UNS C61300 Nickel-Aluminium Bronze Chemical Composition Properties, Grade, Chart and Online Pdf
The ASTM B150 C61300 is a high-strength copper alloy with favorable corrosion resistance, performance output, and physical features. Its chemical formula is usually comprised of copper, aluminum, iron, and nickel, thus giving it a high degree of strength and corrosion-resistance. The most frequent application is to propeller shafts or pump parts in the marine environment (seawater corrosion resistance). ASTM B150 C61300 comes in some grades, which make them able to offer needed properties that fit each particular application. An example of a chart listing the respective grades and their features is important for the selection process as it helps to choose the suitable material for a specific case. On top of this, the accuracy of the information in a PDF document using a detailed ASTM B150 C61300 document will give thoroughly explanatory instructions about the material's composition, grades, and recommended uses.
C61300 Coppers Chemical Composition And Grade Table
The chemical composition, as in the case with C61300 copper, usually, includes copper (Cu), aluminum (Al), iron (Fe), and nickel (Ni), which make this copper alloy unique. Among the grades of copper, C61300 copper is included, having features adjusted to particular products. Grade table contains all necessary information on grades, which is the center of attention to the choosing based on preferred characteristics and aimed usage. This chart throws down the gauntlet as a very important reference tool for all the engineers, coming up with a C61300 copper alloys.
| Elements | Cu | Sn | Zn | Fe | Ni | Al | Mn | Si |
|---|---|---|---|---|---|---|---|---|
| Min (%) | 80 | - | - | 2.0 | 4.0 | 9.0 | - | - |
| Max (%) | Rem | 0.20 | 0.30 | 4.0 | 5.5 | 11.0 | 1.5 | 0.25 |
The Advantages and Disadvantages of ASTM B150 C61300 Copper Material Properties, C61300 Properties
Exceptional Electrical Conductivity: The OFE Copper C61300 has remarkable high electrical conductivity which is the specialization that our products focus on for high efficiency applications demand.
Soft Material: This feature of the material makes it very flexible during fabrication which involves bending, shaping and moulding during the designing processes.
Impressive Thermal Conductivity: C61300 offers outstanding conductivity of heat that makes it appropriate for heat exchangers, radiators, and different tasks of heat transfer in general.
Reasonable Corrosion Resistance: Even though it is not the most corrosion-resistant structure of all the copper alloys, C61300 still provides a pleasantly-acceptable level of protection against external factors causing erosion.
Susceptibility to Oxidation: It is the result of its high purity that oxidation of OFHC C61300 takes place quicker due to oxygen in the air or moisture when it is exposed to the air, thus requiring proper use and storage.
Advantages:
High Cost: Pure copper without oxygen (Oxygen-free copper) can be more expensive than other copper alloys including C61300 since its production strictly involves specific procedures that guarantee its purity.
Limited Strength: However, C61300 stainless steel material is rather soft, and this poses issues for applications that require very high levels of mechanical toughness.
Not Ideal for High-Stress Environments: It weakens, being prone to corrosion, to cause the less suitable material for the service where high-tensile strength and anti-corrosion are required.
Limited Work Hardening Ability: C61300 copper does not really possess the work-hardening function and therefore remains with its original strength and toughness level no matter how large plastic deformation it had.
Susceptibility to Stress Corrosion Cracking: The C61300 copper, which is usually considered to exhibit high general corrosion resistance, is still known to place SCC conditions under which it will be susceptible.
Disadvantages:
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Frequently Asked Questions
What does ASTM B150 C61300 Copper refer to?
ASTM B150 C61300 represents a standardized specification for aluminum bronze (C61300) bars, rods and rods. The alloy that contains the aluminum, iron, nickel, and manganese, provides excellent corrosion resistance, high strength and wear resistance and is necessary for shipbuilding and industrial sector.
Which are the Main Chemical Elements of C61300 Copper?
Copper (Cu), Tin (Sn), Zinc (Zn), Iron (Fe), Nickel (Ni), Aluminium (Al), Maganese (Mn) and Silicon (Si).
Why do you need to choose C61300 Copper?
C61300 Copper is an exceptional choice for its high wearout resistance, long life, and corrosion resistance in marine environments. It is most suitable for braided fibers which conduct applications such as bushings, bearings and gear’s where by durability, reliability and resistance to harsh is of paramount importance.
What process for C61300 copper production?
C61300 copper, also referred to as nickel aluminum bronze, is the type that commonly has continuous casting as the process of its production. The extrusion casting technique here involves directionally pouring molten metal into a static mold which is continuously changing shape into a solid state without any breaks.
Is the C61300 alloy suitable for use in harsh conditions?
Indeed, C61300 alloy, popularly known as Nickel Aluminum Bronze, possesses the superb corrosion resistance, high strength and wear resistance features that enables us to use it even in the worst kinds of conditions.
Is the C61300 alloy easily available in Mumbai, India?
C61300 alloy availability in the town of Mumbai, India may rise vastly. Local metal plants or distributors can be used for ordering time-sensitive items currently in the local store.