Digital 3D modeling using photogrammetry and 3D printing applied to the restoration of a Hispano-Roman architectural ornament

Higueras, María; Calero, Ana Isabel; Montero, Francisco José Collado

doi:10.1016/j.daach.2021.e00179

Cited by 35 publications

(25 citation statements)

References 40 publications

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“…FFF technology can accurately and quickly reproduce the lacuna in many type of artistic objects. Higueras et al (2021) demonstrated the validity of 3D printing for non-invasive restoration applications, dealing with the virtual reintegration of a missing part of a Roman cornice from Castulo Archaeological Site (Spain) [ 144 ]. The missing fragment was constructed by the use of a mold, obtained using photogrammetry, FFF printing, and PLA.…”

Section: Applications: Focus On Cultural Heritagementioning

confidence: 99%

A Review of Polymer-Based Materials for Fused Filament Fabrication (FFF): Focus on Sustainability and Recycled Materials

et al. 2022

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Recently, Fused Filament Fabrication (FFF), one of the most encouraging additive manufacturing (AM) techniques, has fascinated great attention. Although FFF is growing into a manufacturing device with considerable technological and material innovations, there still is a challenge to convert FFF-printed prototypes into functional objects for industrial applications. Polymer components manufactured by FFF process possess, in fact, low and anisotropic mechanical properties, compared to the same parts, obtained by using traditional building methods. The poor mechanical properties of the FFF-printed objects could be attributed to the weak interlayer bond interface that develops during the layer deposition process and to the commercial thermoplastic materials used. In order to increase the final properties of the 3D printed models, several polymer-based composites and nanocomposites have been proposed for FFF process. However, even if the mechanical properties greatly increase, these materials are not all biodegradable. Consequently, their waste disposal represents an important issue that needs an urgent solution. Several scientific researchers have therefore moved towards the development of natural or recyclable materials for FFF techniques. This review details current progress on innovative green materials for FFF, referring to all kinds of possible industrial applications, and in particular to the field of Cultural Heritage.

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Section: Applications: Focus On Cultural Heritagementioning

confidence: 99%

A Review of Polymer-Based Materials for Fused Filament Fabrication (FFF): Focus on Sustainability and Recycled Materials

et al. 2022

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“…Asmus and Katz [15], Comelli et al [16], Filippidis et al [17] and Aucouturier and Darque-Ceretti [18] used digital image processing and physico-chemical investigations to determine the degree of degradation and the measures needed to be taken on the surfaces of works of art, especially valuable paintings. Regarding the use of three-dimensional models (photogrammetry and 3D modeling) applied to cultural heritage objects, Manferdini and Remondino [19], Jiménez Fernández-Palacios et al [20] and Herman et al [21] use them for degradation assessment, virtual promotion and longterm conservation applications, while Higueras et al [22] and Albu et al [23] use them for the remote restoration of movable and immovable cultural heritage. Ortiz et al [24], Peets et al [25], Demenchuk et al [26] and Zhou et al [27] seek, in their infrared spectroscopy studies, to evaluate and identify the composition of old textiles and paintings, some of which are made of canvas.…”

Section: Introductionmentioning

confidence: 99%

Interdisciplinary Research to Advance Digital Imagery and Natural Compounds for Eco-Cleaning and for Preserving Textile Cultural Heritage

Ilieș

Zlatev

Ilieș

et al. 2022

Sensors

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The old fibers that make up heritage textiles displayed in museums are degraded by the aging process, environmental conditions (microclimates, particulate matter, pollutants, sunlight) and the action of microorganisms. In order to counteract these processes and keep the textile exhibits in good condition for as long as possible, both reactive and preventive interventions on them are necessary. Based on these ideas, the present study aims to test a natural and non-invasive method of cleaning historic textiles, which includes the use of a natural substance with a known antifungal effect (being traditionally used in various rural communities)—lye. The design of the study was aimed at examining a traditional women’s shirt that is aged between 80–100 years, using artificial intelligence techniques for Scanning Electron Microscopy (SEM) imagery analysis and X-Ray powder diffraction technique in order to achieve a complex and accurate investigation and monitoring of the object’s realities. The determinations were performed both before and after washing the material with lye. SEM microscopy investigations of the ecologically washed textile specimens showed that the number of microorganism colonies, as well as the amount of dust, decreased. It was also observed that the surface cellulose fibers lost their integrity, eventually being loosened on cellulose fibers of cotton threads. This could better visualize the presence of microfibrils that connect the cellulose fibers in cotton textiles. The results obtained could be of real value both for the restorers, the textile collections of the different museums, and for the researchers in the field of cultural heritage. By applying such a methodology, cotton tests can be effectively cleaned without compromising the integrity of the material.

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“…In addition, the lid was modeled using the numerical data recorded in the condition investigation and its size alone was adjusted to fit the studied bomb shell (Kim and Huh, 2020). 2019b; Jo et al, 2020a;Lim and Choi, 2020;Higueras et al, 2021). In this study, the modeling results of the bomb shell were output to the 3D printing technology using the material extrusion method (Ultimaker 3 Extended, Ultimaker B.V., NLD).…”

Section: Three-dimensional Modeling and Reproductionmentioning

confidence: 99%

Convergence Modeling and Reproduction of a Bigyeokjincheolloe (Bomb Shell) Based on Three-dimensional Scanning and γ-ray Radiography

Kim

Huh

et al. 2022

J. Conserv. Sci

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The Bigyeokjincheolloe (bomb shell), a scientific cultural heritage, has outstanding historical value for sustaining a gunpowder weapon of Joseon. In this study, the bomb shell was modeled through three-dimensional (3D) scanning centered on the external shape and γ-ray radiography-based on the internal shape. In particular, to improve the contrast in the radiographic image, optimization and image processing were performed. After these processes, the thickness of the inner wall (2.5 cm on average) and the positions of the three mold chaplets were clearly revealed. For exhibition purposes, the 3D model of the bomb shell was output to a 3D printer and the output was rendered realistic by coloring. In addition, the internal functional elements, such as Mokgok, fuse, mud, gunpowder, and caltrops, were reproduced through handwork. The results will contribute to the study of digital heritages in two ways. First, the internal and external shapes of the bomb shell were modeled by fusing two different technologies, namely, 3D scanning and γ-ray radiography. Second, the internal shape of the bomb shell was constructed from the original form data and the reproduction was utilized for museum exhibitions. The developed modeling approach will greatly expand the scope of museum exhibitions, from those centered on historical content to those centered on scientific content.

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Digital 3D modeling using photogrammetry and 3D printing applied to the restoration of a Hispano-Roman architectural ornament

Cited by 35 publications

References 40 publications

A Review of Polymer-Based Materials for Fused Filament Fabrication (FFF): Focus on Sustainability and Recycled Materials

A Review of Polymer-Based Materials for Fused Filament Fabrication (FFF): Focus on Sustainability and Recycled Materials

Interdisciplinary Research to Advance Digital Imagery and Natural Compounds for Eco-Cleaning and for Preserving Textile Cultural Heritage

Convergence Modeling and Reproduction of a Bigyeokjincheolloe (Bomb Shell) Based on Three-dimensional Scanning and γ-ray Radiography

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