19 Years Factory 410 Stainless Steel Supply to Poland

19 Years Factory
 410 Stainless Steel Supply to Poland

Short Description:

410 Stainless Steel Mechanical Properties Condition Ultimate Tensile Strength (PSI) 0.2% Yield Strength (PSI) Elongation (% In 2in.) Reduction Of Area (%) Hardness Brinell Hardness Rockwell T 100,000 80,000 12 40 * * H 120,000 90,000 12 40 * * Annealed 70,000 40,000 16 45 * * Class2 110,000 85,000 15 45 269 Max * NACE MRO 175 * * * * * 410 Stainless Steel Applications Pump Shafts Valve Components Gas and Steam Turbine Components 410 Stainless Steel Composition Ca...


  • 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
  • Product Detail

    Product Tags

    The company upholds the philosophy of "Be No.1 in quality, be rooted on credit and trustworthiness for growth", will continue to serve old and new customers from home and overseas whole-heatedly for 19 Years Factory 410 Stainless Steel Supply to Poland, sincerely look forward to serving you in the near future. You are sincerely welcome to visit our company to talk business face to face with each other and establish long-term co-operation with us!


    410 Stainless Steel Mechanical Properties

    Condition Ultimate Tensile
    Strength (PSI)
    0.2% Yield
    Strength (PSI)
    Elongation
    (% In 2in.)
    Reduction Of
    Area (%)
    Hardness
    Brinell
    Hardness
    Rockwell
    T 100,000 80,000 12 40 * *
    H 120,000 90,000 12 40 * *
    Annealed 70,000 40,000 16 45 * *
    Class2 110,000 85,000 15 45 269
    Max
    *
    NACE
    MRO 175
    * * * * *

    410 Stainless Steel Applications

    • Pump Shafts
    • Valve Components
    • Gas and Steam Turbine Components

    410 Stainless Steel Composition

    • Carbon 0.080-0.150
    • Chromium 11.50-13.50
    • Manganese 1.0 Max
    • Phosphorus 1.0 Max
    • Silicon 1.00 Max
    • Sulfur 0.030 Max

    Backed by Industry Standards

    • UNS S41000
    • ASTM A182
    • ASTM A276
    • ASTM A479

     

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  • We Advait Forge and Machining an ISO 9001-2008 Accredited company are in organization of high quality Die Forgings, Heat Treatment and Thoroughly Finish Machined Spares For Automotive Field, Oil Area Valves and Common Engineering Elements for previous 1 decade.

    We have cast and Machined all type of gears, Shaft, Connecting rods, forks levers, Crank Shaft, wheel hubs with material, Including and distinct type of bonnets Major and Minor Gates, hammer nuts, slab gate, balls in many sizes for oil discipline business.

    We have crafted up our group of young, devoted and experienced experienced with satisfactory understanding and experience.

    We imagine in attaining prospects gratification by supplying high quality products continually at aggressive rates and assure timely shipping by continuous enhancement in the high quality administration program through successful teaching of all our personnel.

    We manufacture and source high quality die forgings as for every shopper specifications weighing from one to 150 kgs. in many grades like ST52.three carbon steels these types of as En eight, En9, SAE 1020, En14 A, Alloy metal these types of as AISI 4130, En24, 16MnCr5, SAE 8620 etc and stainless metal these types of as SS304, SS316, SS410, seventeen-4PH etc.

    Our vision is to generate excellent, exhaustive and successful products for the indigenous market place and the same time scale up export to abroad market place.



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    Check us out at http://chemistry.tutorvista.com/organic-chemistry/carbon-compounds.html

    Carbon Compounds

    Carbon has the ability to form very long chains of interconnecting C-C bonds. This property is called catenation. Carbon-carbon bonds are strong, and stable. This property allows carbon to form an almost infinite number of compounds; in fact, there are more known carbon-containing compounds than all the compounds of the other chemical elements combined except those of hydrogen (because almost all organic compounds contain hydrogen too).
    The simplest form of an organic molecule is the hydrocarbon—a large family of organic molecules that are composed of hydrogen atoms bonded to a chain of carbon atoms. Chain length, side chains and functional groups all affect the properties of organic molecules. By IUPAC’s definition, all the other organic compounds are functionalized compounds of hydrocarbons.[citation needed]
    Carbon occurs in all known organic life and is the basis of organic chemistry. When united with hydrogen, it forms various flammable compounds called hydrocarbons which are important to industry as refrigerants, lubricants, solvents, as chemical feedstock for the manufacture of plastics and petrochemicals and as fossil fuels.
    When combined with oxygen and hydrogen, carbon can form many groups of important biological compounds including sugars, lignans, chitins, alcohols, fats, and aromatic esters, carotenoids and terpenes. With nitrogen it forms alkaloids, and with the addition of sulfur also it forms antibiotics, amino acids, and rubber products. With the addition of phosphorus to these other elements, it forms DNA and RNA, the chemical-code carriers of life, and adenosine triphosphate (ATP), the most important energy-transfer molecule in all living cells.
    Inorganic compounds
    Main article: Compounds of carbon
    Commonly carbon-containing compounds which are associated with minerals or which do not contain hydrogen or fluorine, are treated separately from classical organic compounds; however the definition is not rigid (see reference articles above). Among these are the simple oxides of carbon. The most prominent oxide is carbon dioxide (CO2). This was once the principal constituent of the paleoatmosphere, but is a minor component of the Earth’s atmosphere today. Dissolved in water, it forms carbonic acid (H2CO3), but as most compounds with multiple single-bonded oxygens on a single carbon it is unstable. Through this intermediate, though, resonance-stabilized carbonate ions are produced. Some important minerals are carbonates, notably calcite. Carbon disulfide (CS2) is similar.
    The other common oxide is carbon monoxide (CO). It is formed by incomplete combustion, and is a colorless, odorless gas. The molecules each contain a triple bond and are fairly polar, resulting in a tendency to bind permanently to hemoglobin molecules, displacing oxygen, which has a lower binding affinity. Cyanide (CN), has a similar structure, but behaves much like a halide ion (pseudohalogen). For example it can form the nitride cyanogen molecule ((CN)2), similar to diatomic halides. Other uncommon oxides are carbon suboxide (C3O2), the unstable dicarbon monoxide (C2O),[48][49] carbon trioxide (CO3), cyclopentanepentone (C5O5) cyclohexanehexone (C6O6) [52], and mellitic anhydride (C12O9).
    With reactive metals, such as tungsten, carbon forms either carbides (C4), or acetylides (C2−2) to form alloys with high melting points. These anions are also associated with methane and acetylene, both very weak acids. With an electronegativity of 2.5, carbon prefers to form covalent bonds. A few carbides are covalent lattices, like carborundum (SiC), which resembles diamond.
    Organometallic compounds
    Main article: Organometallic chemistry
    Organometallic compounds by definition contain at least one carbon-metal bond. A wide range of such compounds exist; major classes include simple alkyl-metal compounds (e.g. tetraethyl lead), η2-alkene compounds (e.g. Zeise’s salt, and η3-allyl compounds (e.g. allylpalladium chloride dimer; metallocenes containing cyclopentadienyl ligands (e.g. ferrocene); and transition metal carbene complexes. Many metal carbonyls exist (e.g. tetracarbonylnickel); some workers consider the carbon monoxide ligand to be purely inorganic, and not organometallic.
    While carbon is understood to exclusively form four bonds, an interesting compound containing an octahedral hexacoordinated carbon atom has been reported. The cation of the compound is [(Ph3PAu)6C]2+. This phenomenon has been attributed to the aurophilicity of the gold ligands.

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