File Name: heat treatment structure and properties of nonferrous alloys .zip
First, a brief discussion of the effects of cold work and annealing on nonferrous alloys is presented. This is followed by discussion of the mechanisms involved in the more common heat treating procedures used for hardening or strengthening solution treating and aging.
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Classified as: Heat Treating. This ASM Handbook volume completes the series of volumes on the major technological subject of heat treating. This singular work gives engineers, analysts, and technicians a one-stop source on the wide variety of nonferrous alloys and provides more practical information to guide processing requirements and the necessary background information for those without extensive prior knowledge. In-depth articles provide details on the heat treating principles and practices of aluminum, copper, nickel, and titanium alloys.
Quenching, distortion, residual stresses, and alloying effects are given special focus, and attention is given to the complexities of aging practices and microstructural development for the major and less common types of nonferrous alloys. Electronic Document Download. Many of our products are available via Electronic Download. To access an electronic PDF document that has been purchased, the document will appear in Content.
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The reader should understand at the outset that this chapter is intended to present only an overview of the heat treating of nonferrous alloys. First, a brief discussion of the effects of cold work and annealing on nonferrous alloys is presented. This is followed by discussion of the mechanisms involved in the more common heat treating procedures used for hardening or strengthening—solution treating and aging. No attempt is made in this treatise to cover the more complex procedures required for duplex structures which characterize some nonferrous alloys, notably titanium and copper alloys. For more complete information on the heat treating of nonferrous alloys and the properties that may be obtained, see Metals Handbook , Vol 4, 9th edition, American Society for Metals, , and Heat Treatment, Structure and Properties of Nonferrous Alloys , by Charlie R. Brooks, American Society for Metals, Most metals and metal alloys ferrous and nonferrous respond to hardening from cold work.
Heat treating or heat treatment is a group of industrial , thermal and metalworking processes used to alter the physical , and sometimes chemical , properties of a material. The most common application is metallurgical. Heat treatments are also used in the manufacture of many other materials, such as glass. Heat treatment involves the use of heating or chilling, normally to extreme temperatures, to achieve the desired result such as hardening or softening of a material. Heat treatment techniques include annealing , case hardening , precipitation strengthening , tempering , carburizing , normalizing and quenching. Although the term heat treatment applies only to processes where the heating and cooling are done for the specific purpose of altering properties intentionally, heating and cooling often occur incidentally during other manufacturing processes such as hot forming or welding.
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Source Heat Treatment, Structure and Properties of Nonferrous Alloys, p 22, Full size image. In this example, hardness of the alloy was.
This article describes the different types of precipitation and transformation processes and their effects that can occur during heat treatment of various nonferrous alloys. The nonferrous alloys are aluminum alloys, copper alloys, magnesium alloys, nickel alloys, titanium alloys, cobalt alloys, zinc alloys, and heat treatable silver alloys, gold alloys, lead alloys, and tin alloys. It also provides a detailed discussion on the effects due to precipitation and transformation processes in these non-ferrous alloys. Sign In or Create an Account. User Tools.
Heat treating or heat treatment is a group of industrial , thermal and metalworking processes used to alter the physical , and sometimes chemical , properties of a material.