Metal Engineering Materials
Explore our range of advanced metal engineering materials developed for industrial manufacturing, precision engineering, and additive manufacturing applications. At Propshaft Master, we utilise high-performance 3D printing materials and industrial metal solutions selected for their strength, durability, thermal resistance, and long-term reliability in demanding environments. Our advanced engineering materials support precision manufacturing, industrial additive manufacturing, and custom component production across a wide range of industries where consistent performance and engineering quality are essential.
17-4 PH Stainless Steel
17-4 PH stainless steel is a high-performance engineering material widely used in industrial manufacturing and additive manufacturing applications that require excellent strength, durability, and corrosion resistance. Its reliable mechanical properties make it ideal for precision metal components used in machinery, processing equipment, pump systems, fasteners, tooling, and demanding industrial environments where long-term performance is critical.
316L Stainless Steel
316L stainless steel is a versatile engineering material known for its outstanding corrosion resistance and dependable performance in harsh industrial environments. Commonly used in industrial metal solutions and precision manufacturing, it is well suited to chemical processing, food production, marine equipment, medical applications, water treatment systems, and high-performance metal components exposed to demanding operating conditions.
4140 Steel
4140 steel is a durable alloy engineering material valued for its toughness, fatigue strength, and resistance to abrasion and impact. Frequently used in industrial manufacturing solutions and heavy-duty engineering applications, it is ideal for shafts, gears, couplings, tooling, automotive components, and precision metal parts requiring high structural reliability and long service life.
A2 Tool Steel
A2 tool steel is an air-hardening engineering material that delivers an excellent balance of toughness, dimensional stability, and wear resistance. Widely used in industrial prototyping and precision metal manufacturing, it is ideal for tooling applications including dies, punches, forming tools, industrial blades, mould components, and custom metal parts requiring consistent performance and accuracy.
Cu (Copper)
Copper is a highly conductive engineering material known for its exceptional electrical and thermal performance. Commonly used in advanced engineering materials and industrial component manufacturing, copper is ideal for heat exchangers, electrical systems, inductors, connectors, industrial electronics, and precision components requiring efficient energy and heat transfer.
D2 Tool Steel
D2 tool steel is a high-carbon, high-chromium engineering material designed for superior wear resistance and durability in demanding industrial applications. Frequently used in additive manufacturing materials and industrial tooling solutions, it is well suited for cutting tools, forming dies, mould inserts, industrial blades, and precision components exposed to high stress and repetitive operating conditions.
H13 Tool Steel
H13 tool steel is a high-performance hot-work engineering material known for its excellent toughness, thermal stability, and resistance to heat checking and abrasion. Widely used in industrial manufacturing and additive manufacturing applications, it is ideal for extrusion dies, injection mould tooling, die-casting components, forging dies, and precision tooling exposed to extreme temperatures and demanding production environments.
Nickel Alloy IN625
Nickel Alloy IN625 is a high-strength superalloy engineered for exceptional corrosion resistance and performance in extreme industrial conditions. Frequently used in advanced engineering materials and industrial metal solutions, it is ideal for aerospace, marine, chemical processing, energy, and defence applications where components are exposed to high temperatures, pressure, and corrosive operating environments.
Ti64
Ti64 is a lightweight titanium engineering material valued for its exceptional strength-to-weight ratio, corrosion resistance, and long-term durability. Commonly used in precision metal manufacturing and high-performance industrial applications, it is ideal for aerospace components, motorsport and automotive engineering, medical devices, industrial prototyping, and custom metal parts requiring maximum performance with reduced weight.
