Self-healing concrete - Revision history

Editor at 19:52, 11 January 2021

2021-01-11T19:52:58Z

← Older revision		Revision as of 19:52, 11 January 2021
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	= Related articles on Designing Buildings Wiki =		= Related articles on Designing Buildings Wiki =

		+	* Biocement.
	* Cellular concrete.		* Cellular concrete.
	* Concrete.		* Concrete.
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	* Topmix Permeable.		* Topmix Permeable.

−	[[Category:Publications_/_reports]]	+	[[Category:DCN_Product_Knowledge]] [[Category:DCN_Research,_Development_and_Innovation]] [[Category:Publications_/_reports]]

Designing Buildings: moved Self-healing Concrete Market Professional Survey Report 2025 to Self-healing concrete

2019-09-10T10:34:35Z

moved Self-healing Concrete Market Professional Survey Report 2025 to Self-healing concrete

← Older revision

Revision as of 10:34, 10 September 2019

Designing Buildings at 10:34, 10 September 2019

2019-09-10T10:34:01Z

← Older revision		Revision as of 10:34, 10 September 2019
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−	Self-healing concrete is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the genus Bacillus is used for this purpose.	+	Self-healing concrete is capable of repairing itself back to the original state.
		+
		+	The origins of self-healing concrete probably stretch back to Roman times, when the Empire started using a slightly different version of concrete to build underwater structures. This material supposedly provided improved durability, high strength, and the ability to fend off deteriorating chemical reactions. Researchers from the University of Utah are said to have stumbled upon the material's secret. The reason this concrete provided high durability is due to the presence of lime and volcanic ash in its make-up. Moreover, the mixture contained a rare mineral called aluminum tobermorite, which undergoes crystallisation after coming into contact with sea water.
		+
		+	New self-healing concrete types are being developed all over the globe. A key example involves using limestone-producing bacteria. A specific group of alkali-resistant spore-forming bacteria related to the genus Bacillus is used for this purpose.

	Bacterial concrete refers to a new generation concrete in which selective cementation by microbiologically-induced CaCO3 precipitation serves the remediation of micro-cracks. Self-healing concrete contains the bacteria genus Bacillus that is active through contact with moisture or water and then uses the calcium lactate as a food source producing limestone. As a result, these limestones fill the cracks leading to the self-repair of the damage. This bacteria can survive the alkaline nature of concrete and lies dormant within the concrete for up to 200 years.		Bacterial concrete refers to a new generation concrete in which selective cementation by microbiologically-induced CaCO3 precipitation serves the remediation of micro-cracks. Self-healing concrete contains the bacteria genus Bacillus that is active through contact with moisture or water and then uses the calcium lactate as a food source producing limestone. As a result, these limestones fill the cracks leading to the self-repair of the damage. This bacteria can survive the alkaline nature of concrete and lies dormant within the concrete for up to 200 years.

Designing Buildings at 10:31, 10 September 2019

2019-09-10T10:31:32Z

← Older revision		Revision as of 10:31, 10 September 2019
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	Self-healing concrete is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the genus Bacillus is used for this purpose.		Self-healing concrete is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the genus Bacillus is used for this purpose.

−	Bacterial concrete refers to a new generation concrete in which selective cementation by microbiologically-induced CaCO3 precipitation serves as the remediation of micro-cracks. Self-healing concrete contains the bacteria genus Bacillus that is active by contact with moisture or water and then uses the calcium lactate as a food source producing limestone. As a result, these limestones fill the cracks leading to the self-repair of the damage. This bacteria can survive the alkaline nature of concrete and lies dormant within the concrete for up to 200 years.	+	Bacterial concrete refers to a new generation concrete in which selective cementation by microbiologically-induced CaCO3 precipitation serves the remediation of micro-cracks. Self-healing concrete contains the bacteria genus Bacillus that is active through contact with moisture or water and then uses the calcium lactate as a food source producing limestone. As a result, these limestones fill the cracks leading to the self-repair of the damage. This bacteria can survive the alkaline nature of concrete and lies dormant within the concrete for up to 200 years.

