C10400 Copper Chemical Composition (ASTM B152), Grades, Chart and Pdf

Copper to ASTM B152 specification is known for its unique chemical composition because of a particular chemical composition required, design and control of which was strictly controlled. The innovation of this copper alloy is that it includes two or more elements that have been subjected to a meticulous technique in order to produce some characteristics and useful features for different types of industrial usage. The information derived from the grades, chart and table are put together to give better perception of what C10400 Copper is, its mechanical properties and intended purposes. Consequently, stakeholders can utilize the developed chart and table for information retrieval purposes and subsequently ensure that the decision on material selection corresponds to the project’s conditions. The diagram illustrates the different degrees of C10400 Copper, together with their properties and applications. Moreover, this data is substantially referenced, pointing to the system and some specific characteristics of C10400 Copper. The versatility and dependability of copper have turned it into a preferred option among different industries like electrical engineering, plumbing and the industrial sector.

C10400 Copper Composition And Grades Table

The Copper Composition and Grades Table provides important data about the chemical contents and classifications of copper. The composition and grades of C01400 Copper are mapped out in the table by M4METALS in details for industrial users to take decisions. Stakeholders can distinguish the unique properties of C01400 Copper and choose, therefore, the grade most suitable for their applications, by referring to Table.

C10400 Copper Composition Table
Elements Cu Ag 4
Min (%) 99.95 0.025
Max (%) 100 -

The Advantages and Disadvantages of ASTM B152 C10400 Copper Material Properties, c10400 Properties


  • Exceptional Electrical Conductivity: Therefore ASTM C10400 enormously wins in the electrical conductivity which is higher than %99 and thus serves the best in electrical joints, conductors and other electrical components which have the purpose of conducting the electric current properly.
  • Superior Thermal Conductivity: The semiconductor composition shows an excellent thermal property, allowing for effective heat transfer. Steadfastly, it intensifies for HVAC heat exchangers, cooling units, and industrial processes.
  • Robust Corrosion Resistance: C10400 being free of complex oxide hybrid scales and developing an oxide layer with an excellent corrosion protection quality during operation at elevated temperatures ensures an excellent corrosion resistance performance of C10400.
  • Ductility and Formability: ASTM C10400 showing high ductility forms various shapes easily at a fabrication point which adds variety in its application and uses.
  • Hydrogen Embrittlement Resistance: C10400 exhibits very high resistance to hydrogen embrittlement even under the environment of severe hydrogen charging pressure, which gives it the means of being suitable for extremely demanding applications where resistance to hydrogen embrittlement holds a great value.


  • High Cost: With its superb purity and the lack of oxygen, high-purity copper charged with a top price is far beyond the common copper alloys, according to the mainstream. This high cost is due to the complex manufacture procedure as well as the stringent quality control system, in turn.
  • Limited Availability: The copper alloy C10400 is the mechanical property of an Advanced High Strength Steel, which may lead to difficulties in obtaining the required specifications. If not available on the market, its procurability may be restricted.
  • Limited Strength: C10400 is greatly characterized as an atom of an electric current. However, being a buttery metal, this material lacks the sufficient strength necessary for a structure thus requires reinforcement to meet the performance standard.
  • Unsuitability for High-Temperature Applications: Being a low-melting bronze alloy, c10400 will not be suitable for use in molecules exposed to high temperatures, thus it can only be used in the cases where high temperatures are unknown.
  • Susceptibility to Stress Corrosion Cracking:It is noticeable that special attention must be paid to this problem when designing a product for mass production to be able to combat this problem practically.

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