The smaller the gadget, the bigger the challenge. New devices leverage increasingly delicate and meticulously engineered parts. That's where we come in with carefully manufactured wire in all shapes, sizes, alloys, and custom mechanical assemblies. Our customers use our materials and our knowledge as they create the next big thing that will take the world by storm.

Typical end uses

Our customers use our materials in small and demanding applications such as:

• Auxiliary power units (APUs)
• Battery and electronic management systems
• Climate systems sensors
• Conductors
• Connectors
• Dynamic braking systems
• Electronic heating elements
• EMI/RFI shielding wire
• Fixed or adjustable resistors
• Inductors
• Metal-oxide-semiconductor field-effect transistors
• Noise reduction and damping
• Optoelectronics
• Power control modules
• Power metal strips
• Precision wire wound resistors
• Thermal and electrical shielding
• Vehicle systems sensors

Alloys

Materials can be carefully engineered to perform in specific environments, making them versatile and valuable in a number of applications. If you don't see the alloy you need for your application, reach out to your Sales Representative.

• 20CB-3® alloy austenitic stainless steel with superior resistance to acids
• 2205 Duplex stainless steel high strength in the annealed condition, with good corrosion strength
• 302 stainless steel identical to 304V in chemical composition except for higher carbon content, with higher tensile strength than 304V produced using an electric-arc melt process, resulting in a high quality austenitic stainless steel
• 304V stainless steel vacuum arc remelted, 304V has more uniform chemistry with less tensile strength than 302
• 316LVM stainless steel uniform chemistry and improved microcleanliness and can be processed to improve ductility or corrosion resistance
• 35N LT™ alloy excellent combination of strength, fatigue resistance, corrosion resistance, and good biocompatibility
• 45/55 NiCu
• 80/20 NiCr
• Commercially pure titanium, grades 1-4 grade 1 has the highest corrosion resistance, formability, and lowest strength, whereas grade 4 offers the highest strength with moderate formability
• Evanohm® alloy
• Hastelloy® C-276 high ductility and excellent resistance to stress corrosion cracking in chloride-bearing solutions
• Hastelloy® alloy X excellent oxidation resistance and strength at elevated temperatures
• Haynes® 188 alloy excellent strength and corrosion resistance at elevated temperatures
• Haynes® 282 alloy age hardenable nickel super alloy with improved creep strength, weldability, and fabricability
• Haynes® R-41 excellent strength and oxidation resistance at elevated temperatures and can be annealed for greater ductility
• Haynes® Waspaloy alloy excellent strength at elevated temperatures
• Inconel® alloy 600 good corrosion resistance at elevated temperatures
• Inconel® alloy 601
• Inconel® alloy 625 high strength without additional heat treatment
• Inconel® alloy X-750 high strength and corrosion resistance at elevated temperatures
• L-605 alloy good oxidation and corrosion resistance as well as high strength in elevated temperatures
• MP35N® alloy combination of strength, good biocompatibility, and corrosion resistance
• Nickel 200 a low alloy wrought nickel with excellent electrical properties and high strength
• Nickel 201 a low carbon modification of the Nickel 20 alloy with low electrical resistivity
• Nickel 205 a very ductile material with excellent electrical properties and good corrosion resistance
• Niclal alloy a precision low resistance alloy for electrical shunts
• Nimonic® 90 high ductility and excellent resistance to stress corrosion cracking in chloride-bearing solutions
• Super Duplex stainless steel high resistance to pitting corrosion
• Ti 6Al-4V ELI an alpha-beta alloy containing 6% aluminum, 4% vanadium, and extra low interstitials