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  • Article - 7 Nov 2001
    Suitable heat treatment can see this grade attain the highest hardness, strength and wear resistance of any stainless steel. This is due to the high carbon content. The composition is optimised for...
  • Article - 26 Oct 2001
    Grade 430 is a non-hardenable grade that combines good corrosion resistance, formability and useful mechanical properties. It is resistant to nitric acid making it useful in the chemical industry, but...
  • Article - 25 Oct 2001
    Vinyl's evolution and recycling potential are key focuses of the Vinyl Institute, emphasizing its role in sustainability and diverse industrial applications.
  • Article - 23 Oct 2001
    416 is the most machinable grade of stainless steel. It is a low cost grade and can be used unhardened, hardened and highly tempered states. Hardness is optimised at the expense of other properties...
  • Article - 23 Oct 2001
    321 is similar to 304, but uses titanium as a stabilizer. They differ in that they are resistant to intergranular corrosion after heating to temperatures in the carbide precipitation range.
  • Article - 23 Oct 2001
    This article discusses the properties and applications of stainless steel grade 304 (UNS S30400).
  • Article - 22 Oct 2001
    303 stsinless steel is the optiumum machining grade austenitic stainless grade. Selenium can be added to improve hot and cold forming properties. It is suited to nuts and bolts, bushings, shafts,...
  • 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 - 28 Aug 2001
    Recycled PET is used in many applications from automotive to office equipment. It is also alloyed with other polymers or combined with fillers.
  • 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.

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