2,091 research outputs found
Generalized Thrust Network Analysis of Triangular Masonry Cross Vaults Inspired by Musmeci
A triangular parabolic cross vault, that was designed by Musmeci in the 1950s as a reinforced concrete structure but remained unbuilt, is revisited from the original perspective of its reinvention as a masonry structure. In the framework of static limit analysis under classical Heyman’s assumptions, a generalized thrust network analysis is adopted for a structural safety assessment. The performances of the vault, subject to its self-weight, are investigated through minimum-thrust and minimum-thickness analyses by conforming to the original geometry and assuming the vault thickness as the only design parameter. Further insight is achieved by exploring a more general class of triangular parabolic masonry cross vaults, whose rise-to-span ratio is an additional design parameter. The static efficiency of the smart and unconventional geometry proposed by Musmeci is thus proven, motivating the possibility of bringing it to new life in the form of a masonry structure
Virtual Modernisms. A Digital Investigation on Enrico Castiglioni Structures
In the 1950s, the reinforced concrete structure became an icon of late modernist architecture, and structural engineers established their expressive languages, focusing on the exploration of cutting-edge geometries. The digitally supported in-depth analysis of this complex geometry architectural heritage represents an open challenge for structural engineering and construction history investigations. This chapter focuses on a work methodology to support historical surveys using 3D modelling, 3D printing, and archival documentation. The study highlights how accurate documental investigation is crucial for constructing 3D models consistent with the represented structures. The 3D models are used as sources of original information to assess the historical documentation and improve the knowledge of ‘the product of the construction’ itself. Regarding complex geometry projects, 3D models improve the insight of the design process and structural conception, while 3D printing provides the physical validation of the anatomy of the structure. The methodology is presented through the case study of the structural designs conceived by the Italian engineer Enrico Castiglioni (1926–2000) in the early 1950s, within the Italian structural engineering international rise
Postal de Claudio Vivas a Maruja Vieira, junio 23 de 1955
Postal de Claudio Vivas a Maruja Vieira, felicitándola por el reconocimiento que le fue otorgado a la autora de poemasPostcard from Claudio Vivas to Maruja Vieira, congratulating her for the recognition given to the author of poems.Publicación, fondo Maruja Vieira, carpeta 1, folio
Mechanical response of multistable tensegrity-like lattice chains
Recent developments in the quality and accuracy of additive manufacturing have drawn particular attention to metamaterials characterised by a multistable response to achieve exceptional mechanical properties. This work focuses on the design, fabrication, testing, and simulation of tensegrity-like lattice chains accomplishing a multistable behaviour. The chains are composed of chiral tensegrity-like units featuring a highly nonlinear bistable response with compression-twisting coupling. Different chains are designed by exploiting the chirality of the units and realised by the inverted stereolithography technique. Their mechanical response is experimentally characterised, demonstrating the attainment of the desired multistable behaviour. A predictive semi-analytical model is derived to reconstruct the multistable energy landscape and force-vs.-displacement curve of the whole chain. The presented chains may constitute a flexible platform for programmable materials, potentially extending to modular chains also based on other types of tensegrity-like units
HBIM for conservation and valorization of structural heritage: the Stylite Tower at Umm ar-Rasas, Jordan
The Heritage Building Information Modeling (HBIM) is a consistent approach to support the multidisciplinary process of knowledge, conservation, and valorization of the historical building heritage, exploiting the combination of advanced 3D modelling and heterogeneous informative data. In the present paper, a highly customized HBIM workflow is developed for the enhancement and conservation of the byzantine Stylite Tower in the Jordan archaeological site of Umm ar-Rasas. The case study is considered a benchmark to test the effectiveness and the scalability of the proposed methodology for the broader set of ancient structures located in archaeological sites. The proposed HBIM process has a dual aim: the organization of heterogeneous and fragmented sources concerning the history and the actual state maintenance of the Tower and the development of a flexible tool to perform fast qualitative and quantitative analysis oriented towards conservation and management projects. The small scale of the structure and an innovative semi-automatic modelling process based on visual coding allowed for a stone-by-stone segmentation of the Tower. The model procedure is based on an information management workflow based on CIDOC-CRM ontology and the interchange format Industry Foundation Classes to ensure interoperability, developing an open-access interactive visualization of the model of the Tower, embedding organized document sources. The proposed HBIM model can also be a valuable tool for enhanced monument fruition and cultural valorisation of the structure
“Dialogue between Translators and Authors. The Example of Claudio Magris”
The paper focuses on the forms of cooperation between authors and their translator(s) in all cases in which the two operate simultaneously. This issue is explored on the example of the Trieste-born author Claudio Magris, who cultivates a very close relationship with most of his translators.