−	It offers durability, ~~leakage~~ prevention and extends the service life of concrete structures. The oxygen is consumed by the bacteria to convert calcium into limestone, which closes the crack and helps in the prevention of the corrosion of steel due to water seeping in through cracks. This improves the durability of steel-reinforced concrete construction. However, the use of cement is lowered due to modern construction methods. Hence, the amount of available non-hydrated cement is less and therefore, the natural healing effect is reduced. The construction industry presents lucrative growth opportunities in the self-healing materials market. This is because self-healing materials have the potential to be used in the repair and healing process of cracks, thereby boosting the growth of the self-healing materials market.	+	It offers durability, leak prevention and extends the service life of concrete structures. The oxygen is consumed by the bacteria to convert calcium into limestone, which closes the crack and helps in the prevention of the corrosion of steel reinforcement due to water seeping in through cracks. This improves the durability of steel-reinforced concrete construction.

−	~~The civil infrastructures segment secured the highest share in the market in 2017 and is expected to grow significantly during the forecast period.~~ The global self-healing concrete market is segmented based on type, end-users and region. Based on type, the market is divided into intrinsic healing, capsule-based healing, and vascular healing. Based on end-user, it is divided into residential and commercial, industrial, and civil infrastructure. Based on the region, it is analysed across North America, Europe, Asia-Pacific, and LAMEA. Moreover, factors such as reduction of maintenance costs, repair and service of concrete structures are expected to provide growth opportunities across the globe.	+	The global self-healing concrete market is segmented based on type, end-users and region:

−	~~In 2017~~, ~~Asia-Pacific registered~~ the ~~highest growth rate in the self~~-healing ~~concrete market~~ and is ~~expected to continue this trend during the forecast period~~, ~~owing to the increasing applications in construction. In particular~~, ~~economic development in countries such as China~~ and ~~India prove to be~~ the ~~most lucrative market in the future~~.	+	* Based on type, the market is divided into intrinsic healing, capsule-based healing, and vascular healing.
		+	* Based on end-user, it is divided into residential and commercial, industrial, and civil infrastructure.
		+	* Based on the region, it is analysed across North America, Europe, Asia-Pacific, and LAMEA.

	The global self-healing concrete market size was valued at $216,720.0 thousand in 2017 and is projected to reach $1,375,088.0 thousand by 2025, growing at a CAGR of 26.4% from 2018 to 2025. In 2017, Europe dominated the global market, in terms of revenue, accounting for the highest share of the global market.		The global self-healing concrete market size was valued at $216,720.0 thousand in 2017 and is projected to reach $1,375,088.0 thousand by 2025, growing at a CAGR of 26.4% from 2018 to 2025. In 2017, Europe dominated the global market, in terms of revenue, accounting for the highest share of the global market.

−	~~= Key findings of the study: =~~	+	In 2017, Asia-Pacific registered the highest growth rate in the self-healing concrete market and is expected to continue this trend. In particular, economic development in countries such as China and India may drive the most lucrative markets in the future.
−		+
−	* In 2017, ~~by type, the capsule~~-~~based healing segment dominated~~ the ~~global self-healing concrete market,~~ in ~~terms of revenue.~~	+
−	* In 2017, by end-user, the civil infrastructure segment dominated the ~~global~~ self-healing concrete market~~, in terms of revenue,~~ and is ~~projected~~ to ~~grow at a significant CAGR during the forecast period~~.	+
−	* The Europe market accounted for more than 50 % of self-healing concrete market share in ~~2017~~.	+

	= Related articles on Designing Buildings Wiki =		= Related articles on Designing Buildings Wiki =

Editor at 18:10, 27 August 2019

2019-08-27T18:10:32Z

← Older revision		Revision as of 18:10, 27 August 2019
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−	Self-healing concrete ~~is a material, which~~ is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the genus Bacillus is ~~selected~~ for this purpose. Bacterial concrete refers to a new generation concrete in which selective cementation by microbiologically-induced CaCO3 precipitation that serves as the remediation of micro-cracks. Self-healing concrete contains bacteria genus Bacillus that is active by contact with moisture or water and then use the calcium lactate as a food source and produces limestone. As a result, these limestone’s fills the cracks leading to self-repair for the damage. These bacteria’s can survive in alkaline nature of concrete and lie dormant within the concrete for up to two hundred years.	+	Self-healing concrete is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the genus Bacillus is used for this purpose.

−	~~[https://www~~.~~premiummarketinsights~~.~~com/sample/AMR00014142?utm_source=DB/Vishal View further details about this report]~~	+	Bacterial concrete refers to a new generation concrete in which selective cementation by microbiologically-induced CaCO3 precipitation serves as the remediation of micro-cracks. Self-healing concrete contains the bacteria genus Bacillus that is active by contact with moisture or water and then uses the calcium lactate as a food source producing limestone. As a result, these limestones fill the cracks leading to the self-repair of the damage. This bacteria can survive the alkaline nature of concrete and lies dormant within the concrete for up to 200 years.

