Material Composition: Iron-based powder, with a small amount of alloying elements such as nickel (Ni), molybdenum (Mo), copper (Cu), and manganese (Mn) added.Features and Advantages:Balance of High Strength and Good Toughness: Through alloy strengthening and heat treatment after sintering (such as quenching + tempering), its tensile strength can easily reach over 800 MPa, even exceeding 1200 MPa, comparable to forged steel materials.Cost Effectiveness: Compared to high-alloy materials, it is less costly, making it one of the optimal choices for structural components.Typical Applications: High-load structural components such as automotive engine connecting rods, transmission gears, sprockets, and hydraulic components.
Titanium and Titanium AlloysMaterial Composition: Pure titanium powder or Ti-6Al-4V (an alloy powder that adds 6% aluminum and 4% vanadium to titanium).Characteristics and Advantages:High Strength-to-Weight Ratio: High strength but extremely light weight, making it an ideal material for aerospace and medical fields.Excellent Biocompatibility and Corrosion Resistance: Perfect material for implantation in the human body.Traditionally High Processing Costs: PM technology (particularly Metal Injection Molding - MIM) can significantly reduce material waste and machining costs of titanium parts, enabling its application in a wider range of consumer fields (such as watches and eyeglass frames).Typical Applications: Surgical implants (joints, bone plates), aerospace fasteners, high-performance sports equipment, luxury appearance parts.

