Alloy 390®
for High Power Applications
Alloy 390® has broken through the performance barrier that has long required materials users to select between strength and conductivity.
Utilizing Lean Six Sigma methodology, Brush Wellman has made process breakthroughs that have enabled it to produce an alloy that has both high strength (nominal 140 ksi, 0.2% yield strength) and high conductivity (44% IACS minimum). Alloy 390® combines the best attributes of two separate families of commercial copper beryllium alloys – the strength of the “high strength” alloy C17200 with the conductivity of “high conductivity” alloys such as C17410 and C17510. In addition, Alloy 390® has excellent stress relaxation resistance at elevated temperatures. The mill hardened alloy is available in strip form ranging from 0.002 to 0.010 inch thick.
| Key Attributes |
| Electrical Conductivity (Minimum % IACS) |
44 |
| Nominal Yield Strength (ksi) |
140 |
| Formability Transverse/Longitudinal (90 Bend)* |
2.0/2.0 |
| Fatigue Strength- 108 Cycles, R = -1 (ksi) |
48 |
| Resilience Ratio (Yield Strength : Elastic Modulus) |
7.37 x 10-3 |
Stress Relaxation at 150 C for 1000 hr (% S.R.),
Initial stress = 75% of 0.2% Offset Yield Strength |
83 |
*Formability for thickness in the range of 0.002" to 0.004"
Users of the new copper-nickel-beryllium alloy, including those in the computer burn in and test socket (BiTS) and production sockets as well as other high power consumer and communication equipment markets, are already seeing benefits. Alloy 390® is providing a unique combination of properties that allows users to create small form factor electrical contacts in some extremely demanding applications.
With the push for further miniaturization, new generations of densely packaged, high-speed integrated circuit devices are increasing power requirements dramatically, this alloy is eliminating hurdles. This, in turn, drives the need for lower thermal resistance while maintaining the desired mechanical performance characteristics.
In the BiTS and production socket applications, Alloy 390® is now being used to make electrical-mechanical contact springs (land grid array contacts) which provides the interconnection between the active device and the printed circuit board.
Alloy 390® allows for the large deflection range required by these high pin count devices, and by way of superior electrical and thermal conductivity, eliminates the resistive heating problems that hindered the effectiveness of other alloy solutions.
Device packages need to be tested to sort out those that are defective prior to further production. These tests require repeated actuation (package insertions and removals) over an extended period of time at elevated temperatures. The excellent low cycle fatigue strength of Alloy 390® increases the durability of the sockets which reduces the cost to perform this non-value added testing.
Alloy 390® is well suited for any application where power management and or harsh operating environments are of concern. This alloy is proving successful in handheld communication devices for its promise of increasing battery life and reducing charging times due to its enhanced electrical conductivity.
Other potential applications for Alloy 390® are automotive terminals, switches and relays; power connectors; SIM card contacts; and appliance switches, relays, sensors, and controls.
For further information please contact Alloy Technical Services at 1-800-375-4205.