$Element Shaped Refractory Shapes$

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Element Shaped Refractory Shapes

Name: Element Shaped Refractory Shapes
Brand: Universal Refactories & Allied Construction Co.
Price: 38000.00 INR
Availability: InStock

Price 38000.00 INR/ Ton

Get a Price/Quote

MOQ : 1 Ton

Element Shaped Refractory Shapes Specification

Purity(%)
> 94%

Usage & Applications
Used in industrial sectors requiring high thermal resistance including steel, glass, cement, and ceramics plants

Application
Furnace lining, kilns, incinerators, foundries, boiler insulation, high-temperature processing equipment

Chemical Composition
High alumina, silica, magnesia

Melting Point
Approximately 1700C - 1800C

Density
2.6 Gram per cubic centimeter(g/cm3)

Surface Finish
Smooth to slightly textured

Form
Solid Shapes

Hardness (%)
85 90% Mohs

Water Absorption
Less than 1%

Product Type
Element Shaped Refractory Shapes

Types of Refractories
Shaped Refractories

Shape
Element Shaped (custom geometric designs, blocks, bricks, special shapes)

Porosity
18% 24%

Dimensional Stability
High at elevated temperatures

Strength
High Mechanical Strength (up to 80 MPa)

Specific Gravity
2.3 2.7

Thermal Conductivity
Low, approx. 0.8 1.5 W/mK (at 1000C)

Color
Light grey to off-white

Abrasion Resistance
High

Fire Resistance
Excellent

Bulk Modulus
Up to 120 GPa

Packaging Type
Wooden Pallets or as required

Size Range
Customizable as per requirement

Compressive Strength
>80 MPa

Refractoriness Under Load (RUL)
Greater than 1450C

Cold Crushing Strength
70-85 MPa

Thermal Expansion Coefficient
5.0 6.5 x 10 /C

Service Temperature
Up to 1700C

Element Shaped Refractory Shapes Trade Information

Minimum Order Quantity
1 Ton

Supply Ability
1 Ton Per Month

Delivery Time
1 Week

About Element Shaped Refractory Shapes

Designing, producing, and trading refractory products by our company, Element Shaped Refractory Shapes is the area of our expertise. It is intended for work in high-temperature environments. The offered product is designed with high attention to detail, resulting in excellent finish and dimensional accuracy. It is commonly used in furnaces, kilns, and reactors. Through precise industrial manufacturing processes and rigorous quality control standards, we are able to provide top-notched Element Shaped Refractory Shapes tuned exactly to specific application requirements.

Product details

Material	WHITE TABULAR ALUMINA / MULLITE
Thermal conductivity	HIGH
Cavity	Single
Brand	UNIVERSAL REFRACTORIES
Grade	High

Precision Shaped Refractories for High-Temperature Environments

Element Shaped Refractory Shapes are tailor-made from advanced compositions to withstand extreme thermal and mechanical stresses. Their excellent fire resistance, robust mechanical properties, and low thermal conductivity make them indispensable for high-temperature operational setups like furnaces and kilns. With customizable geometric designs, these shapes provide flexibility for both standard and unique application requirements, ensuring effective insulation and structural endurance.

Customizable Solutions for Diverse Industrial Applications

Available in a range of sizes and surface finishes, these shaped refractories are designed to suit various industrial sectors including steel manufacturing, glass production, cement plants, and ceramics operations. Their adaptability to specialized designs allows producers, suppliers, and service providers to meet specific installation needs, supporting enhanced process efficiency and reduced maintenance cycles.

FAQs of Element Shaped Refractory Shapes:

Q: How are Element Shaped Refractory Shapes manufactured?

A: Element Shaped Refractory Shapes are produced by blending high-purity alumina, silica, and magnesia, which are then formed into custom geometric shapes through pressing or casting. These forms are fired at high temperatures to attain the desired mechanical strength, fire resistance, and density.

Q: What are the main benefits of using Element Shaped Refractory Shapes in industrial applications?

A: They provide high thermal resistance, outstanding mechanical strength, excellent fire and abrasion resistance, and maintain dimensional stability, making them ideal for applications such as furnace linings, kilns, and boiler insulation in demanding industrial environments.

Q: Where are these refractory shapes typically installed?

A: Element Shaped Refractory Shapes are commonly used in high-temperature process equipment and facilities, including furnaces, kilns, incinerators, foundries, boilers, and reactors, across industries like steel, glass, cement, and ceramics.

Q: What is the process for customizing the size and shape of these refractories?

A: Customization involves working with manufacturers or suppliers to specify required dimensions and geometric configurations. Advanced manufacturing techniques are utilized to create blocks, bricks, and special shapes tailored to particular installation and operational needs.

Q: When should businesses consider replacing their existing furnace linings with these shaped refractories?

A: Replacement is recommended when existing linings show signs of wear, reduced insulation efficiency, or structural instability. Upgrading to high-performance Element Shaped Refractory Shapes can enhance operational safety and reduce maintenance frequency.

Q: How does the low thermal expansion coefficient benefit high-temperature operations?

A: The low thermal expansion coefficient allows these refractories to maintain structure and performance during rapid heating and cooling cycles, reducing the risk of cracking or deformation at elevated temperatures.

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