Wenzhou Kaixin Kaixin Metal Co., Ltd
What is stainless steel 302HQ?
Grade 302HQ is a specialised wire grade with very wide usage for manufacture of stainless steel
fasteners. The inclusion of 3% copper in the composition reduces the cold work hardening rate
substantially compared to Grade 304. 302HQ is standard for manufacture of self-tapping screws
and light machine screws; it is also used for some bolts, set screws, rivets and specialised
fasteners. It has now totally replaced Grades 384 y 305 for cold heading applications, cobre
being a lower cost alternative to their high nickel contents.
The designation 302HQ is not standardised – ASTM specifications list the grade as UNS S30430,
and alternative designations for the same grade include «XM-7», «304Cu» y «304HQ». The
standard specification for stainless steel fasteners, YO ASI 3506, includes 302HQ as an acceptable
composition for fastener grade “A2”; it is commonly produced in strength grades A2-70 and A2-80.
302HQ acero inoxidable 1.4567 Finished Products Form
- Coil – Strip
- Foil: Inquire with Ulbrich Stainless Steel Wire – Profile
- Redondo
- Flat
- Cuadrado
Applications for 302HQ acero inoxidable
- Equipos de procesamiento de alimentos
- Transport and storage equipment (e.g., beer brewing, milk processing, wine making)
- Kitchen benches, sinks, troughs, equipment, and appliances
- Architectural paneling, railings, and trim
- Chemical containers, including for transport
- Heat exchangers
- Woven or welded screens
- Threaded fasteners
- Springs
Equivalents of grade 302HQ
| Calificación | SNU No | Viejo británico | Euronorm | SS sueco | Japonés él | ||
| Licenciatura | En | No | Nombre | ||||
| 302HQ | S30430 | 394S17 | – | 1.4567 | X3CrNiCu18-9-4 | – | SUS XM7 |
Composición ranges for 302HQ grade of stainless steel
Propiedades mecánicas
| Property | Value |
| Resistencia a la tracción, mín. | 515 MPa |
| Fuerza de producción (0.2% Proof), mín. | 205 MPa |
| Elongation in 50 milímetros, mín. | 40% |
| Dureza, máximo | 201 HB |
Propiedades físicas
| Calificación | Densidad (kg/m3) | Módulo elástico (GPa) | Coeficiente medio de expansión térmica (µm/m/°C) | Conductividad térmica (W/m.k) | Calor específico 0-100 °C (J/kg.K) | Resistividad eléctrica (nΩ.m) | |||
| 0-100 °C | 0-315 °C | 0-538 °C | at 100 °C | at 500 °C | |||||
| 302HQ | 8027 | 193 | 17.2 | 17.8 | 18.8 | 16.3 | 21.5 | 500 | 720 |
Corrosion Resistance
Equal to or exceeding that of Calificación 304. Subject to pitting and crevice corrosion in warm chloride
environments, and to stress corrosion cracking above about 50°C. 302HQ is considered resistant
to potable water with up to about 200mg/L chlorides at ambient temperatures, reducing to about
150mg/L at 60°C.
Heat Resistance
Good oxidation resistance in intermittent service to 870°C and in continuous service to 925°C.
Continuous use of Grade 302HQ in 425-860°C range is usually safe (free of carbide precipitation)
as the grade has a very low carbon content.
Heat Treatment
Solution Treatment (Annealing) – Heat to 1010-1120°C and cool rapidly. This grade cannot be hardened by thermal treatment.
Cold Work Hardening
302HQ has the lowest work hardening rate of any of the common austenitic stainless steels. This results in a tensile strength increase of approximately 8MPa/%Ra (8MPa increase in tensile strength for each 1% reduction of area of cold work – this data from wire drawing). Even after substantial cold work this grade remains essentially non-responsive to a magnet.
Welding
Stainless steel AISI 304CU (1.4567, X3CrNiCu18-9) has good weldability and can be used with many common welding processes such as TIG welding and MIG welding. It can also be used for arc welding, but this should be carried out with appropriate welding parameters to avoid overheating and distortion. To reduce tension and maintain the mechanical properties, the material should be allowed to cool in the air after welding. No heat treatment is required.
Machinability
AISI 304CU (1.4567) stainless steel is generally machinable, but this material hardens during machining. Por lo tanto, care must be taken to select a sufficient cutting depth. Además, suitable tools and coolants should be used to prevent overheating and extend tool life.