TM10770 Titanium Alloy Rod Ti-0.3Mo-0.8Ni Grade 12 UNS R53400

Titanium Alloy Rod Ti-0.3Mo-0.8Ni Grade 12 UNS R53400 Description

Titanium Alloy Rod Ti-0.3Mo-0.8Ni Grade 12 UNS R53400 is manufactured with precise proportions of titanium, molybdenum, and nickel. This designation indicates that 0.3% Mo and 0.8% Ni are integrated to enhance the microstructural characteristics, offering improved performance in high-temperature environments. The rod's configuration supports consistent mechanical properties, making it appropriate for applications where dimensional accuracy and stress resistance are critical.

Titanium Alloy Rod Ti-0.3Mo-0.8Ni Grade 12 UNS R53400 Characteristics

*The above product information is based on theoretical data and is for reference only. Actual specifications may vary.

Titanium Alloy Rod Ti-0.3Mo-0.8Ni Grade 12 UNS R53400 Applications

1.       Industrial Processing
   - Used as a precision rod in processing equipment to achieve dimensional stability by leveraging the alloy's controlled composition.
   - Applied as support components in heat exchangers to manage thermal gradients due to its high temperature resistance.

2.       Aerospace Components
   - Employed as structural fasteners in aerospace systems to maintain integrity under cyclic loads by utilising the alloy's defined mechanical properties.

3.       Chemical Processing Equipment
   - Used as a component in piping systems to achieve corrosion mitigation by leveraging the inert surface characteristics of titanium alloys.

Titanium Alloy Rod Ti-0.3Mo-0.8Ni Grade 12 UNS R53400 Packing

The rod is packaged in anti-static, moisture-resistant wrapping and secured within cushioned wooden crates to protect against mechanical impact. Packaging includes sealed plastic layers to prevent contamination, with clear labelling for proper handling. Storage conditions should maintain ambient temperature and low humidity to preserve material stability. Custom packaging solutions, including size-specific inserts and additional shock absorption, are available upon request.

Additional Information

Titanium alloys have been extensively studied for their exceptional strength-to-weight ratios and corrosion resistance. Their use in critical applications has been bolstered by extensive metallurgical research that optimises the balance between alloying elements. The integration of minor amounts of molybdenum and nickel in titanium can refine the microstructure and enhance resistance to high-temperature deformation.

In material science, the study of phase transformations and grain boundary characteristics in titanium alloys provides insights into improving service life in demanding environments. Understanding these relationships assists researchers in developing materials with predictable performance metrics and quantifiable engineering tolerances.