A Copper Alliance Member
- Applications
- Resources
- Find Suppliers of Copper
- Technical Reference Library
- Publications List
- Automotive
- Building Construction: Architecture
- Building Construction: Fire Sprinklers
- Building Construction: Home Builders' Marketing Materials
- Building Construction: Natural Gas
- Building Construction: Plumbing
- Electrical: Energy Efficiency
- Electrical: General
- Electrical: Power Quality
- Electrical: Telecommunications
- Industrial: Bronze Bearings
- Industrial: Cast Products
- Industrial: General
- Industrial: Machined Rod Products
- Industrial: Mold Alloys
- Properties / Standards
- Seawater
- Soldering / Brazing / Welding
- Special Publications
- Statistics / Directories
- Seminars, Workshops & Training
- Market Data
- Standards
- Properties
- Properties of Wrought and Cast Copper Alloys
- Properties of Copper
- Low Temperature Properties of Copper
- Cryogenic Properties of Copper
- Typical Uses of Copper Alloys
- Copper Compounds
- Microstructures of Copper Alloys
- Corrosion Protection & Resistance
- Fabrication Practices
- Powder Metallurgy
- Metallurgy of Copper-Base Alloys
- Questions?
- Consumers
- Education
- Environment
- Publications
- Newsletters
- Publications List
- Automotive
- Building Construction: Architecture
- Building Construction: Fire Sprinklers
- Building Construction: Home Builders' Marketing Materials
- Building Construction: Natural Gas
- Building Construction: Plumbing
- Electrical: Energy Efficiency
- Electrical: General
- Electrical: Power Quality
- Electrical: Telecommunications
- Industrial: Bronze Bearings
- Industrial: Cast Products
- Industrial: General
- Industrial: Machined Rod Products
- Industrial: Mold Alloys
- Properties / Standards
- Seawater
- Soldering / Brazing / Welding
- Special Publications
- Statistics / Directories
- About CDA
Industrial
- Copper Motor Rotor
- Casting Alloys
- Copper Alloy Molds
- Applications
- Benefits
- Comparison of Mold Alloy Properties
- Whirlpool Uses Copper Alloy Mold
- Technical Paper - Cooling Prediction
- Technical Paper - Getting Heat Out of the Mold
- Copper Core With Copper Chill Plate Runs Better Than Water In Steel
- Copper-Alloy Core Solves Warpage
- Copper-Alloy Cores Reduce Cycle Time
- Wear Research To Compare Copper Molds To Steel
- ANTEC Report - Use of Copper Alloys to Reduce Mold Condensation Problems
- ANTEC Report - Impact of Fines Separation
- ANTEC Report - Comparison of Various Hard Coatings
- ANTEC Report - Understanding the Source of Reduced Mechanical Properties
- ANTEC Report - Resistance to Erosive Wear
- ANTEC Report - Undercutting Mold Performance
- ANTEC Report - Minimization of Gate Wear
- Applications
- Bronze Sleeve Bearings
- Selecting Bronze Bearing Materials
- Electronic Connector Design Guide
- Mold Design Guidelines
Conductivity of Specialty Alloys
Photo ©1998 AMP INC. There are several specially-designed bronzes, brasses and copper-nickel alloys, many of which are widely used for connectors. The nickel silvers (copper alloys containing nickel and zinc) are also part of this alloy group; none of them has more than 10% IACS. The nickel-containing alloys are excellent choices when strength and stability at elevated temperatures are required. Conductivity is usually sacrificed at the expense of strength. Nickel-silicon alloys somewhat overcome this problem. They develop high strength while maintaining conductivity. This is accomplished with special processing, i.e., precipitation hardening, which effectively reduces the nickel in solid solution.
Many newer connector metals are produced by alloying tin, zirconium, iron, beryllium, cobalt, aluminum, silicon, magnesium, and/or phosphorous with copper. The wide range of conductivity possessed by these alloys is a consequence of the diversity of the alloying elements and strengthening mechanisms. One copper-zirconium alloy has almost the conductivity of pure copper but certain copper-silicon and copper-nickel alloys, at the other end of the spectrum, have only 1/10 as much. Many of these metals were developed during the 1970's and 1980's with specific market niches in mind. Computer components and electronic automotive components are frequently fashioned from these alloys.
Selection of Copper Alloys for Connectors
- Performance Requirements
- Electrical and Thermal Conductivity
- Discussion of Conductivity
- Conductivity of Alloy Classes
- Conductivity of Brass
- Conductivity of Phosphor Bronze
- Conductivity of Specialty Alloys
- Strength Versus Conductivity
- Modulus of Elasticity
- Contact Force
- The Brasses
- Phosphor Bronze
- Higher Strength Alloys
- Formability
- Directionality of Formability
- Other Requirements
