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Results 261 - 270 of 1372 for Alloy steels
  • Article - 19 Oct 2001
    302HQ is a specialised wire grade finding very wide usage for manufacture of stainless steel fasteners. 3% copper in the composition reduces the cold work hardening rate compared to Grade 304.
  • Article - 19 Oct 2001
    253MA combines high temperature performance with ease of fabrication. Working temperatures in excess of 1100°C see it used for furnace applications such as burners, retorts, conveyor belts and fans...
  • Article - 13 Sep 2001
    The 316 family is a group of austenitic stainless steels with superior corrosion resistance to 304 stainless steels. They also have excellent toughness and can be used in the food, marine, chemical...
  • Article - 30 Jul 2001
    Iron (Fe) is a metal that has been known since ancient times. In fact, the Earth’s crust is made up of 5% of iron, which is the second most abundant metal after aluminum.
  • Article - 29 Jul 2001
    Molybdenum is silvery-white, very hard refractory metal, however, it is softer and more ductile than tungsten and is readily worked or drawn into very fine wire. Primary uses are as an alloying...
  • Article - 20 Jul 2001
    Cerium is the most abundant of the rare earth metals. It is malleable and oxidises readily at room temperature. It is used in pyrophoric alloys for cigarette lighters and in the making of some...
  • Article - 9 Jun 2001
    Softening processes such as annealing and normalising, and hardening processes such as hardening, tempering, thermochemical processes, carburising, nitriding and boronising are all explained.
  • Article - 16 May 2001
    Stainless steel families including austenitic, ferritic, martensitic, duplex and precipitation hardened are described.
  • Article - 30 Apr 2001
    Heat treatment operations can be used to alter the properties of steels to suit an application. However, these processes may induce deformations unless guidelines are followed.
  • Article - 24 Apr 2001
    Properties of steels can be influenced by heat treatments such as annealing, normalising, quenching, tempering, carburising and nitriding. These and other processes are reviewed.

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