achievable tolerances on aluminium

Tighter on aluminium than on stainless because aluminium doesn't spring back.
Feature	Standard CNC	Precision CNC	High-end (with care)
External dimensions	±0.10 mm	±0.025 mm	±0.005 mm
Hole diameter (drilled)	±0.05 mm	±0.013 mm	±0.005 mm
Hole diameter (reamed)	±0.013 mm	±0.005 mm	±0.0025 mm
Surface finish (Ra)	3.2 µm	0.8 µm	0.4 µm
Flatness (over 100 mm)	0.05 mm	0.013 mm	0.005 mm
Concentricity / true position	0.05 mm	0.025 mm	0.013 mm

Aluminium's thermal expansion (~23 ppm/°C) is roughly twice that of steel — so for ±0.005 mm tolerances on parts longer than 100 mm, JLYPT machines in a temperature-controlled cell. See our tolerances and GD&T guide for more.

Finishes that work on aluminium

Common — fast, cheap

As-machined + deburr — bare metal, lowest cost.
Bead blast — uniform matte texture, hides tool marks.
Type II anodise (decorative) — clear, black, blue, red, gold etc.
Brush finish — directional grain like appliance steel.

Premium — performance

Type III hard anodise — 60 HRC surface, wear resistance.
Chromate conversion (Alodine) — corrosion + paint primer.
Powder coat — thick, durable, any colour.
Electroless nickel plate — wear + uniform thickness.

Various finishes applied to aluminium CNC parts — Anodised, bead-blasted and powder-coated aluminium — each finish chosen for the part's function and environment.

Industry applications

Consumer electronics — laptop chassis, phone frames, camera bodies. 6061 + Type II anodise dominates.
UAV and drones — frames, motor mounts, gimbals. 7075 for structural, 6061 for non-critical. See UAV parts.
Aerospace — brackets, instrumentation housings, ground support. 7075 + 2024 dominate. See aerospace manufacturing.
Robotics — joint housings, drive arms, gripper bodies. 6061 + hard anodise common. See robotic parts.
Heat sinks & LED housings — 6061 or 6063 for thermal conductivity, anodised black for emissivity.
Optical & imaging — MIC-6 cast tool plate for dimensional stability over time.
Automotive prototypes — 7075 for race-car components, 6061 for OEM-grade prototypes.

Real cost ranges

Indicative pricing for a typical 50×50×25 mm aluminium bracket, anodised type II, batch quantities:

Indicative only — actual quotes depend on geometry, tolerances, finish complexity. Request a real quote on the <a href="/contact-us-online-cnc-machining-services">contact page</a>.
Quantity	6061 unit cost	7075 unit cost	Per-unit drop
1 (prototype)	$95	$130	—
10	$28	$42	−71%
100	$11	$18	−61%
1000	$6.20	$10	−43%

Want to lower your aluminium part cost without redesigning? See our cost reduction guide — typical savings: 20–40% by relaxing tolerances, switching from 7075 to 6061 where possible, and consolidating setups.

Design tips that save money on aluminium

Internal corner radii ≥ 1 mm — lets us use larger, faster end mills.
Wall thickness ≥ 0.8 mm — thinner walls deflect during cutting.
Use 6061 unless you have a strength reason to upgrade — saves 30–40% on material + machining.
Specify Type II anodise unless hardness is required — Type III roughly doubles finish cost.
Don't demand mirror polish on cosmetic surfaces — bead blasting before anodising looks great and costs less.
Tolerance only critical features — use ISO 2768-mK default for non-mating dimensions.
Add 0.3 mm chamfers to all external edges — eliminates manual deburring labour.
Avoid pockets deeper than 4× tool diameter — deep pockets need slow finishing passes.

よくあるご質問

CNC 加工で最も一般的なアルミ合金は？

6061-T6 が圧倒的 — CNC アルミ作業の約 70% で使用。強度テストが要求する場合のみ 7075 に切り替え。

6061 のように 7075 をアルマイトできる？

はい、しかし外観結果は明らかに劣る — わずかにまだら、または均一でない色。

アルミでどれくらい厳しい公差を保持できる？

注意深い作業で生産グレード機器では ±0.005 mm 達成可能。標準作業は ±0.025 mm を容易に保持。

アルミは屋外用に適している？

はい — 裸のアルミでも自己修復酸化層を形成。攻撃的環境（マリン）にはアルマイトが大きな保護を追加。

加工されたアルミ部品を溶接できる？

6061 と 5052 はよく溶接される (TIG)。7075 は本質的に溶接不可 — 溶接部で 50%+ 強度損失。

6061 と 7075 のコスト差は？

材料：7075 は ~40% 高価。加工：~25% 遅い。総合：7075 部品は 6061 同等品より ~50% 高。

JLYPT は MIC-6 工具プレートを調達できる？

はい — 一般的な厚さで MIC-6 を在庫。真空チャックと光学ベースのデフォルト。

アルミはプラスチック CNC 部品とどう比較する？

アルミは強度、熱伝導率、耐久性で勝る。プラスチックは重量と絶縁で勝る。

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