Factory Wholesale PriceList for 410 Stainless Steel Manufacturer in Algeria

Factory Wholesale PriceList for
 410 Stainless Steel Manufacturer in Algeria

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

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    We stick to our enterprise spirit of "Quality, Efficiency, Innovation and Integrity". We aim to create more value for our customers with our rich resources, advanced machinery, experienced workers and excellent services for Factory Wholesale PriceList for 410 Stainless Steel Manufacturer in Algeria, With the aim of "compete with good quality and develop with creativity" and the service principle of "take customers' demand as orientation", we will earnestly provide qualified products and good service for domestic and international customers.


    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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  • A fixed platform is a type of offshore platform used for the production of oil or gas. These platforms are built on concrete and/or steel legs anchored directly onto the seabed, supporting a deck with space for drilling rigs, production facilities and crew quarters. Such platforms are, by virtue of their immobility, designed for very long term use. Various types of structure are used, steel jacket, concrete caisson, floating steel and even floating concrete. Steel jackets are vertical sections made of tubular steel members, and are usually piled into the seabed. Concrete caisson structures, pioneered by the Condeep concept, often have in-built oil storage in tanks below the sea surface and these tanks were often used as a flotation capability, allowing them to be built close to shore (Norwegian fjords and Scottish firths are popular because they are sheltered and deep enough) and then floated to their final position where they are sunk to the seabed. Fixed platforms are economically feasible for installation in water depths up to about 1,700 feet (520 m).

    Gas Platform is an unmanned offshore gas production platform. A large structure with facilities to extract and process natural gas. In many cases, the platform contains facilities to house the workforce as well.



    Designer Mariëlle Leenders has experimented with fabric that features shape memory wire either woven into the material or added later as one or more lines of stitching. Her Moving Textiles (2000) react to differences in temperature by shrinking, creasing, changing structure or rolling up. Lines of stitching added to the basic material in certain places cause the fabric to creep up when temperatures rise.

    Fabrics incorporating wire containing shape memory alloys (SMA) vary in form according to changes in temperature. The thin wire is made of an alloy based on nickel and titanium. This metallic material belongs to a group of related substances referred to as shape memory alloys (SMA). They possess the ability to return to some previously defined shape or size when subjected to the appropriate thermal procedure. Generally, the materials can be plastically deformed at some relatively low temperature, after which -upon exposure to some higher or lower temperature they revert to their original shapes. The temperature at which the material changes in form can be programmed precisely at any desired temperature between -50° and + 100°C. Materials that exhibit shape memory only upon heating have a one-way shape memory. A shape memory alloy deformed at a temperature slightly above its transformation temperature has a high degree of elasticity.
    When a similar heating process is applied to Moving Textiles, a material that features shape memory wire, the fabric reacts to later changes in temperature (of more than 2.5°C) by shrinking, creasing, changing structure or rolling up. Normal fluctuations in body temperature, therefore, cause no reaction. But clothing made of Moving Textiles can be programmed to respond to the transition from outdoor temperatures to heated indoor spaces. Examples are sleeves that automatically roll up and down, a jacket that opens and closes on its own, and a shirt that expands and contracts in both length and circumference. Other possibilities are blinds that descend when exposed to warm sunlight and roll back up when the temperature drops, moving lampshades, etc. Moving Textiles can be used for both decorative and functional purposes.

    For more information:
    www.shapememorytextiles.com
    www.marielleleenders.nl

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