16 Years manufacturer AISI 1053 Carbon Steel (UNS G10530) Factory from Adelaide

16 Years manufacturer
 AISI 1053 Carbon Steel (UNS G10530) Factory from Adelaide

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Chemical Composition The chemical composition of AISI 1053 carbon steel is outlined in the following table. Element Content (%) Iron, Fe 98.36-98.82 Manganese, Mn 0.7-1.0 Carbon, C 0.48-0.55 Sulfur, S 0.05 Phosphorous, P 0.04 Physical Properties The physical properties of AISI 1053 carbon steel are tabulated below. Properties Metric Imperial Density 7.7-8.03 g/cm3 0.278-0.290 l...


  • Length: 3-5.8mm or Customization
  • Surface: black, peeled, or rough turned
  • Heat treatment: air-cooling, normalized, annealed, Q&T
  • Smelting process: EAF+LF+VD
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    We are proud of the high customer satisfaction and wide acceptance due to our persistent pursuit of high quality both on product and service for 16 Years manufacturer AISI 1053 Carbon Steel (UNS G10530) Factory from Adelaide, As we are moving forward, we keep an eye on our ever-expanding product range and make improvement to our services.


    Chemical Composition

    The chemical composition of AISI 1053 carbon steel is outlined in the following table.

    Element Content (%)
    Iron, Fe 98.36-98.82
    Manganese, Mn 0.7-1.0
    Carbon, C 0.48-0.55
    Sulfur, S 0.05
    Phosphorous, P 0.04

    Physical Properties

    The physical properties of AISI 1053 carbon steel are tabulated below.

    Properties Metric Imperial
    Density 7.7-8.03 g/cm3 0.278-0.290 lb/in3

    Mechanical Properties

    The following table shows mechanical properties of AISI 1053 carbon steel.

    Properties Metric Imperial
    Elastic modulus 190-210 GPa 29700-30458 ksi
    Poisson’s ratio 0.27-0.30 0.27-0.30

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  • Researchers at NC State have developed a new method to create microfluidic channels and microvasculature in polymers by 3D printing liquid metal ‘fugitive inks’. The liquid metal – an alloy of gallium – can be 3D printed onto polymer substrates and encapsulated with more polymer. The metal can be printed due to the formation of a thin surface oxide on its surface, which stabilizes its shape. Once encapsulated in polymer, this oxide layer can be removed using several techniques, causing the metal to retract from the encasing material. This retraction leaves behind empty microchannels, which can then be used for microfluidics and other applications. One example is to pattern microvasculature into materials in a way that mimics the vasculature of the human body. Although other strategies exist to print fugitive inks, the present work is distinguished by its simplicity and rapid, room temperature processing.

    The paper, “3D printing of liquid metals as fugitive inks for fabrication of 3D microfluidic channels” is published online in the journal Lab on a Chip. For more information, visit the website of the journal.

    http://pubs.rsc.org/en/content/articlelanding/2016/lc/c6lc00198j#!divAbstract



    This video shows the steel balls manufacturing process by steel ball forming machine, also called steel ball skew rolling machine.
    Skew rolling forming process is a new technology to produce the rotary parts or blanks. It can be used to manufacture the milling steel ball, bearing ball, auto part and other products. The advantages include: greatly improve the productivity; highly reduce the cost; improve quality and the working condition and so on.
    We also can offer the production line for making steel balls. This production line includes feeding system, medium frequency induction furnace, skew rolling mill and quenching machine.
    More info mail to: ritaaydy@163.com, ritaaydy@gmail.com
    Cell:+86 13526199877

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