Manganese Bronze Alloys

Abstract

Manganese bronze alloys represent a significant category of copper-based materials that exhibit exceptional mechanical and physical properties. These alloys combine superior toughness, strength, and corrosion resistance with excellent electrical and thermal conductivity. Primarily composed of copper and zinc with small additions of manganese, aluminum, and iron, manganese bronzes are engineered for high-performance applications that require anti-seizing properties coupled with high strength. This article explores the composition, unique characteristics, and diverse industrial applications of manganese bronze alloys, highlighting their importance in aerospace, marine, oil and gas industries, and various mechanical systems requiring durable, corrosion-resistant components.


Introduction to Bronze Alloys

Bronze alloys are among the oldest engineered materials in human history, offering an impressive combination of toughness, strength, corrosion resistance, electrical conductivity, and thermal conductivity. The term "bronze" applies to copper-based alloys where phosphorus, manganese, aluminum, or silicon serves as the main alloying ingredient.

Bronze alloys are typically very ductile and considerably less brittle than cast iron. One of their distinctive advantages is their corrosion behavior—bronze typically only oxidizes superficially. Once a copper oxide layer (eventually becoming copper carbonate) forms, the underlying metal receives protection from further corrosion. This natural protection is evident in well-preserved statues from the Hellenistic period. However, if copper chlorides form, a destructive corrosion process known as "bronze disease" can eventually compromise the material's integrity.

These copper-based alloys offer several advantages over ferrous materials. They have lower melting points than steel or iron and are more readily produced from their constituent metals. Bronze alloys are generally about 10 percent denser than steel, although formulations using aluminum or silicon may be slightly less dense. As conductors, bronze outperforms most steels in both heat and electrical applications. While the cost of copper-base alloys typically exceeds that of steels, they remain more economical than nickel-base alloys.

Manganese Bronze Composition and Properties

Manganese Bronze is a specialized copper-zinc based alloy containing small but critical amounts of manganese, aluminum, and iron. The precise combination of these alloying elements significantly enhances the material's strength characteristics. Some formulations also include lead to improve lubricity, anti-seizing properties, and embeddability.

Essentially, manganese bronzes represent modifications of Muntz metal-type alloys (60% copper, 40% zinc brasses) with strategic elemental additions. Similar to aluminum bronzes, these alloys combine very high strength with exceptional corrosion resistance. Manganese bronze bearings can function effectively at high speeds under heavy loads, though they require hardened shafts and nonabrasive operating conditions for optimal performance.

Table 1: Manganese Bronze alloy properties

CDA SAE Alloy Typical Yield Strength Typical Tensile Strength Hardness, HB (500 kg Load) Machinability
C86200 430A 90 000 95 48 180 30
C86300 430B 110 000 115 65 225 8
C86500 43 65 000 65 25 - 26
C95700 Superstone MN/AL/BR 95 45 180 50

Industrial Applications of Manganese Bronze

The exceptional combination of properties makes manganese bronze alloys suitable for a wide range of demanding applications. Their high strength, corrosion resistance, and anti-seizing properties make them particularly valuable in components subjected to significant mechanical stress and challenging environmental conditions.

Typical applications include:

  • High-load bearings and bushings
  • Precision gears
  • Gibs and guide components
  • Screw-down nuts and lead screw assemblies
  • Bridge pins and structural components
  • Valve stems
  • Hydraulic cylinder parts

Various industries have adopted manganese bronze as a material of choice, including:

Aerospace Applications

In aerospace engineering, manganese bronze provides reliability in critical components such as landing gear parts and strut bushings where strength and weight considerations are paramount.

Marine Environment Solutions

The excellent corrosion resistance makes manganese bronze ideal for marine applications where exposure to saltwater presents significant challenges to material integrity.

Oil and Gas Industry Components

In oil and gas extraction and processing, manganese bronze components withstand the harsh conditions encountered in drilling operations and fluid handling systems.

Industrial Machinery

For industrial equipment requiring precision components with high wear resistance, manganese bronze offers longevity and reliability in screw machine parts, bearings, and bushings.

Figure 1: Manganese bronze product

Conclusion

Manganese bronze alloys represent an important category of engineered materials that continue to find new applications across multiple industries. Their versatility stems from an exceptional combination of mechanical properties, corrosion resistance, and overall performance characteristics. For engineers seeking high-strength, corrosion-resistant components that can operate reliably under demanding conditions, manganese bronze alloys offer a proven solution with centuries of metallurgical development behind them.

June, 2018

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References

1. The OnlineMetals Guide to Bronze, Accessed March 2018;
2. Bronze as a Casting Metal, Accessed March 2018;
3. RBC Lubron Bearing Systems, Accessed March 2018;
4. Manganese Bronze, MCC International Inc., Accessed March 2018;
5. Selecting Bronze Bearing Materials;
6. C 863 Manganese Bronze, Accessed March 2018;
7. Manganese bronze, NFM Non Ferrous Metal Works, Accessed March 2018;
8. Bronze Casting Alloys, HBF Hastings Brass Foundry Ltd., Accessed March 2018;
9. Manganese Bronze, 911 Metallurgist, Accessed March 2018.
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