304
304 is the most widely used chromium-nickel austenitic stainless steel, with the national standard grade 06Cr19Ni10 and UNS S30400. It is non-magnetic and features outstanding ductility for general-purpose applications.
Typical Chemical Composition
- Chromium (Cr): 18%–20% – provides rust resistance and corrosion protection
- Nickel (Ni): 8%–11% – stabilizes austenitic microstructure and improves ductility & low-temperature toughness
- Carbon (C): ≤0.08% – low carbon content reduces risk of intergranular corrosion
- Balance iron with trace manganese and silicon impurities
Key Material Characteristics
- Excellent Corrosion Resistance A dense passive chromium oxide film forms on the surface, delivering reliable protection against atmospheric moisture, fresh water, weak acids and food-grade media. It offers stable anti-rust performance for wearable, medical, kitchen and automotive cosmetic components.
- Non-magnetic Austenitic Structure Non-magnetic under ambient temperature. Mild magnetic properties may occur after bending or stamping, making it suitable for audio and precision electronic decorative parts.
- Superior Plasticity & Formability High ductility enables bending, drawing and deep drawing. It is highly compatible with MIM, polishing, sandblasting and other surface finishing processes, ideal for miniature complex decorative and structural components.
- Excellent Low-Temperature Performance No brittle transition at low temperatures, making it a top choice for cryogenic service parts.
- Mechanical Strength Moderate strength in annealed condition. It cannot be hardened via quenching; hardness can only be slightly raised by cold working such as stamping and wire drawing. For high-strength, wear-resistant parts, 17-4PH or 440 martensitic stainless steels are preferred.
- Heat Resistance Continuous service temperature up to 870°C, with short-term heat resistance reaching 1000°C and good oxidation resistance.
Machining Compatibility (MIM Production Scenarios)
- Metal Injection Molding (MIM) 304 powder features favorable flowability and high sintered density after debinding and sintering. Perfect for miniature buckles, buttons, wearable bezels, medical tweezers and thin-walled irregular components, with low cracking risk thanks to high toughness.
- Wide Compatibility with Surface Treatments Supports mirror polishing, brushing, sandblasting, passivation and PVD coating with AF anti-fingerprint film, meeting cosmetic requirements for smart wearables, audio devices and automotive trims.
- Heat Treatment Limitations Not hardenable by quenching. Solution treatment is commonly applied to eliminate processing stress and restore corrosion resistance; no hardness improvement can be achieved through aging.
Advantages & Disadvantages
Advantages
- Cost-effective general stainless steel with stable supply chains
- Strong resistance to rust, weak acids and alkalis; food-safe and biocompatible
- Easy to polish for premium cosmetic finishes for decorative parts
- High toughness with low fracture risk, suitable for frequently opened small parts including buckles, watch bezels and earphone buttons
Disadvantages
- Low hardness and poor wear resistance; not recommended for heavy-load or high-friction moving assemblies such as hinges and gears (17-4PH is preferred)
- Prone to pitting corrosion in chloride-rich environments (seawater, heavy salt mist); switch to 316L for harsh corrosive conditions
- Cannot be strengthened by heat treatment
Typical Applications (Matching Your Product Portfolio)
- Smart Wearables: Watch bezels, watch band buckles, decorative AI eyewear parts
- Audio Equipment: TWS earphone buttons, decorative components
- Automotive Parts: Car key ornaments
- Medical Devices: Medical tweezers, minimally invasive instruments under low mechanical loads
- General Hardware: Kitchen & bathroom fittings, precision cosmetic trims
Comparison of Similar Grades (304 / 304L / 316L)
- 304: Standard general grade with balanced cost and performance for regular dry & wet environments
- 304L: Extra-low carbon variant with superior resistance to intergranular corrosion after welding, widely used for piping and fluid connectors
- 316L: Molybdenum-alloyed for enhanced salt spray and acid resistance, specified for medical implants and marine environments