1260 High Temperature Insulation Ceramic Fiber Vacuum Formed Shape

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1260 High Temperature Insulation Ceramic Fiber Vacuum Formed Shape

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Product Description

Basic Specifications

Shape

Different Shapes

Product

Vacuum Formed Shapes

Name

Ceramic Fiber Vacuum Formed Shapes

Raw Material

Ceramic Fiber

Other Name

Aluminum Silicate Vacuum Formed Shapes

Type

Refractory Material

Material

Alumina Block

Transport Package

Pallet

Specification

All Sizes

HS Code

68061010

Capacity

500 Tons / Year

Product Overview

Ceramic fiber shapes are produced from corresponding level refractory fiber mixture through vacuum forming. These shapes are ideal energy-efficient insulation materials for furnaces, piping, and other specialized equipment.

They offer excellent flexibility, allowing for surface hardening or complete hardening to various levels according to specific technical demands.

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Applications & Key Features

🎯Applications:

Peep holes for industrial furnaces
Patch holes for thermometers
Nozzle and door sealing for industrial furnaces
Non-ferrous metal molten channels
Lining for pads, caps, and electrical equipment gaskets

✅Main Features:

Various complex shapes with high dimensional accuracy
Direct contact with flame; no odor or volatile gases at high temp
High mechanical strength and resistance to gas flow
Low shrinkage and low thermal conductivity
Excellent thermal stability

Typical Parameters

Specification	1260STD	1260HP	1350HA	1430Zr
Density (KG/m³)	280-400	280-400	280-400	280-400
Linear Shrinkage (%)	≤1.5 (1000℃)	≤1.5 (1000℃)	≤1.5 (1100℃)	≤1.5 (1200℃)
Flexural Strength (MPa)	≥0.6	≥0.6	≥0.6	≥0.6
Al2O3 Content (%)	44-46	47-49	52-55	38-43
Al2O3+SiO2 (%)	≥99.0	≥99.0	≥99.0	≥99.0

Product Gallery

Frequently Asked Questions

Q1: Can ceramic fiber vacuum formed shapes withstand direct flame? Yes, these shapes are designed to contact flames directly without producing any odor or volatile gases at high temperatures.

Q2: What is the maximum temperature these shapes can endure? Depending on the grade (STD, HP, HA, or Zr), they can operate in environments ranging from 1000°C to 1430°C.

Q3: Is it possible to customize the dimensions and geometry? Absolutely. The vacuum forming process allows for the creation of various complex shapes with high dimensional accuracy based on customer requirements.

Q4: How is the thermal stability of this material? Ceramic fiber shapes exhibit excellent thermal stability, low thermal conductivity, and very low linear shrinkage under high-temperature conditions.

Q5: Does the material provide good mechanical strength? Yes, they offer high mechanical strength and are resistant to high-velocity gas flows, making them durable for industrial furnace linings.

Q6: Are there different density options available? Standard density typically ranges between 280-400 KG/m³, which can be optimized based on the specific application.

1260 High Temperature Insulation Ceramic Fiber Vacuum Formed Shape

Product Description

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