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Results 31 - 40 of 647 for Low alloy steels
  • Article - 26 Oct 2001
    Titanium is becoming a more widely use engineering material for reasons such as corrosion resistance, strength and low maintenance. However, to get the best performance out of it, it must be utilised...
  • Article - 1 Dec 2020
    The handheld XRF, OES, and portable handheld LIBS analyzers are all common technologies used to determine fast, accurate, and reliable analysis.
  • Article - 28 Jun 2017
    Researchers in Warwick have made a breakthrough in controlling the undesired brittle stages during lightweight steel production, meaning the metal can be produced on an industrial scale.
  • Article - 2 Jul 2012
    The Unified Numbering System provides an identification number for alloys and metals. This number comprises a letter that is followed by five numbers. This article details designations for welding...
  • Article - 7 Oct 2005
    While magnesium alloys have excellent strength to weight characteristics, they have poor wear resistance when emplyed in friction applications. Reinforcing with Mg2Si dispersoids was found to be...
  • Article - 8 Jan 2002
    Stainless steels can be fabricated using most conventional techniques, although some different processing parameters may be required compared to plain carbon steels. These are investigated for...
  • Article - 11 Oct 2001
    There are several surface coating technologies available for tool steels. These surface coatings are used in applications such as drills, taps, reamers, shank cutters, bore cutters, dies, and milling...
  • Article - 8 May 2001
    Plain carbon steels' properties are to some degree controlled by carbon content. The properties of the various carbon composition steel families are outlined.
  • Article - 20 Jun 2001
    The automotive applications of titanium and its alloys follow logically from high strength, low density and, low modulus, and they have excellent resistance to corrosion and oxidation.
  • Article - 27 Jul 2022
    Discover retroactive Positive Material Identification (PMI) using Thermo Scientific™ Niton™ XL5 Plus handheld XRF and Niton™ Apollo™ handheld LIBS analyzers.

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