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A platform for research: civil engineering, architecture and urbanism
Characterising a historical bridge’s bricks in Popayán (Colombia)
This article presents the procedures and results of studying the physical-mechanical and chemical-mineralogical cha-racterisation of the bricks originally used in a masonry arch bridge; the bridge was built in the first half of the 18th century in the city of Popayán, Colombia. Core-samples were thus extracted from the bridge’s lower area and sub-jected to different laboratory tests. Physical-mechanical characterisation quantified values related to dry weight, sus-pended weight, saturated weight, porosity, apparent gravity, apparent density and maximum load values, cold com-pression resistance and elasticity modulus. The results revealed the bricks’ high porosity and their low resistance to compression stress. Chemical-mineralogical characterisation involved a combination of tests including X-ray diffract-tion (XRD), X-ray photoelectron spectroscopy (XPS) and Fourier transformed infra-red spectroscopy (FTIR). Several mi-nerals found led to deducting the source of the raw material, as well as verifying some brick production characteris-tics of the time in the said region. Tridimite, cristobalite, magnetite and calcium carbonate were some of the phases formed by the temperatures reached while firing the bricks, while potassium sulphate presence in one of the samples conveyed the nature of the construction materials’ production characteristics. Combining XRD and XPS analysis pro-vided information about firing temperature and the new mineralogical phases appearing at the end of this process; FTIR proved functional OH and Si-O-Si group presence. These bricks’ characteristics provided valuable data for res-toration purposes, formulating a new brick from raw material complying with reconstruction requirements.
Characterising a historical bridge’s bricks in Popayán (Colombia)
This article presents the procedures and results of studying the physical-mechanical and chemical-mineralogical cha-racterisation of the bricks originally used in a masonry arch bridge; the bridge was built in the first half of the 18th century in the city of Popayán, Colombia. Core-samples were thus extracted from the bridge’s lower area and sub-jected to different laboratory tests. Physical-mechanical characterisation quantified values related to dry weight, sus-pended weight, saturated weight, porosity, apparent gravity, apparent density and maximum load values, cold com-pression resistance and elasticity modulus. The results revealed the bricks’ high porosity and their low resistance to compression stress. Chemical-mineralogical characterisation involved a combination of tests including X-ray diffract-tion (XRD), X-ray photoelectron spectroscopy (XPS) and Fourier transformed infra-red spectroscopy (FTIR). Several mi-nerals found led to deducting the source of the raw material, as well as verifying some brick production characteris-tics of the time in the said region. Tridimite, cristobalite, magnetite and calcium carbonate were some of the phases formed by the temperatures reached while firing the bricks, while potassium sulphate presence in one of the samples conveyed the nature of the construction materials’ production characteristics. Combining XRD and XPS analysis pro-vided information about firing temperature and the new mineralogical phases appearing at the end of this process; FTIR proved functional OH and Si-O-Si group presence. These bricks’ characteristics provided valuable data for res-toration purposes, formulating a new brick from raw material complying with reconstruction requirements.
Characterising a historical bridge’s bricks in Popayán (Colombia)
Jorge Alberto Galindo Díaz (author) / Andrés Mauricio Muñoz (author) / Marisol Caicedo Muñoz (author)
2008
Article (Journal)
Electronic Resource
Unknown
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