Zirconium UNS R60700 Chemical Properties, Grades, Tables and Document

Zirconium UNS R60700 is a highly resistant to corrosion alloy adopted across chemical processing environments in a majority of segments. The compound has a chemical nature that is ideal, for instance, excellent resistance to various environments such as acids, alkali, and salt solutions. It is represented by the grade of zirconium which is well-known for its elevated temperature mechanical strength and stability. And so, it can be applied for critical industrial operations. The most common utilisations can be observed in reactor cores, heat exchangers as well as piping systems due to the high-level of its dependability in harsh applications. Zirconium UNS R60700 is extensively documented by specifying its composition, mechanical properties, and fabrication material. These tables, charts and documentation sets are precisely used by the engineers and manufacturers to guarantee compliance with standard of the industry and top performance of the material in different applications.

Zirconium UNS R60700 Chemical Composition And Grade Table

Zirconium UNS R60700 is a kind of tantalum with outstanding chemical properties which are commonly used in the broad scope of various industries. Its chemistry can be broken down into two parts: a main element - tantalum - and small numbers of other elements - oxygen, carbon, nitrogen, and hydrogen. Things of this kind are often produced from tantalum with purity close to top score, which means the equipment using them will fully work in hard conditions as well. The tantalum UNSR60700 is well known for its excellent corrosion resistance, superior conductivity and high melting point, which make it the right alloy for electronics, medical devices, aerospace, and many more areas.

Zirconium UNS R60700 Composition Table
Elements Zr+Hf O N Hf H C
Min (%) 99.2 - - - - -
Max (%) - 0.1 0.025 4.5 0.005 0.05

Advantages and Disadvantages of Zirconium UNS R60700

    Advantages:

  • Excellent Corrosion Resistance: Handles acids, alkalis, and saltwater well.

  • Low Thermal Neutron Absorption: Suitable for use in nuclear reactors.

  • Good Fabricability: Mouldable into various forms and sizes.

  • Non-magnetic: Suitable where magnetic interference needs to be avoided.

    Disadvantages:

  • High Cost: Expensive compared to other structural metal options.

  • Difficult Weldability: Requires specific techniques for welding.

  • Low Modulus of Elasticity: Relatively low rigidity compared to some engineering metals.

  • Limited Temperature Range: Mechanical properties may degrade at very high temperatures.

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