CuSn7Zn4Pb7-C (CC493K) vs CuFe2P: 14% composition overlap. Significantly different materials serving different application areas.
CuSn7Zn4Pb7-C (CC493K) vs CuFe2P
Side-by-side chemical composition and mechanical property comparison.
Overview
CuSn7Zn4Pb7-C (CC493K)
2.1090
The world's most common bearing bronze (Rg7). Higher tin (7%) and lead (7%) content than Rg5 provides superior bearing properties, better wear resistance, and improved self-lubrication under boundary lubrication. Good sliding properties even for occasional dry running during acceleration. Standard material per DIN 1850/ISO 4379 for plain bearings. Used for medium-load sliding bearings, bushings, guide bushings, valve seats, and worm gear nuts in general engineering, textile machinery, and agricultural equipment. ASTM: C93200.
CuFe2P
CW107C
Precipitation-hardened copper-iron alloy β THE semiconductor leadframe material since 1964. Fe precipitates give UTS up to 580 MPa while maintaining 60-65% IACS electrical conductivity. Resists softening to 350Β°C (critical for IC packaging). Also used for automotive connectors, pin grid arrays (PGA), and terminals. Trade names: Wieland K65, Aurubis PNA212.
| CuSn7Zn4Pb7-C (CC493K) | CuFe2P | |
|---|---|---|
| Material Number | 2.1090 | CW107C |
| Category | Copper & Brass | Copper & Brass |
| Standard | EN 1982 | EN 1758 |
Chemical composition (wt%)
| Element | CuSn7Zn4Pb7-C (CC493K) | CuFe2P | Overlap |
|---|---|---|---|
| Si | β€ 0.01% | β | β |
| P | β€ 0.1% | 0.015β0.15% | Partial |
| Ni | β€ 2% | β | β |
| Cu | 81β85% | β | β |
Mechanical properties
| Property | CuSn7Zn4Pb7-C (CC493K) | CuFe2P | Unit |
|---|---|---|---|
| tensile_strength | 230β270 | 300β340 | MPa |
| yield_strength | 110β130 | 150β200 | MPa |
| elongation | 7β14 | 25β35 | % |
Compatibility Assessment
CuSn7Zn4Pb7-C (CC493K) and CuFe2P have significantly different compositions (14% overlap). These materials are not interchangeable and serve different application areas.
Automated assessment based on composition analysis
Frequently Asked Questions
Is CuSn7Zn4Pb7-C (CC493K) the same as CuFe2P?
CuSn7Zn4Pb7-C (CC493K) and CuFe2P have a 14% composition overlap. They are generally not directly interchangeable.
Can I replace CuSn7Zn4Pb7-C (CC493K) with CuFe2P?
Generally not recommended. The compositions differ significantly (14% overlap). These materials have different alloying concepts and are intended for different applications.
What is the difference between CuSn7Zn4Pb7-C (CC493K) and CuFe2P?
The main differences are in the following elements: P, Zn, Fe. CuSn7Zn4Pb7-C (CC493K) is a Copper & Brass grade, while CuFe2P is a Copper & Brass grade.
View full data for each material:
Data provided for reference only. Always verify against the applicable specification for critical applications.
All data is for reference only. Equivalents indicate similarity, not identity. Always verify against the applicable specification for safety-critical applications. materialref.com accepts no liability for decisions based on this data.