revised: Customer process Heat treatment titanium and its alloys in the Non ferrous metals sector

Titanium and its alloys

Achieving enhanced properties for diversified applications

The occurrence of an allotropic transformation in pure titanium controls the type of structures that can be produced by the heat treatment of titanium-rich alloys and hence increases the range of mechanical properties that can be obtained from the alloys. Titanium alloys are divided into three classes depending on the predominant phases present: a or near a, a + β, and β.

ANNEALING

Common annealing treatments include mill, duplex, recrystallization, and β - annealing.

Titanium is chemically very active at elevated temperatures, and reacts readily with oxygen, nitrogen, carbon, and hydrogen in a furnace atmosphere. Furthermore, all contamination reactions cause degradation of properties and, with the exception of the hydrogen reaction, are irreversible (if a high hydrogen level is found, vacuum annealing is required).

The atmosphere in the furnace should be free from water vapor and should be slightly oxidizing.

The exact and consistent composition of the protective gas is vital for the quality of metal surfaces. Any unwanted chemical reactions with the metal must be reliably prevented. The solution is the Neutrotherm process, which is based on a neutral gas mixture containing less than 5 % hydrogen.

With minimal investment in hardware, the process provides excellent protection against oxidation of the metal, ensuring the surface remains clean.

Messer process = "Neutrotherm"

SINTERING

Definition according to ISO 3252: Sintering is a ”thermal treatment of a powder or compact at a temperature below the melting point of the main constituent, for the purpose of increasing its strength by bonding together of the particles.”

Sintering of titanium and its alloys takes place between 900 and 1000 °C in an inert gas such as argon, which exclude the hydrogenation of titan.

The exact and consistent composition of the protective gas is vital for the quality of metal surfaces. Any unwanted chemical reactions with the metal must be reliably prevented. The solution is the Neutrotherm process, which is based on a neutral gas mixture containing less than 5 % hydrogen.

With minimal investment in hardware, the process provides excellent protection against oxidation of the metal, ensuring the surface remains clean.

Messer process = "Neutrotherm"

In hot isostatic pressing (HIP), chemically clean components are placed in a heated, argon-filled vessel and subjected to pressures of 70 to 105 MPa.

BRAZING AND HIGH-TEMPERATURE BRAZING

Brazing is a joining process wherein metals are bonded together using a filler metal with a melting temperature greater than 450 °C, but lower than the melting temperature of the base metal.

High-temperature brazing is flux-free brazing under exclusion of air (vacuum, protective gas) with filler metals whose melting temperature is above 900 °C.

In brazing titanium, chemically inert atmospheres are used, which protect the parts being brazed from coming into contact with other gaseous elements, which might react with the metals being joined thereby producing surface films that might inhibit flowing of, and wetting by the molten brazing alloy.

Titanium and its alloys have oxide films of a high stability; also, they tend to absorb both nitrogen and hydrogen from any atmosphere in their surroundings. Both titanium hydride and titanium nitride will embrittle titanium, and it is, therefore, of fundamental importance to ensure that when brazing titanium or its alloys one employs only vacuum brazing, helium or argon which is free of both these gases.

The exact and consistent composition of the protective gas is vital for the quality of metal surfaces. Any unwanted chemical reactions with the metal must be reliably prevented. The solution is the Neutrotherm process, which is based on a neutral gas mixture containing less than 5 % hydrogen.

With minimal investment in hardware, the process provides excellent protection against oxidation of the metal, ensuring the surface remains clean.

Messer process = "Neutrotherm"

obsolete: Application technology titanium and its alloys in the Non ferrous metals sector

Titanium and its alloys

Bright surfaces

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