Evaluation of large deformations on Romanesque masonry pillars: The case of Santa María de Arties (XII-XIII) at Valle de Arán, Spain

Ginovart, Josep Lluís i; Pla, Sergio Coll; Jover, Agustí Costa

doi:10.7764/rdlc.16.3.468

Cited by 3 publications

(4 citation statements)

References 6 publications

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“…Figure 2. Methodology of the geometrical assessment of Santa Maria Arties pillars' [35] The assessment of the deformations of the elements under its own weight, especially the central and lateral vaults, makes it possible to deduce that external actions, such as snow or seism. These external actions, together with the loss of lime mortar, inasmuch as humidity or vibrations, cause the primitive function fi(x,y,z) of the vaults.…”

Section: Methodology Of the Geometrical Assessment Of Arties Pillars'mentioning

confidence: 99%

“…Figure 1. Santa Maria Arties (XII-XIII) [35] In order to analyse the deformations of the church of Santa Maria Arties (XII-XIII), we used the point cloud extract from the scanner Leica ScanStation P20, with a bandwidth of 808/658, class 1. The scanning ratio is 1,000,000 points, and the noise at 100 is 9.0 mm for black surfaces, 4.30 mm for grey surfaces, and 1.5 mm for white surfaces.…”

Section: The Study Of the Great Deformations Of The Val D'aran Romanesque Architecturementioning

confidence: 99%

“…Thus, pillars have following rows: (P1=26), (P2=26), (P3=27), (P4= 25), (P5= 23) and (P6= 23). Rows are numbered from bottom to top [35]. The identification of pillars' joints was made by means of a manual measurement system, for the reason that the graphical capacity of the software Cyclone, and the program 3DResheaper, does not allow to specify pillar's joints because it constructs it three-dimensionally (Figure 3).…”

Section: Data Treatment With the Software Cyclone (2016)mentioning

confidence: 99%

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Methodologic Evolution Assessment of Large Deformations on Romanesque Masonry in Val d‘Aran (XII-XIII centuries), Spain

Ginovart¹,

Piquer²,

Lluis-Teruel³

2021

12th International Conference on Structural Analysis of Historical Constructions

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There is a set of Romanesque churches at Val d'Aran that were built between the eleventh and thirteenth centuries. One of the main features of these buildings is the presence of large deformations and geometrical displacements in their masonry. One of the most deformed buildings is the church of Santa Maria de Arties (XII), which arches' and vaults' have antifunicular shapes. The assessment is based on a three-dimensional model obtained with a terrestrial laser scanner (TLS). The scanner used is a Leica ScanStation P20. In the study of built heritage, the use of direct measurement techniques for architectural surveying requires a large number of resources. These deformations have caused, in some cases, turn centerlines of the vaults into convex shapes, which have the inverted shape of an arch. Joints appeared because of active and passive thrusts that were performed to keep the structures in equilibrium. Geometrical assessment of the least rigid elements, the pillars, makes it possible to analyze the displacements, which have been the cause of anti-funicular shapes on some vaults. It is possible to deduce the regression plane of the displacements of the pillars of the central nave and to define the deformation vectors over it. Thus, these data all for the directions of the deformations of the vaults to be determined.The methodology of this study focuses on the assessment of the geometrical characteristics of the pillars, with the objective of studying the displacements that they have suffered. The point cloud is processed with the software; Cyclone, and the program 3DReshaper (2016), and Google SketchUp (2019). The study allows to analyze the evolution of the treatment of points, concluding that deformations of the pillars are not perpendicular to the axis of the central vault. The methodology used and its results let to understand the nature of the displacements in order to preserve these masonry structures.

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Section: Methodology Of the Geometrical Assessment Of Arties Pillars'mentioning

confidence: 99%

Section: The Study Of the Great Deformations Of The Val D'aran Romanesque Architecturementioning

confidence: 99%

Section: Data Treatment With the Software Cyclone (2016)mentioning

confidence: 99%

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Methodologic Evolution Assessment of Large Deformations on Romanesque Masonry in Val d‘Aran (XII-XIII centuries), Spain

Ginovart¹,

Piquer²,

Lluis-Teruel³

2021

12th International Conference on Structural Analysis of Historical Constructions

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“…Many studies have developed simple (and not so simple) to address deformation of ancient structures from point clouds. Examples of it are the studies performed in the church of Santa Maria of Portonovo [15], the Cantalovo church [16], the Palazzo d'Accursio [17] (the three of them in Italy); the church of Santa Maria de Arties [18] or the Cathedral of Tortosa [19] (both in Spain), among many others. TLS surveys and displacement assessments can be also combined with other procedures of structural analysis [20], [21].…”

Section: Introductionmentioning

confidence: 99%

Terrestrial Laser Scanner for the Formal Assessment of a Roman-Medieval Structure—The Cloister of the Cathedral of Tarragona (Spain)

et al. 2020

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The use of massive data capture techniques in architectural heritage has enhanced the development of new methodologies that have an important impact on their conservation and understanding. The research proposes the study of formal anomalies in the cloister of the Cathedral of Tarragona (c. 12th century). It is a relevant Gothic construction in Catalonia, with the special singularity that part of its structure is raised over an important pre-existing Roman wall. The investigation is based on a point cloud obtained with a terrestrial laser scanner (TLS) and the systematization of the 3D analysis methodology of the point cloud through different reference shapes. In general terms, the construction is in good condition, so the discrepancies between real construction and the shapes of reference are small, with some exceptions. Nevertheless, the different approximations used allowed us to identify some relevant features, such as the variability of the form of rib vaults, and the influence of the criteria used in the definition and location of reference forms.

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Las técnicas de Captura Masiva de Datos (MDC) y la sección principal en edificios con grandes deformaciones

Ginovart

Piquer

Lluis-Teruel

2021

EGA Expr. Gráf. Arquit.

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El levantamiento de edificios es esencial para el desarrollo de la representación gráfica de la arquitectura. Sus principios fueron acotados en la Carta del rilievo architettonico de Nápoles (1999), donde se establece dicho levantamiento como un elemento de investigación iconográfica, bibliográfica y archivística. La representación de la sección de un edificio no aparece hasta la edición vitruviana de Cesarino (1521), dado que el secretismo medieval impedía revelar el despliegue de un edificio. La representación bidimensional del espacio métrico, proyectivo o topológico arroja nuevas cuestiones programáticas a través de las metodologías generadas por la Massive Data Capture (MDC) y, por ello, la determinación de la sección principal es una cuestión esencial. La propuesta metodológica la define como la producida por un plano de referencia (τ) perpendicular al horizonte astronómico de una latitud (ϕ), el cual contiene un vector de regresión del azimut (Ab ) y los puntos singulares (ci ) de las secciones transversales.

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Evaluation of large deformations on Romanesque masonry pillars: The case of Santa María de Arties (XII-XIII) at Valle de Arán, Spain

Cited by 3 publications

References 6 publications

Methodologic Evolution Assessment of Large Deformations on Romanesque Masonry in Val d‘Aran (XII-XIII centuries), Spain

Methodologic Evolution Assessment of Large Deformations on Romanesque Masonry in Val d‘Aran (XII-XIII centuries), Spain

Terrestrial Laser Scanner for the Formal Assessment of a Roman-Medieval Structure—The Cloister of the Cathedral of Tarragona (Spain)

Las técnicas de Captura Masiva de Datos (MDC) y la sección principal en edificios con grandes deformaciones

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