ANNEALING

Annealing (300 - 2250°F)

Established in 1944  |  Employee Owned  |  FREE Quotes

Established in 1944
Locally Owned
FREE Quotes

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Metal Annealing (300 - 2250°F)

The purpose of this treatment is to remove stresses or soften the material for improved machinability or formability, alter the physical or mechanical properties or produce a defined structure. At Pittsburgh Metal Processing Co, we use our large furnaces (up to 40 feet long) to complete these and other effective heat treatments of metals.

Process Anneal: (500 - 1400°F)

Low temperature anneal typically used for material (ferrous or nonferrous) that is going to be reworked via cold rolling or drawing. This type of anneal is also applied to the material to improve formability for forming/bending operations with reduced risk of distortion associated with intercritical or full annealing.

Subcritical Anneal: (500 - 1400°F)

Annealing process conducted at a temperature below the lower critical for ferrous material and below the full anneal temperature for nonferrous materials. Also referred to as “process annealing," this anneal is used to restore ductility to the material for subsequent cold-working/forming operations.

Intercritical Anneal: (1335 - 1600°F)

Annealing process typically applied to ferrous material heated to and held at a temperature between the upper and lower critical temperatures for ferrous materials.

Intermediate Anneal: (500 - 1400°F)

Annealing process conducted at a temperature below the lower critical for ferrous material and below the full anneal temperature for nonferrous materials. Also referred to as “process annealing," this anneal is used to restore ductility to the material between cold-working or hot-working operations.

Recovery Anneal: (300 - 1000°F)

Annealing process typically applied to cold-worked material to reduce residual stresses and recover ductility in the material. Temperatures used are below those required for recrystallization or new grain formation.

Recrystallization Anneal: (330 - 1450°F)

Annealing process typically applied to cold-worked metal to produce a new grain structure without going through a phase change in the case of ferrous materials.

Isothermal Anneal: (1300 - 1650°F)

Annealing process for ferrous materials partially of fully austenitize, followed by slow cooling to below the lower critical temperature and held for transformation to a soft, coarse pearlite (aggregate of ferrite and iron carbide).

Spheroidize Anneal: (1200 - 1400°F)

Annealing process for ferrous materials (medium to high carbon, low alloy steel) to produce a structure of globular carbides in a ferritic matrix for improved formability and machining.

Full Anneal: (650 - 1650°F)

Annealing process for ferrous and nonferrous materials for produce the softest, stress-free structure for improved machinability, cold-workability, mechanical or electrical properties and dimensional stability.

For ferrous materials, heat to above the upper critical transformation temperature and hold to obtain full austenitization and slow cool to ambient temperature. For nonferrous materials, heat at the specified alloy anneal temperature, hold for a specified time and furnace cool to ambient temperature.

Solution Anneal: (900 - 2250°F)

Annealing process for ferrous and nonferrous materials to produce a solid solution of alloy elements for age-hardening or precipitation-hardening, or improved machining, formability and/or corrosion resistance. This process is comprised of heating to a specified temperature, holding for a specified time and cooling rapidly to ambient temperature.

This process is typically the precursor to an age-hardening operation for precipitation - hardenable alloys.
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