designation Exploring the Properties and Applications of A941-17 Steel Grade
Chemical Composition:
– A941-17 steel grade is a low-carbon steel, typically with a maximum carbon content of 0.30%.
– It also contains small amounts of manganese, phosphorus, sulfur, and silicon.
– The steel may also have trace amounts of other elements such as chromium, nickel, and molybdenum.
Mechanical Properties:
– A941-17 steel grade has a minimum yield strength of 240 MPa (35 ksi) and a minimum tensile strength of 415 MPa (60 ksi).
– It has a maximum elongation of 25% in a 50 mm gauge length.
– The steel has excellent formability and weldability, making it suitable for various fabrication processes.
Standard number:
– A941-17 is a designation given to this steel grade by the American Society for Testing and Materials (ASTM).
– The standard number A941-17 specifies the requirements for steel composition, mechanical properties, and test methods.
– The standard provides guidelines for manufacturers, engineers, and researchers to ensure consistency in the properties and performance of A941-17 steel grade.
Corresponding designation:
– The corresponding designation for A941-17 steel grade in other standards is usually different.
– It is important to cross-reference the specific composition and mechanical properties with the corresponding standards to ensure compatibility and suitability for specific applications.
– Some common corresponding designations may include EN 10025 S235JR, JIS G3101 SS400, and ISO 630 E235B.
Applications:
– A941-17 steel grade is commonly used in structural applications such as building construction, bridges, and general fabrication.
– It is also suitable for automotive components, machinery parts, and various industrial applications.
– The steel’s good strength, formability, and weldability make it versatile for different manufacturing processes and environments.
In conclusion, A941-17 steel grade is a low-carbon steel with specific chemical composition and mechanical properties. It is standardized by ASTM and commonly used in various structural and industrial applications. Cross-referencing with corresponding designations in other standards ensures compatibility and suitability for specific applications.