High Alumina EPS insulating Firebrick



    Specific Application:Widely used at insulation layer and lining of engineering furnaces and kilns in metallurgy, machinery, ceramics, chemicals. Hard to be eroded by melting liquid.

    Related Product:

    Service Life:

    Payment Terms:L/C, T/T



    Please fill out the contact form below and we will get in touch with you within 24 hours, thanks for your interest in our products.
    I am interested in (Product name)
     Name:*
     Country:
     Email:*
     Tel:
     Fax:
     Message:



    High Alumina EPS insulating Firebrick


    Introduction:
    This series of products are sintered mainly with supper-fine bauxite chamotte, and proper additive by a method of EPS ignition loss, Their main advantages include high intensity, low thermal conductivity, excellent thermal stability, very small reheat linear change, outstands erosion and corrosion resistance etc.

    Advantages:
    1. High strength
    2. Optimum performance
    3. Dimensional stability
    4. Low thermal conductivity


    Application:
    They are an ideal kind of energy-conserning products which can be widely used as lining or insulating layers of various industrial furnaces and kilns in metallurgical industry, machine building industry, ceramic industry, chemical industry, etc. Recommended service temperature: Less than 1400C.
    Clients can avail from us a wide variety of Fire Bricks, which is widely demanded for their high strength. The offered bricks are manufactured using high-grade material and advanced techniques, thus complying with the international industry standards. Our array of bricks is extensively used as lining in fireplaces, fireboxes, furnaces and kilns.
    Moreover, clients appreciate our products for their following quality attributes:


    Physical and Chemical indexes:

    About Us| Contact Us| Refractory Material| Insulation Material| Solution| Sitemap

    Tel:+86-371-88888998   Fax:+86-371-88886886   E-mail:sales1@chinafirebrick.com

    BUREAU VERITAS ISO14000 IS0-CNAB