−	It offers durability, leakage prevention, and extends the service life of concrete structures. The oxygen is consumed by the bacteria to convert calcium into limestone, which closes the crack and helps in the prevention of corrosion of steel due to water seeping in through cracks. This improves the durability of steel-reinforced concrete construction. However, the use of cement is lowered due to modern construction methods. Hence, the amount of available non-hydrated cement is less and therefore, the natural healing effect is reduced. The construction industry presents lucrative growth opportunities in the self-healing materials market. This is because self-healing materials have the potential to be used in the repair and healing process of cracks, thereby boosting the growth of the self-healing materials market.	+	It offers durability, leakage prevention and extends the service life of concrete structures. The oxygen is consumed by the bacteria to convert calcium into limestone, which closes the crack and helps in the prevention of the corrosion of steel due to water seeping in through cracks. This improves the durability of steel-reinforced concrete construction. However, the use of cement is lowered due to modern construction methods. Hence, the amount of available non-hydrated cement is less and therefore, the natural healing effect is reduced. The construction industry presents lucrative growth opportunities in the self-healing materials market. This is because self-healing materials have the potential to be used in the repair and healing process of cracks, thereby boosting the growth of the self-healing materials market.

−	The civil infrastructures segment secured the highest share in the market in 2017 and is expected to grow significantly during the forecast period. The global self-healing concrete market is segmented based on type, end-users, and region. Based on type, the market is divided into intrinsic healing, capsule-based healing, and vascular healing. Based on end-user, it is divided into residential and commercial, industrial, and civil infrastructure. Based on the region, it is ~~analyzed~~ across North America, Europe, Asia-Pacific, and LAMEA. Moreover, factors such as reduction of maintenance costs, repair, and service of concrete structures are expected to provide growth opportunities across the globe.	+	The civil infrastructures segment secured the highest share in the market in 2017 and is expected to grow significantly during the forecast period. The global self-healing concrete market is segmented based on type, end-users and region. Based on type, the market is divided into intrinsic healing, capsule-based healing, and vascular healing. Based on end-user, it is divided into residential and commercial, industrial, and civil infrastructure. Based on the region, it is analysed across North America, Europe, Asia-Pacific, and LAMEA. Moreover, factors such as reduction of maintenance costs, repair and service of concrete structures are expected to provide growth opportunities across the globe.

	In 2017, Asia-Pacific registered the highest growth rate in the self-healing concrete market and is expected to continue this trend during the forecast period, owing to the increasing applications in construction. In particular, economic development in countries such as China and India prove to be the most lucrative market in the future.		In 2017, Asia-Pacific registered the highest growth rate in the self-healing concrete market and is expected to continue this trend during the forecast period, owing to the increasing applications in construction. In particular, economic development in countries such as China and India prove to be the most lucrative market in the future.
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	The global self-healing concrete market size was valued at $216,720.0 thousand in 2017 and is projected to reach $1,375,088.0 thousand by 2025, growing at a CAGR of 26.4% from 2018 to 2025. In 2017, Europe dominated the global market, in terms of revenue, accounting for the highest share of the global market.		The global self-healing concrete market size was valued at $216,720.0 thousand in 2017 and is projected to reach $1,375,088.0 thousand by 2025, growing at a CAGR of 26.4% from 2018 to 2025. In 2017, Europe dominated the global market, in terms of revenue, accounting for the highest share of the global market.

−	~~The major players, such as Basilisk, Acciona Infraestructureas S.A., Avecom N.V., Comercializadora Espanola De Innovaciones Y Materiales, COWI A/S, Devan-Micropolis and Fescon.~~	+	= Key findings of the study: =
−		+
−	~~[https://www.premiummarketinsights.com/sample/AMR00014142?utm_source~~=~~DB/Vishal Access this ReportView detailed report]~~	+
−		+
−	Key ~~Findings~~ of ~~The Study~~:	+

	* In 2017, by type, the capsule-based healing segment dominated the global self-healing concrete market, in terms of revenue.		* In 2017, by type, the capsule-based healing segment dominated the global self-healing concrete market, in terms of revenue.
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	* The Europe market accounted for more than 50 % of self-healing concrete market share in 2017.		* The Europe market accounted for more than 50 % of self-healing concrete market share in 2017.

