High temperature insulation wool
Encyclopedia
In the 1950s, the term “Refractory Ceramic Fibre” was coined for the aluminium silicate fibres developed at this time.
On account of their chemical purity and resistance to high temperatures (classification temperature >1000 °C
Celsius
Celsius is a scale and unit of measurement for temperature. It is named after the Swedish astronomer Anders Celsius , who developed a similar temperature scale two years before his death...

) as well as on the basis of their use in other applications, this definition was made to differentiate aluminium silicate wools from the conventional “mineral wools”. Because of the ambiguity of the term “ceramic” and the development of new materials for the high temperature range, the nomenclature was changed to High Temperature Insulation Wool (HTIW) at the end of the 1990s.

Basically, there are two types of inorganic HTIW. In addition to the more commonly used amorphous HTIW (Alumino Silicate Wool ASW/RCF and Alkaline Earth Silicate Wool (AES)), Polycrystalline Wool (PCW) is also available.
Owing to the costly production and limited availability compared to mineral wool, HTIW products are almost only used in industrial applications and processes up to 1800 °C
Celsius
Celsius is a scale and unit of measurement for temperature. It is named after the Swedish astronomer Anders Celsius , who developed a similar temperature scale two years before his death...

.

History

Man has used fire for melting and heat treating metals for thousands of years. To ensure safe working with the fire, for melting and working metals (bronze
Bronze
Bronze is a metal alloy consisting primarily of copper, usually with tin as the main additive. It is hard and brittle, and it was particularly significant in antiquity, so much so that the Bronze Age was named after the metal...

, iron
Iron
Iron is a chemical element with the symbol Fe and atomic number 26. It is a metal in the first transition series. It is the most common element forming the planet Earth as a whole, forming much of Earth's outer and inner core. It is the fourth most common element in the Earth's crust...

), special refractory
Refractory
A refractory material is one that retains its strength at high temperatures. ASTM C71 defines refractories as "non-metallic materials having those chemical and physical properties that make them applicable for structures, or as components of systems, that are exposed to environments above...

 materials were needed to enable the handling of liquid or hot metal
Metal
A metal , is an element, compound, or alloy that is a good conductor of both electricity and heat. Metals are usually malleable and shiny, that is they reflect most of incident light...

s . To meet the needs of the wide-ranging applications, a large number of shaped, dense materials (refractory bricks, chamotte)
Grog (clay)
Grog, also known as firesand and chamotte, is a ceramic raw material. It has high percentage of silica and alumina. It can be produced by firing selected fire clays to high temperature before grinding and screening to specific particle sizes. It can also be produced from pitchers...

, shaped heat-insulating materials (lightweight refractory bricks) and unshaped refractory materials (heavy- and lightweight ramming mixes) have been developed, which are used for special high temperature applications. For decades, however, other manmade materials have been used for thermal insulation, glass wool
Glass wool
Glass wool or fiberglass insulation is an insulating material made from fiberglass, arranged into a texture similar to wool. Glass wool is produced in rolls or in slabs, with different thermal and mechanical properties....

 and rock wool
Mineral wool
Mineral wool, mineral fibers or man-made mineral fibers are fibers made from natural or synthetic minerals or metal oxides. The latter term is generally used to refer solely to synthetic materials including fiberglass, ceramic fibers and stone wool...

 being used in the low-temperature range (around 200°C to maximum 500°C).

In the 1960s aluminium-silicate-based "Refractory Ceramic Fibre" were launched on the market in Europe
Europe
Europe is, by convention, one of the world's seven continents. Comprising the westernmost peninsula of Eurasia, Europe is generally 'divided' from Asia to its east by the watershed divides of the Ural and Caucasus Mountains, the Ural River, the Caspian and Black Seas, and the waterways connecting...

. Due to their high temperature-resistance and good technical properties (i.e. good thermal shock resistance and low thermal conductivity), they quickly became the reference for industrial high temperature insulation. Due to the development of new material types the nomenclature of High Temperature Insulation Wool was redefined in Germany at the end of the 1990s. (VDI 3469.). Although even today the term "Ceramic Fibre" or "Refractory Ceramic Fibre" is commonly used it is inaccurate in terms of the materials available, their specific properties and limitations.

Thermal insulation with HTIW enabled a more lightweight construction of industrial furnaces and other technical equipment (heating systems, automobiles), resulting in many economic and ecological benefits. Consequences are smaller wall thicknesses and considerably lower lining masses.

Comparison of the mass for the different wall linings
  • Heavyweight lining: 1500 to 3500 kg/m³,
  • Lightweight lining: 500 to 1000 kg/m³,
  • Lining with HTIW: 160 to 300 kg/m³.


High Temperature Insulation Wool (HTIW)

High Temperature Insulation Wool is an accumulation of fibres of different lengths and diameters, produced synthetically from mineral raw materials. The group of the HTIWs include amorphous Alkaline Earth Silicate Wool (AES) and Aluminom Silicate Wool (ASW) as well as Polycrystalline Wool (PCW) (VDI 3469; DIN-EN 1094) with a classification temperatures >1000 °C. Besides the differences in the chemical composition, manmade fibres have parallel edges in contrast to natural fibres.

Alkaline Earth Silicate Wool (AES Wool)

Also known as “High Temperature Glass Wool" (HTGW), AES Wool consist of amorphous fibres, which are produced by melting a combination of CaO-, MgO-, SiO2 and ZrO2 (see also VDI 3469, Parts 1 and 5). Products made from AES are generally used at application temperatures less than 900 °C and in continuously operating equipment and domestic appliances.

