Incoloy 800 tube

UNS N08800 redrawn tube and Incoloy 800 seamless tube suppliers in UAE

What is the difference between annealing hardening and tempering Incoloy 800 tubing?

Incoloy 800 undergoes various treatment types based on user requirements. Annealing hardening is a process for softening the alloy. It involves heating the alloy to a critical temperature so recrystallization can occur. It then gets cooled to room temperature slowly. You can conduct full or process annealing for EN 1.4876 precision tube. The latter has a faster cooling rate.
Contrastingly, tempering lowers the brittleness of the alloy. It requires heating the material to below the critical temperature and holding it there before cooling. The temperature you choose will decide the hardness of the alloy.

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Are Incoloy 800 condenser and heat exchanger tube the same?

Incoloy 800 frequently gets utilized in condenser and heat exchanger tubing because of its resistance to high temperatures. While UNS 8800 condenser tube have similarities with exchangers, they also have inherent differences. A condenser transforms a substance from a vapour to a liquid state. However, a DIN 1.4876 heat exchanger tube obtains the heat produced during this transformation, transferring it to another fluid. Their prime goal of changing the physical state is different.
This superalloy resists thermal cycling. It makes it perfect for heat-based applications like heater elements and petrochemical processes. Steam generation plants also use nickel 800 superheater tube because of their resistance to stress cracking.

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Difference between a drawn, extruded and Incoloy 800 seamless tube

Incoloy 800 tube get manufactured in different ways to match your requirement. An Incoloy 800 seamless tube does not necessitate a weld or seam for joining. It is sturdy and ductile. Usually, it gets preferred in extreme temperatures and pressures.
An alternative procedure is to use an Incoloy 1.4876 extruded tube. It is common in multiple industries and involves heating the material to a high temperature for enhanced malleability. Then, it gets pushed through a die to produce the required product.
A drawn tube, in contrast, gets pulled through the die several times to obtain the final shape. An Incoloy alloy 800 cold drawn tube is different from extrusion, which only forces the material through a die that matches the required design.

Most commonly used Incoloy 800 tube types

You can easily get stockists who provide a wide range of alloy 800 tube in GCC with standard finishes and certification to suit your project’s needs.

What is a nickel alloy 800 cold drawn tube?

Cold working is also a common approach to manufacturing Incoloy 800 components. In this process, the tube get drawn over a mandrel. Then, they get pushed through a die. A carefully controlled process achieves the dimensions you need, i.e., the diameter and the wall thickness. Finally, the alloy 800 tube gets annealed and cut to the desired length.
Cold drawing produces components with superb mechanical integrity. It lets manufacturers customize the products per the user’s requirements. Moreover, this tubing is sturdy and has higher hardness, making it perfect for critical applications, like a 1.4876 Incoloy 800 boiler tube.

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Advantages of an alloy 800 tube

Alloy 800 is primarily known for its superior mechanical properties at room and elevated temperatures (for a short exposure). It can resist severe temperatures without undergoing deformation. A nickel alloy 800 welded tube is a highly stable and robust material that also offers resistance to oxidation and carburization. Additionally, this material also provides sulfidation resistance and creep-rupture.
You can employ an Inconel 800 tube in reducing environments that require harsh chemicals without inducing safety risks. Furnace components like cracker tube, pressure vessels, hydrocarbon plants, and electrical heating elements often use this material. Applications that demand dependable and long service life rely on Alloy 800 for its high-grade metallurgical profile