Calcium silicate brick - Revision history

Editor at 08:25, 26 April 2024

2024-04-26T08:25:15Z

← Older revision		Revision as of 08:25, 26 April 2024
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−	Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sandlime bricks. In board materials it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contained asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of Portland cement.	+	Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sandlime bricks. In board materials it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contained asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of Portland cement and in some cases flyash.

	Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700-2200 kgm3 and strength of up to 10N/mm2.		Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700-2200 kgm3 and strength of up to 10N/mm2.
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	Due to the nature of material and manufacture they can be used in high temperature environments without deformation or damage and are thus useful in fire protection strategies. Because the final product is homogenous and flat it can often require less mortar and is considered porous and hygroscopic, which means as such that breaths but is susceptible to drawing in moisture which in large quantities can dramatically reduce thermal performance. Though this also allows the material to be quite easily mechanically crushed and reformed into the similar types of brick products and coloured with pigments such as iron or chromium oxides or ochres to create red, green and yellow finishes.		Due to the nature of material and manufacture they can be used in high temperature environments without deformation or damage and are thus useful in fire protection strategies. Because the final product is homogenous and flat it can often require less mortar and is considered porous and hygroscopic, which means as such that breaths but is susceptible to drawing in moisture which in large quantities can dramatically reduce thermal performance. Though this also allows the material to be quite easily mechanically crushed and reformed into the similar types of brick products and coloured with pigments such as iron or chromium oxides or ochres to create red, green and yellow finishes.

−	[[Category:~~Articles_needing_more_work~~]]	+	= Related articles on Designing Buildings =
		+
		+	* Asbestos
		+	* Blockwork.
		+	* Brick.
		+	* Brick bats and closures.
		+	* Calcium carbide.
		+	* Calcium carbonate.
		+	* Calcium phosphate.
		+	* Calcium silicate board.
		+	* Cant bricks.
		+	* Cavity wall.
		+	* Common brick.
		+	* Defects in brickwork.
		+	* Engineering bricks.
		+	* Flyash.
		+	* How to lay bricks.
		+	* Silcrete.
		+	* Silica.
		+	* Silicon.
		+	* Testing bricks.
		+	* The use of lime mortar in building conservation.
		+	* Types of brick.
		+	* Types of brick arches.
		+	* Types of brick bonding.
		+	* Types of concrete.
		+	* Types of steel.
		+	* Types of stone.
		+	* Which way up should you lay a brick?
		+
		+	[[Category:DCN_Definition]] [[Category:DCN_Product_Knowledge]] [[Category:DCN_Specification]] [[Category:Definitions]] [[Category:Products_/_components]]

Editor at 07:30, 26 April 2024

2024-04-26T07:30:48Z

← Older revision		Revision as of 07:30, 26 April 2024
Line 1:		Line 1:
−	Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sandlime bricks. In board materials it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contained asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of ~~portland~~ cement.	+	Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sandlime bricks. In board materials it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contained asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of Portland cement.

	Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700-2200 kgm3 and strength of up to 10N/mm2.		Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700-2200 kgm3 and strength of up to 10N/mm2.

−	These bricks are lightweight, and as such can be fragile at their edges, but have the advantage of good insulative qualities, of between around 1.0 to 1.5 W/mK when protected from moisture. The resistance to chemical damage of the calcium silicate brick is good and so it is less likely to suffer from surface deposits caused by efflorescence that may be found on clay brick or concrete. Due to the nature of their material and manufacture they can be used in high temperature environments without deformation or damage. This also allows the material to be quite easily mechanically crushed and reformed into the similar types of brick products and coloured with pigments such as iron or chromium oxides or ochres to create red, green and yellow finishes. Because the final product is homogenous and flat it can often	+	These bricks are lightweight, and as such can be fragile at their edges, but have the advantage of good insulative qualities, of between around 1.0 to 1.5 W/mK when protected from moisture. The resistance to chemical damage of the calcium silicate brick is good and so it is less likely to suffer from surface deposits caused by efflorescence that may be found on clay brick or concrete.

−	~~if required~~.	+	Due to the nature of material and manufacture they can be used in high temperature environments without deformation or damage and are thus useful in fire protection strategies. Because the final product is homogenous and flat it can often require less mortar and is considered porous and hygroscopic, which means as such that breaths but is susceptible to drawing in moisture which in large quantities can dramatically reduce thermal performance. Though this also allows the material to be quite easily mechanically crushed and reformed into the similar types of brick products and coloured with pigments such as iron or chromium oxides or ochres to create red, green and yellow finishes.

