| Thermal Ceramic Insulation |
Combustion Controls Solutions & Environmental Services, Inc. provides a complete line of Ceramic Fiber Module Systems and Ceramic Fiber Blanket featuring the widest variety of refractory ceramic fiber compositions, attachment anchoring systems, construction designs and field installation services available for lining or refurbishing your Thermal Oxidizer requirements.
Our service center located in Toledo, Ohio can respond rapidly to any situation allowing us to deliver tools and tradesmen to your facility with as little as four hours notice.
Ceramic Fiber Module Systems and Ceramic Fiber Blanket products are available in a wide range of temperature and density compositions, as well as thickness and roll widths. Common characteristics are low thermal conductivity, excellent thermal shock resistance, and low heat storage capacity. They also contain no organic materials that could contaminate Thermal Oxidizer atmospheres at elevated temperatures.
Ceramic Fiber Module Systems and Ceramic Fiber Blanket products are available in a variety of process shapes or modified forms.
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| Thermal Ceramic Glossary Terms |
Ceramic - Any man-made solid produced by the fusion of mineral substances in a kiln. The term 'ceramics' has come to signify the slip casting industry that uses talc-ball clay slurries to cast ware for firing at low temperatures. The term 'pottery' is used to refer to those individuals and companies who fabricate their own ware using plastic clays of all types and at all temperature ranges.
Abrasion Ceramics - Fired ceramic has the potential of being extremely hard and resistant to abrasion and wear. Special abrasion resistant ceramic products are made from highly specialized materials and fired to exacting requirements. Calcined alumina, for example, can be cast and fired to very high temperatures to produce surfaces with exceptional resistance to abrasion. Likewise, aggregates and bonding frits are employed by the abrasives industry to make all kinds of abrasive products (products designed to abrade others). The hardness of pottery is mainly dependent on the development of aluminum silicates during firing (i.e. mullite crystals). This requires temperatures high enough to melt fluxes to allow them to dissolve quartz and other minerals. It also requires time to allow these processes to complete. Likewise the glaze components most resistant to abrasion are refractory alumina and silica, and the higher you fire the more you can get into your glaze and yet still get it to melt.
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Ceramic Fiber Module Systems
and Ceramic Fiber Blanket
with Attachment Anchoring Systems
Installed with Combustion Burner Tile
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