Annealing (materials science)

In metallurgy and materials science, annealing is a heat treatment that alters the physical and sometimes chemical properties of a material to increase its ductility and reduce its hardness, making it more workable. It involves heating a material above its recrystallization temperature, maintaining a suitable temperature for an appropriate amount of time and then cooling.

In annealing, atoms migrate in the crystal lattice and the number of dislocations decreases, leading to a change in ductility and hardness. As the material cools it recrystallizes. For many alloys, including carbon steel, the crystal grain size and phase composition, which ultimately determine the material properties, are dependent on the heating rate and cooling rate. Hot working or cold working after the annealing process alters the metal structure, so further heat treatments may be used to achieve the properties required. With knowledge of the composition and phase diagram, heat treatment can be used to adjust from harder and more brittle to softer and more ductile.

In the case of ferrous metals, such as steel, annealing is performed by heating the material (generally until glowing) for a while and then slowly letting it cool to room temperature in still air. Copper, silver and brass can be either cooled slowly in air, or quickly by quenching in water.^[1] In this fashion, the metal is softened and prepared for further work such as shaping, stamping, or forming.

Many other materials, including glass and plastic films, use annealing to improve the finished properties.^[2]^[3]

^ "Silver". Archived from the original on 2010-07-24. Retrieved 2010-04-19.
^ Ferrer-Balas, D (2001). "Influence of annealing on the microstructural, tensile and fracture properties of polypropylene films". Polymer. 42 (4): 1697–1705. doi:10.1016/S0032-3861(00)00487-0. Retrieved 18 May 2023.
^ Srithep, Y (2012). "IEffects of Annealing Time and Temperature on the Crystallinity and Heat Resistance Behavior of Injection-Molded Poly(lactic acid)" (PDF). Polymer Engineering and Science. 53 (3). Retrieved 18 May 2023.

[1] "Silver". Archived from the original on 2010-07-24. Retrieved 2010-04-19.

[2] Ferrer-Balas, D (2001). "Influence of annealing on the microstructural, tensile and fracture properties of polypropylene films". Polymer. 42 (4): 1697–1705. doi:10.1016/S0032-3861(00)00487-0. Retrieved 18 May 2023.

[3] Srithep, Y (2012). "IEffects of Annealing Time and Temperature on the Crystallinity and Heat Resistance Behavior of Injection-Molded Poly(lactic acid)" (PDF). Polymer Engineering and Science. 53 (3). Retrieved 18 May 2023.

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