High-performance alloys

High-performance alloys are designed to take on the challenges of an ever-changing world. These exactingly engineered materials offer a range of properties such as strength, fatigue resistance, ductility, good biocompatibility, and corrosion resistance to withstand the pressures of critical applications.

Understanding high-performance alloys

There is no basic definition for what makes a high-performance alloy, which are sometimes called superalloys. Many of the most common high-performance alloys are nickel or cobalt based. They can usually operate in high-heat environments for extended periods of time and offer high strength and corrosion resistance.

At Fort Wayne Metals, we routinely process the following high-performance alloys. Click on each alloy to learn more.

 

We also work with the following high-performance alloys upon requests:

  • Alloy 31
  • Alloy 901
  • Alloy 902
  • Chromel
  • HASTELLOY® alloy B-2
  • HASTELLOY® alloy C-22
  • HASTELLOY® alloy C-4
  • HASTELLOY® alloy B
  • HASTELLOY® alloy S
  • HAYNES® 214®
  • HAYNES® 230®
  • HAYNES® 242®
  • HAYNES® alloy C-263
  • INCONEL® alloy 601
  • Ni200
  • ULTIMET®

 

Product forms and capabilities

High-performance alloys can be processed to meet a variety of needs. Click on the products forms to learn about the ways you can use high-performance alloys for your application.

  • Centerless ground bar precision ground bar in various sizes and alloys
  • Coatings carefully applied coatings provide electric insulation or chemical separation
  • Custom assembly crimps, fittings, and custom part manufacture
  • DFT® wire combines two dissimilar materials in a single construction
  • Flat wire drawn or rolled flat NIMONIC® alloy 90 wire or metal strip
  • HHS® tube a strand with an open center working channel
  • Round wire traditional wire drawn to customer specifications in a variety of alloys
  • Shaped wire a variety of specialty shaped cross-sectional wire
  • SLT® wire straight-off-the-spool wire to eliminate process steps
  • Strands & cables complex wire constructions for advanced applications

 

Typical end uses

Our customers use high-performance alloys in their most challenging applications, such as implantable devices that need to perform even with rigorous use. Some of the most common include.

  • Hip and knee replacements
  • Spinal rods and screws
  • Stents
  • Vena cava filters
  • Surgical clips
  • Orthodontic appliances

 

Surface finishes and material conditions

High-performance alloys develop a highly polished appearance as they are drawn to fine diameters. Bar made in high performance alloys will have a very smooth and consistent appearance. Materials can be provided in annealed, cold worked, or heat-treated conditions.

 

Enhanced solutions

If your application requires better fatigue resistance than high-performance alloys typically offer, explore our NDR® wire. Several high-performance alloys can be used in NDR® wire, which is produced using a thermal-mechanical treatment to refine the microstructure, which means you get better fatigue life without altering the physical properties of the material.

High-performance alloys

High-performance alloys are designed to take on the challenges of an ever-changing world. These exactingly engineered materials offer a range of properties such as strength, fatigue resistance, ductility, good biocompatibility, and corrosion resistance to withstand the pressures of critical applications.

Understanding high-performance alloys

There is no basic definition for what makes a high-performance alloy, which are sometimes called superalloys. Many of the most common high-performance alloys are nickel or cobalt based. They can usually operate in high-heat environments for extended periods of time and offer high strength and corrosion resistance.

At Fort Wayne Metals, we routinely process the following high-performance alloys. Click on each alloy to learn more.

 

We also work with the following high-performance alloys upon requests:

  • Alloy 31
  • Alloy 901
  • Alloy 902
  • Chromel
  • HASTELLOY® alloy B-2
  • HASTELLOY® alloy C-22
  • HASTELLOY® alloy C-4
  • HASTELLOY® alloy B
  • HASTELLOY® alloy S
  • HAYNES® 214®
  • HAYNES® 230®
  • HAYNES® 242®
  • HAYNES® alloy C-263
  • INCONEL® alloy 601
  • Ni200
  • ULTIMET®

 

Product forms and capabilities

High-performance alloys can be processed to meet a variety of needs. Click on the products forms to learn about the ways you can use high-performance alloys for your application.

  • Centerless ground bar precision ground bar in various sizes and alloys
  • Coatings carefully applied coatings provide electric insulation or chemical separation
  • Custom assembly crimps, fittings, and custom part manufacture
  • DFT® wire combines two dissimilar materials in a single construction
  • Flat wire drawn or rolled flat NIMONIC® alloy 90 wire or metal strip
  • HHS® tube a strand with an open center working channel
  • Round wire traditional wire drawn to customer specifications in a variety of alloys
  • Shaped wire a variety of specialty shaped cross-sectional wire
  • SLT® wire straight-off-the-spool wire to eliminate process steps
  • Strands & cables complex wire constructions for advanced applications

 

Typical end uses

Our customers use high-performance alloys in their most challenging applications, such as implantable devices that need to perform even with rigorous use. Some of the most common include.

  • Hip and knee replacements
  • Spinal rods and screws
  • Stents
  • Vena cava filters
  • Surgical clips
  • Orthodontic appliances

 

Surface finishes and material conditions

High-performance alloys develop a highly polished appearance as they are drawn to fine diameters. Bar made in high performance alloys will have a very smooth and consistent appearance. Materials can be provided in annealed, cold worked, or heat-treated conditions.

 

Enhanced solutions

If your application requires better fatigue resistance than high-performance alloys typically offer, explore our NDR® wire. Several high-performance alloys can be used in NDR® wire, which is produced using a thermal-mechanical treatment to refine the microstructure, which means you get better fatigue life without altering the physical properties of the material.