−	~~[[Category:Education]] [[Category:History]] [[Category:International]] [[Category:Organisations]] [[Category:Projects_and_case_studies]]~~ [[Category:Publications_/_reports]] [[Category:Research_/_Innovation]] [[Category:Theory]] [[Category:Construction_management]] [[Category:Construction_techniques]] [[Category:Cost_/_business_planning]] [[Category:Design]] [[Category:Procurement]] [[Category:Products_/_components]] [[Category:Public_procedures]]	+	= Related articles on Designing Buildings Wiki =
		+
		+	* Cellular concrete.
		+	* Concrete.
		+	* Concrete superplasticizer.
		+	* Hempcrete.
		+	* Limecrete.
		+	* Self-compacting concrete.
		+	* Testing concrete.
		+	* Topmix Permeable.
		+
		+	[[Category:Publications_/_reports]]

Vishalchadwik: Created page with "Self-healing concrete is a material, which is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the g..."

2019-08-27T06:53:38Z

Created page with "Self-healing concrete is a material, which is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the g..."

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Self-healing concrete is a material, which is capable of repairing itself back to the original state. A specific group of alkali-resistant spore-forming bacteria related to the genus Bacillus is selected for this purpose. Bacterial concrete refers to a new generation concrete in which selective cementation by microbiologically-induced CaCO3 precipitation that serves as the remediation of micro-cracks. Self-healing concrete contains bacteria genus Bacillus that is active by contact with moisture or water and then use the calcium lactate as a food source and produces limestone. As a result, these limestone’s fills the cracks leading to self-repair for the damage. These bacteria’s can survive in alkaline nature of concrete and lie dormant within the concrete for up to two hundred years.

[https://www.premiummarketinsights.com/sample/AMR00014142?utm_source=DB/Vishal View further details about this report]

It offers durability, leakage prevention, and extends the service life of concrete structures. The oxygen is consumed by the bacteria to convert calcium into limestone, which closes the crack and helps in the prevention of corrosion of steel due to water seeping in through cracks. This improves the durability of steel-reinforced concrete construction. However, the use of cement is lowered due to modern construction methods. Hence, the amount of available non-hydrated cement is less and therefore, the natural healing effect is reduced. The construction industry presents lucrative growth opportunities in the self-healing materials market. This is because self-healing materials have the potential to be used in the repair and healing process of cracks, thereby boosting the growth of the self-healing materials market.

The civil infrastructures segment secured the highest share in the market in 2017 and is expected to grow significantly during the forecast period. The global self-healing concrete market is segmented based on type, end-users, and region. Based on type, the market is divided into intrinsic healing, capsule-based healing, and vascular healing. Based on end-user, it is divided into residential and commercial, industrial, and civil infrastructure. Based on the region, it is analyzed across North America, Europe, Asia-Pacific, and LAMEA. Moreover, factors such as reduction of maintenance costs, repair, and service of concrete structures are expected to provide growth opportunities across the globe.

In 2017, Asia-Pacific registered the highest growth rate in the self-healing concrete market and is expected to continue this trend during the forecast period, owing to the increasing applications in construction. In particular, economic development in countries such as China and India prove to be the most lucrative market in the future.

The global self-healing concrete market size was valued at $216,720.0 thousand in 2017 and is projected to reach $1,375,088.0 thousand by 2025, growing at a CAGR of 26.4% from 2018 to 2025. In 2017, Europe dominated the global market, in terms of revenue, accounting for the highest share of the global market.

The major players, such as Basilisk, Acciona Infraestructureas S.A., Avecom N.V., Comercializadora Espanola De Innovaciones Y Materiales, COWI A/S, Devan-Micropolis and Fescon.

[https://www.premiummarketinsights.com/sample/AMR00014142?utm_source=DB/Vishal Access this ReportView detailed report]

Key Findings of The Study:

* In 2017, by type, the capsule-based healing segment dominated the global self-healing concrete market, in terms of revenue.
* In 2017, by end-user, the civil infrastructure segment dominated the global self-healing concrete market, in terms of revenue, and is projected to grow at a significant CAGR during the forecast period.
* The Europe market accounted for more than 50 % of self-healing concrete market share in 2017.

[[Category:Education]] [[Category:History]] [[Category:International]] [[Category:Organisations]] [[Category:Projects_and_case_studies]] [[Category:Publications_/_reports]] [[Category:Research_/_Innovation]] [[Category:Theory]] [[Category:Construction_management]] [[Category:Construction_techniques]] [[Category:Cost_/_business_planning]] [[Category:Design]] [[Category:Procurement]] [[Category:Products_/_components]] [[Category:Public_procedures]]