CNC Machining Materials: The Complete Guide to 30+ Materials for CNC Parts

The benchmark CNC aluminum. Excellent machinability, weldability, and anodizability. Used in structural frames, aerospace brackets, bicycle components, and consumer electronics enclosures.

High-strength aerospace-grade aluminum with strength rivaling many steels. Ideal for high-stress parts such as aircraft fittings, molds, and performance sporting goods.

Fatigue-resistant alloy popular in aircraft skins and structural members. High strength with moderate corrosion resistance; typically clad or anodized for protection.

Outstanding saltwater and marine corrosion resistance. Machined for marine hardware, fuel tanks, pressure vessels, and sheet-metal fabrications.

European structural alloy with higher yield strength than 6061. Preferred for bridges, cranes, offshore platforms, and heavy transport structures.

Architectural and extrusion alloy. Smooth surface finish after anodizing makes it ideal for window frames, door frames, and decorative structural profiles.

The most machinable steel grade. Low carbon content makes it easy to cut, weld, and form. Ideal for shafts, pins, fixtures, and general hardware.

Lead-enhanced free-machining steel with the highest machinability rating of any carbon steel. Used for high-volume turned parts and threaded components.

Chromium-molybdenum alloy steel with excellent toughness and fatigue resistance. The default material for gears, axles, bolts, and drive shafts.

Ultra-high-strength alloy steel. Used in aerospace landing gear, crankshafts, connecting rods, and heavy-duty tooling requiring extreme strength-to-weight ratio.

Free-machining austenitic grade — the most machinable stainless. Used for fittings, bolts, shafts, and electrical connectors where welding is not required.

The most common stainless steel globally. Excellent corrosion resistance and formability. Specified for medical devices, food processing equipment, and architectural hardware.

Molybdenum-enhanced grade with superior resistance to pitting corrosion in chloride environments. The standard for marine, pharmaceutical, and chemical processing CNC parts.

Precipitation-hardened stainless delivering high strength combined with good corrosion resistance. Used in aerospace valves, nuclear components, and high-pressure fittings.

High-chromium, high-carbon cold-work tool steel. Extreme wear resistance after hardening. Used for blanking dies, punches, and forming tools.

Hot-work chromium tool steel retaining hardness at elevated temperatures. Used for die-casting dies, hot-forging tools, and plastic injection molds.

Commercially pure titanium with outstanding corrosion resistance and biocompatibility. Used in medical implants, chemical processing, and marine hardware.

The most widely used titanium alloy. Exceptional strength-to-weight ratio with heat resistance up to 315°C. Standard for aerospace turbines, orthopedic implants, and racing components.

Nickel-chromium superalloy retaining strength at temperatures above 980°C. Used in jet engine exhaust systems, heat exchangers, and deep-sea equipment.

Precipitation-hardened Inconel with superior fatigue and creep resistance. The dominant alloy in gas turbine discs, aerospace fasteners, and cryogenic tankage.

Electrolytic tough pitch copper. Exceptional electrical and thermal conductivity. Used for bus bars, electrical contacts, heat sinks, and RF/microwave waveguides.

Free-machining brass — among the fastest-cutting metals available. Used for valves, fittings, gears, and precision instrument components where low friction matters.

Oil-retaining bearing bronze with excellent self-lubricating properties. The standard material for plain bearings, bushings, and wear plates.

The lightest structural CNC metal — 35% lighter than aluminum. Excellent vibration damping. Used in aerospace housings, electronics enclosures, and automotive brackets.

Nickel-molybdenum-chromium alloy with resistance to the widest range of aggressive chemicals. Used in chemical reactors, flue gas scrubbers, and pollution control equipment.

Highest melting point (3,422°C) and greatest density of any practical metal. Machined for radiation shielding, counterweights, and aerospace ballast components.

Extreme high-temperature stability and low thermal expansion. Used in furnace components, electrodes, sputtering targets, and semiconductor processing equipment.

Exceptional nuclear radiation resistance and corrosion resistance to concentrated acids. Machined for nuclear reactor cladding and aggressive chemical handling.

The gold standard for precision CNC plastic parts. Low friction, high stiffness, excellent dimensional stability, and outstanding machinability. Used for gears, cams, and precision hardware.

Tough, wear-resistant, and self-lubricating thermoplastic. Used for gears, bushings, rollers, and structural brackets. PA66 offers higher temperature resistance than PA6.

The premier high-performance thermoplastic. Continuous service at 250°C, excellent chemical resistance, inherent flame retardancy. Critical in aerospace, medical devices, and oil & gas tools.

Ultra-high-molecular-weight polyethylene. Exceptional impact resistance, near-zero moisture absorption, FDA-compliant grades for food processing and pharmaceutical applications.

High-impact transparent plastic with optical clarity. CNC machined for protective covers, sight glasses, light guides, and transparent electronic enclosures.

Lowest coefficient of friction of any solid material. Chemically inert across virtually all environments. Used for seals, gaskets, and bearings in semiconductor and chemical industries.

Lightweight, moisture-resistant, and very cost-effective. Machined for marine dock components, cutting boards, chemical tanks, and structural panels.

Versatile, impact-resistant thermoplastic with good machinability and paintability. Used for prototype housings, jigs, fixtures, and consumer product enclosures.

Excellent chemical resistance, fatigue endurance (living hinges), and low density. FDA-compliant grades available for fluid handling and medical-grade machined parts.

Rigid PVC resists acids, bases, and most solvents. Machined for pump housings, tank liners, pipe fittings, and electrical conduit components.

Crystal-clear optical plastic with exceptional UV stability. CNC machined for display panels, lenses, light diffusers, and decorative signage.

High-strength, inherently flame-retardant polyetherimide. Used in aerospace cabin interiors, medical sterilization trays, and electrical connectors up to 170°C.

Extremely high stiffness-to-weight ratio — stiffer than steel at 20% of the weight. CNC machined carbon fiber panels and structures are essential in aerospace, motorsport, and robotics.

Woven glass fiber epoxy laminate with exceptional electrical insulation and high mechanical strength. The dominant material for PCB substrates and electrical fixtures.

High-temperature fiberglass laminate maintaining mechanical and dielectric properties up to 170°C. Used in cryogenic tooling, electrical spacers, and structural insulation.

Cotton or linen cloth impregnated with phenolic resin. Hard, dimensionally stable, and machinable. Used for gears, pulleys, electrical panels, and tooling fixtures.