Tag Archives: HCT450X+Z(DP450+Z) steel grade

Mechanical Composition: – Yield Strength (R p0.2): ≥ 450 MPa – Tensile Strength (R m): 470-600 MPa – Elongation (A 80): ≥ 17% – Minimum Bend Radius (measured at 90°): 0-2.0t Chemical Composition: – Carbon (C): ≤ 0.18% – Manganese (Mn): ≤ 2.00% – Phosphorus (P): ≤ 0.025% – Sulfur (S): ≤ 0.010% – Silicon […]

physical properties The Environmental Benefits of HCT450X+Z(DP450+Z) Steel Grade in Sustainable Engineering – High strength and lightweight, reducing material usage and transportation energy – Excellent formability, allowing for complex shapes and parts to be produced with minimal waste – Good weldability, enabling easy repair and recycling of components – Corrosion resistance, extending the lifespan of […]

Specification: – Grade: HCT450X+Z(DP450+Z) – Material Type: Steel – Standard: Industry Standards – Mechanical Properties: High strength, ductility, and formability – Chemical Composition: Advanced alloying elements for improved performance – Coating: Zinc coating for corrosion resistance – Application: Automotive and construction industry Mechanical Composition: – Tensile Strength: 450 MPa – Yield Strength: 350 MPa – […]

Steel Grade: HCT450X+Z(DP450+Z) Mechanical Composition: – Yield strength: 450 MPa – Tensile strength: 470-590 MPa – Elongation: 23% – Hardness: HRc 20-30 – Bendability: 0T-2T Chemical Composition: – Carbon (C): ≤0.20% – Manganese (Mn): ≤1.00% – Phosphorus (P): ≤0.025% – Sulfur (S): ≤0.015% – Silicon (Si): ≤0.50% – Aluminum (Al): ≥2.00% Application: – Construction and […]

Unfortunately, I do not have specific information regarding the mechanical and chemical composition of HCT450X+Z(DP450+Z). I recommend contacting the manufacturer or referring to technical data sheets for this information.

– High tensile strength – Improved formability and weldability – Enhanced corrosion resistance – Higher impact resistance – Improved fatigue strength – Lower carbon content for better cold formability – Increased manganese content for improved hardenability – Addition of microalloying elements for grain refinement and improved strength – Optimization of heat treatment process for better […]

The mechanical composition of HCT450X+Z(DP450+Z) steel grade includes a combination of high strength, formability, and good weldability, making it suitable for use in infrastructure development. The chemical composition of HCT450X+Z(DP450+Z) steel grade typically includes elements such as carbon, manganese, silicon, phosphorus, and sulfur, as well as trace amounts of other alloying elements. These elements work […]

The HCT450X+Z (DP450+Z) steel grade is a high-strength dual-phase steel, primarily used in automotive and construction applications. It is designed to provide good corrosion resistance and formability, as well as excellent strength and toughness. The mechanical and chemical compositions of this steel grade play a crucial role in determining its performance in various applications. Mechanical […]

The HCT450X+Z(DP450+Z) steel is a high-strength dual-phase steel that is specifically designed for applications in the lightweight construction and automotive industries. Its mechanical and chemical composition play a crucial role in its impact and performance in these industries. Mechanical Composition: – High tensile strength: HCT450X+Z steel has a minimum tensile strength of 450 MPa, making […]

HCT450X+Z(DP450+Z) steel grade is a high-strength dual-phase steel with a zinc coating for enhanced corrosion resistance. The mechanical composition of this steel grade typically includes a tensile strength of 450 MPa, a yield strength of 370 MPa, and an elongation of 22%. The steel is known for its superior strength and structural performance, making it […]