	[[Category:Articles_needing_more_work]]		[[Category:Articles_needing_more_work]]

Editor at 07:25, 26 April 2024

2024-04-26T07:25:44Z

← Older revision		Revision as of 07:25, 26 April 2024
Line 3:		Line 3:
	Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700-2200 kgm3 and strength of up to 10N/mm2.		Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700-2200 kgm3 and strength of up to 10N/mm2.

−	These bricks are lightweight, and as such can be fragile at their edges, but have the advantage of good insulative qualities, of between around 1.0 to 1.5 W/mK when protected from moisture. The resistance to chemical damage of the calcium silicate brick is good and so it is less likely to suffer from surface deposits caused by efflorescence that may be found on clay brick or concrete. Due to the nature of their material and manufacture they can be used in high temperature environments without deformation or damage. This also allows the material to be quite easily mechanically crushed and reformed into the similar types of brick products and coloured with ~~pigment~~ if required.	+	These bricks are lightweight, and as such can be fragile at their edges, but have the advantage of good insulative qualities, of between around 1.0 to 1.5 W/mK when protected from moisture. The resistance to chemical damage of the calcium silicate brick is good and so it is less likely to suffer from surface deposits caused by efflorescence that may be found on clay brick or concrete. Due to the nature of their material and manufacture they can be used in high temperature environments without deformation or damage. This also allows the material to be quite easily mechanically crushed and reformed into the similar types of brick products and coloured with pigments such as iron or chromium oxides or ochres to create red, green and yellow finishes. Because the final product is homogenous and flat it can often
		+
		+	if required.

	[[Category:Articles_needing_more_work]]		[[Category:Articles_needing_more_work]]

Editor at 07:22, 26 April 2024

2024-04-26T07:22:38Z

← Older revision		Revision as of 07:22, 26 April 2024
Line 1:		Line 1:
	Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sandlime bricks. In board materials it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contained asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of portland cement.		Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sandlime bricks. In board materials it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contained asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of portland cement.

−	Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700 - 2200 kgm3 and strength of up to 10N/mm2.	+	Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700-2200 kgm3 and strength of up to 10N/mm2.

−	These bricks are lightweight, and as such can be fragile at their edges, but have the advantage of good insulative qualities, of between around 1.0 to 1.5 W/mK when protected from moisture. The resistance to chemical damage of is calcium silicate ~~bricks cis~~ good and they be used in high temperature environments without deformation. ~~The material can~~ also be crushed and reformed into the similar brick products and coloured with pigment if required.	+	These bricks are lightweight, and as such can be fragile at their edges, but have the advantage of good insulative qualities, of between around 1.0 to 1.5 W/mK when protected from moisture. The resistance to chemical damage of the calcium silicate brick is good and so it is less likely to suffer from surface deposits caused by efflorescence that may be found on clay brick or concrete. Due to the nature of their material and manufacture they can be used in high temperature environments without deformation or damage. This also allows the material to be quite easily mechanically crushed and reformed into the similar types of brick products and coloured with pigment if required.

	[[Category:Articles_needing_more_work]]		[[Category:Articles_needing_more_work]]

Editor at 07:17, 26 April 2024

2024-04-26T07:17:21Z

← Older revision		Revision as of 07:17, 26 April 2024
Line 1:		Line 1:
−	Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as ~~sand lime~~ bricks. it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards ~~contain~~ asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of portland cement.	+	Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sandlime bricks. In board materials it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contained asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of portland cement.

−	~~ight weight~~	+	Calcium silicate bricks are made primarily of readily available, naturally occurring materials and have some advantages in terms of the energy required to make them, compared to standard fired clay bricks. Silica sand, water and hydrated lime are left to cure to produce hydrated calcium silicate, formed in an autoclave at high pressure the resulting brick is durable and strong with densities between 1700 - 2200 kgm3 and strength of up to 10N/mm2.

−	~~low thermal conductivity~~	+	These bricks are lightweight, and as such can be fragile at their edges, but have the advantage of good insulative qualities, of between around 1.0 to 1.5 W/mK when protected from moisture. The resistance to chemical damage of is calcium silicate bricks cis good and they be used in high temperature environments without deformation. The material can also be crushed and reformed into the similar brick products and coloured with pigment if required.
−		+
−	high temperature and ~~chemical resistance~~	+

	[[Category:Articles_needing_more_work]]		[[Category:Articles_needing_more_work]]

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2024-04-26T06:29:14Z

Created page with "Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sand lime bricks..."

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Calcium silicate, is used in the manufacture of a variety on materials such as calcium silicate board, pipe insulation and calcium silicate bricks, also known as sand lime bricks. it is often seen as a safe alternative to asbestos, although originally some calcium silicate boards contain asbestos fibres, today additives such as cellulose fibres are used instead along with small amounts of portland cement.

ight weight

low thermal conductivity

high temperature and chemical resistance

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