CT5286 Alloy 800HT Capillary Tube UNS N08811

Alloy 800HT Capillary Tube UNS N08811 Description

Alloy 800HT Capillary Tube UNS N08811 is a nickel-chromium iron alloy tube developed for high temperature applications in process systems. Its controlled chemical composition per UNS N08811 standards and tube geometry facilitate efficient fluid transport and provide dimensional stability under thermal stress. This material is utilised in environments where high temperature resilience and oxidation resistance directly impact system performance.

Alloy 800HT Capillary Tube UNS N08811 Characteristics

Chemical Composition (Wt%)

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

Alloy 800HT Capillary Tube UNS N08811 Applications

Industrial Processing
- Used as a capillary channel in high-temperature fluid systems to maintain consistent flow by leveraging controlled thermal stability.

Chemical Processing
- Applied as a delivery tube in processing reactors to reduce oxidation challenges through enhanced material resistance, thereby maintaining chemical integrity.

Energy Systems
- Serves as a component in sensor housings within power generating systems to preserve dimensional accuracy during rapid thermal cycling, offering improved operational lifespan.

Alloy 800HT Capillary Tube UNS N08811 Packing

The capillary tubes are packaged in corrosion-resistant, moisture-proof materials and secured within cushioned, anti-static containers. Packaging includes custom-fit supports to minimise mechanical impact and contamination risks during transit and storage. The items are stored under controlled temperature conditions, and additional customisation options are available to accommodate special handling requirements or integration into automated distribution processes.

Additional Information

Alloy 800HT, as a nickel-based high temperature alloy, finds extensive use in environments where material performance under thermal stress is paramount. Its composition, balancing nickel, chromium, and iron, provides a controlled response to elevated temperatures and aggressive atmospheres. Advances in metallurgical processing have enhanced its phase stability and resistance to high temperature oxidation.

The broader context of high temperature alloys emphasises the importance of precise compositional controls and microstructural uniformity. Such materials are vital for modern industrial systems that require strict adherence to operational tolerances, ensuring both performance integrity and longevity in demanding applications.