The Experts below are selected from a list of 24747 Experts worldwide ranked by ideXlab platform
Lourdes Soriano - One of the best experts on this subject based on the ideXlab platform.
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An Approach to a New Supplementary Cementing Material: Arundo donax Straw Ash
Sustainability, 2018Co-Authors: Jordi Payá, Josefa Roselló, José Monzó, Alejandro Escalera, María Pilar Santamarina, María Victoria Borrachero, Lourdes SorianoAbstract:Arundo donax is a plant native to Asia and is considered an invader species in the Mediterranean region and many Tropical Zones in the world. These invader plants can be collected to produce a biomass, which can be converted to ash by combustion. The scope of the study is to assess the use of these ashes (Arundo donax straw ash [ADSA]) as supplementary cementing material due to their relatively high silica content. Electron microscopy studies on dried and calcined samples of different plant parts (cane, sheath leaf and leaf) were carried out. Some different cellular structures were identified in the spodogram (remaining skeleton after calcination). Major silica content was found in leaves and sheath leaves. The main element in all the ashes studied, together with oxygen, was potassium (22 to 46% depending on the part of the plant). Chloride content was also high (5–13%), which limits their use to non-steel reinforced concrete. The pozzolanic reactivity of ADSA was assessed in pastes by thermogravimetric analysis and in mortars with ordinary Portland cement based on compressive strength development. Excellent results were found in terms of reactivity.
Jordi Payá - One of the best experts on this subject based on the ideXlab platform.
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An Approach to a New Supplementary Cementing Material: Arundo donax Straw Ash
Sustainability, 2018Co-Authors: Jordi Payá, Josefa Roselló, José Monzó, Alejandro Escalera, María Pilar Santamarina, María Victoria Borrachero, Lourdes SorianoAbstract:Arundo donax is a plant native to Asia and is considered an invader species in the Mediterranean region and many Tropical Zones in the world. These invader plants can be collected to produce a biomass, which can be converted to ash by combustion. The scope of the study is to assess the use of these ashes (Arundo donax straw ash [ADSA]) as supplementary cementing material due to their relatively high silica content. Electron microscopy studies on dried and calcined samples of different plant parts (cane, sheath leaf and leaf) were carried out. Some different cellular structures were identified in the spodogram (remaining skeleton after calcination). Major silica content was found in leaves and sheath leaves. The main element in all the ashes studied, together with oxygen, was potassium (22 to 46% depending on the part of the plant). Chloride content was also high (5–13%), which limits their use to non-steel reinforced concrete. The pozzolanic reactivity of ADSA was assessed in pastes by thermogravimetric analysis and in mortars with ordinary Portland cement based on compressive strength development. Excellent results were found in terms of reactivity.
María Pilar Santamarina - One of the best experts on this subject based on the ideXlab platform.
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An Approach to a New Supplementary Cementing Material: Arundo donax Straw Ash
Sustainability, 2018Co-Authors: Jordi Payá, Josefa Roselló, José Monzó, Alejandro Escalera, María Pilar Santamarina, María Victoria Borrachero, Lourdes SorianoAbstract:Arundo donax is a plant native to Asia and is considered an invader species in the Mediterranean region and many Tropical Zones in the world. These invader plants can be collected to produce a biomass, which can be converted to ash by combustion. The scope of the study is to assess the use of these ashes (Arundo donax straw ash [ADSA]) as supplementary cementing material due to their relatively high silica content. Electron microscopy studies on dried and calcined samples of different plant parts (cane, sheath leaf and leaf) were carried out. Some different cellular structures were identified in the spodogram (remaining skeleton after calcination). Major silica content was found in leaves and sheath leaves. The main element in all the ashes studied, together with oxygen, was potassium (22 to 46% depending on the part of the plant). Chloride content was also high (5–13%), which limits their use to non-steel reinforced concrete. The pozzolanic reactivity of ADSA was assessed in pastes by thermogravimetric analysis and in mortars with ordinary Portland cement based on compressive strength development. Excellent results were found in terms of reactivity.
Alejandro Escalera - One of the best experts on this subject based on the ideXlab platform.
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An Approach to a New Supplementary Cementing Material: Arundo donax Straw Ash
Sustainability, 2018Co-Authors: Jordi Payá, Josefa Roselló, José Monzó, Alejandro Escalera, María Pilar Santamarina, María Victoria Borrachero, Lourdes SorianoAbstract:Arundo donax is a plant native to Asia and is considered an invader species in the Mediterranean region and many Tropical Zones in the world. These invader plants can be collected to produce a biomass, which can be converted to ash by combustion. The scope of the study is to assess the use of these ashes (Arundo donax straw ash [ADSA]) as supplementary cementing material due to their relatively high silica content. Electron microscopy studies on dried and calcined samples of different plant parts (cane, sheath leaf and leaf) were carried out. Some different cellular structures were identified in the spodogram (remaining skeleton after calcination). Major silica content was found in leaves and sheath leaves. The main element in all the ashes studied, together with oxygen, was potassium (22 to 46% depending on the part of the plant). Chloride content was also high (5–13%), which limits their use to non-steel reinforced concrete. The pozzolanic reactivity of ADSA was assessed in pastes by thermogravimetric analysis and in mortars with ordinary Portland cement based on compressive strength development. Excellent results were found in terms of reactivity.
José Monzó - One of the best experts on this subject based on the ideXlab platform.
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An Approach to a New Supplementary Cementing Material: Arundo donax Straw Ash
Sustainability, 2018Co-Authors: Jordi Payá, Josefa Roselló, José Monzó, Alejandro Escalera, María Pilar Santamarina, María Victoria Borrachero, Lourdes SorianoAbstract:Arundo donax is a plant native to Asia and is considered an invader species in the Mediterranean region and many Tropical Zones in the world. These invader plants can be collected to produce a biomass, which can be converted to ash by combustion. The scope of the study is to assess the use of these ashes (Arundo donax straw ash [ADSA]) as supplementary cementing material due to their relatively high silica content. Electron microscopy studies on dried and calcined samples of different plant parts (cane, sheath leaf and leaf) were carried out. Some different cellular structures were identified in the spodogram (remaining skeleton after calcination). Major silica content was found in leaves and sheath leaves. The main element in all the ashes studied, together with oxygen, was potassium (22 to 46% depending on the part of the plant). Chloride content was also high (5–13%), which limits their use to non-steel reinforced concrete. The pozzolanic reactivity of ADSA was assessed in pastes by thermogravimetric analysis and in mortars with ordinary Portland cement based on compressive strength development. Excellent results were found in terms of reactivity.