Alumino Silicate Wool (ASW)

Alumino Silicate Wool, also known as “Refractory Ceramic Fibre” (RCF), are amorphous fibres produced by melting a combination of Al2O3 and SiO2, usually in a weight ratio 50:50 (see also VDI 3469 Parts 1 and 5, as well as TRGS 521). Products made of Aluminom Silicate Wool are generally used at application temperatures >900°C and in intermittently operating equipment and critical application conditions (see Technical Rules TRGS 619).

Polycrystalline Wool (PCW)

Polycrystalline Wool consists of fibres containing greater than 70 wt.% Al2O3; they are produced by a "sol-gel method" from aqueous spinning solutions. The water-soluble green fibres obtained as a precursor are crystallized by means of heat treatment (see also VDI 3469 Parts 1 and 5). Polycrystalline Wool is generally used at application temperatures greater than 1300 °C and in critical chemical and physical application conditions, also at lower temperatures.

HTIW and REACH

Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) is a European Union Regulation of 18 December 2006. REACH addresses the production and use of chemical substances, and their potential impacts on both human health and the environment. A Substance Information Exchange Forum (SIEF) has been set up for each type of HITW. AES, ASW and PCW have been registered before the first deadline of 1 December 2010 and can therefore be used on the European market.

Classification Temperature

The classification temperature is defined as the temperature at which a linear shrinkage of 4% is not exceeded after 24 hour heat treatment in the electrically heated laboratory oven
Laboratory oven
Laboratory ovens are ovens for high-forced volume thermal convection applications. These ovens generally provide uniform temperatures throughout. Process applications for laboratory ovens can be for annealing, die-bond curing, drying, Polyimide baking, sterilizing, and other industrial laboratory...

 and in a neutral atmosphere. Depending on the type of product, the value may not exceed the following limits: 2% for boards and shaped products, 4% for mats and papers.
The classification temperature is specified in 50°C steps (starting at 850 °C and up to 1600 °C).
The classification temperature does not mean that the product can be used continuously at this temperature. In the field, the continuous application temperature of amorphous HTIW (AES and ASW) is typically 100 °C to 150 °C below the classification temperature. Products made of Polycrystalline Wool can generally be used up to classification temperature.

Wool

Wool is the term used to describe an ordered accumulation of fibres of varying length and diameter. HTIW fulfil this definition and are therefore covered by the term “wool”. Amorphous AES and ASW are produced by melting the raw materials in a melting pot by means of electrical resistance melting. The jet of melt discharged from the pot is accelerated in a blowing or spinning process and pulled into fibres with different length/diameter ratios.

Continuous fibres/textile glass fibres (VDI 3469 Part 1)

These fibres are produced by means of the continuous filament process with defined nozzle diameters, all fibres having the technical defined and required diameter. During handling, only fibres of the given diameter but different length are released.

Fibrous Dust

Driven by the health effects of Asbestos
Asbestos
Asbestos is a set of six naturally occurring silicate minerals used commercially for their desirable physical properties. They all have in common their eponymous, asbestiform habit: long, thin fibrous crystals...

, extensive research has been conducted to evaluate the potential toxicity of many fibrous materials.

Some dusts if inhaled over a longer period may cause lung disease. Fibrous dust can be released during handling and working with Manmade Mineral and High Temperature Insulation Wool. Fibres with a length exceeding 5 µm, a diameter below 3 µm and a length to diameter ratio that is larger than 3:1 are regarded as respirable. Consequently, regulations on handling and use must be observed that are drawn up and published by the Federal Ministry of Labour and Social Affairs|Federal Ministry of Labour and the associations of the producers of high-temperature insulation wool.
Detailed specifications are currently in preparation and will be added.

Research carried out in the European ASW manufacturing industry by the Institute of Occupational Medicine
Institute of Occupational Medicine
The Institute of Occupational Medicine was founded in 1969 by the National Coal Board as an independent charity. The IOM is a major independent centre of scientific excellence in the fields of occupational health and environmental health, occupational hygiene and occupational safety...

 has shown that there was no indication of serious changes in chest x-rays of workers. However, lung forced expired volume in 1 second (FEV1) and forced vital capacity (FVC) decreased with increasing exposure to airborne respirable fibres. Chronic bronchitis
Chronic bronchitis
Chronic bronchitis is a chronic inflammation of the bronchi in the lungs. It is generally considered one of the two forms of chronic obstructive pulmonary disease...

 and its associated symptoms (cough, phlegm) showed some association with recent exposure to respirable fibres. Changes to the lung pleura seen on the chest radiographs, including pleural plaques, were related to age and exposure to asbestos
Asbestos
Asbestos is a set of six naturally occurring silicate minerals used commercially for their desirable physical properties. They all have in common their eponymous, asbestiform habit: long, thin fibrous crystals...

. Amongst those men who had not worked with asbestos the prevalence
Prevalence
In epidemiology, the prevalence of a health-related state in a statistical population is defined as the total number of cases of the risk factor in the population at a given time, or the total number of cases in the population, divided by the number of individuals in the population...

 of changes increased with increasing time since first exposure to airborne ASW fibres.

Crystalline Silica

Amorphous HTIW (AES and ASW) are produced from a molten glass stream which is aerosolised by a jet of high pressure air or by letting the stream impinge onto spinning wheels. The droplets are drawn into fibres; the mass of both fibres and remaining droplets cool very rapidly so that no crystalline phases form.

When amorphous HTIW are installed and used in high temperature applications such as industrial furnaces, at least one face may be exposed to conditions causing the fibres to partially devitrify. Depending on the chemical composition of the glassy fibre and the time and temperature to which the materials are exposed, different stable crystalline phases may form.

In after-use HTIW crystalline silica crystals are embedded in a matrix composed of other crystals and glasses. Experimental results on the biological activity of after-use HTIW have not demonstrated any hazardous activity that could be related to any form of silica they may contain.

External links

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