Writing and translation have been coexisting in this author throughout his career and have resulted in the heightened sensitivity of Magris the author with regards to translation, as the first part of the analysis shows. The second part describes the dialogue between Magris and the translators of his works, and ends with the more general question of the significance and role of such a form of exchange
Consideraciones sobre la poética de Claudio Rodríguez
The purpose of this paper is to study the poetics of Claudio Rodríguez, delimiting its components and trying to clarify them and to present them as a whole. The author left some pages written on his conception of poetry that encourage reflection and, in some cases, interpretation. So with his conception of poetry as a gift and inebriation, as an alliance and condemnation or celebration (giving title to his collections of poems), or with notions such as «participation», «living contemplation», «living expression » or «personal rhythm» that make up his way of understanding the poetic process.El propósito de este artículo es estudiar la poética de Claudio Rodríguez, deslindando sus componentes y tratando de clarificarlos y presentarlos en su conjunto. El autor dejó escritas algunas páginas sobre su concepción de la poesía que animan a la reflexión y, en algunos casos, a la interpretación. Así sucede con su concepción de la poesía como un don y una ebriedad, como alianza y condena o como celebración (que dan título a sus poemarios), o con nociones como las de «participación», «contemplación viva», «expresión viva» o «ritmo personal», que configuran su forma de entender el proceso poético
Fabrication and experimental characterisation of a bistable tensegrity-like unit for lattice metamaterials
The peculiar nonlinear mechanical behaviour of tensegrity structures and their engineering applications have attracted considerable interest in the last two decades. However, the difficulties in their traditional fabrication and assembling methods represent current limitations to their widespread use. This paper presents a novel design and fabrication procedure for bistable tensegrity-like units. Starting from the classical triangular tensegrity prism and using stereolithography technology, a double tensegrity-like unit was designed and realised monolithically as a compliant mechanism. High repeatability of compression tests confirmed the activation of the designed bistable twisting mechanism in large displacements, proving that the bistability of a tensegrity-like unit with null selfstress and no cables can dependably be achieved. Numerical simulations showed that a reduced-order stick-and-spring model is able to provide predictions on the nonlinear mechanical behaviour of the unit in close agreement with experimental results. Low relative density and bistable characteristics make this type of tensegrity-like unit suitable to manufacture highly-customisable multistable metamaterials. The proposed procedure could be applied to transform and additively manufacture other types of tensegrity structures with different nonlinear responses into corresponding tensegrity-like versions
MODELING AND DESIGN OF PERIODIC LATTICES WITH TENSEGRITY ARCHITECTURE AND HIGHLY NONLINEAR RESPONSE
In recent years, the nonlinear response of tensegrity systems has attracted increasing attention in the study of mechanical metamaterials. It has been shown in the literature that geometry and prestress of an elastic tensegrity structure can be designed to obtain different behaviors: stiffening, softening, and snap-through behavior in statics; propagation of solitary waves in dynamics. However, the realization of tensegrity systems is challenging, because of their prestressed state and the presence of tension-only cable members. A design method for periodic lattices with null prestress and no cables is here proposed, in which the repeating unit is at, or close to, a tensegrity configuration, maintaining the nonlinear types of response aforementioned. These structures can be realized by conventional additive manufacturing techniques, while the static and dynamic response can be predicted by means of stick-and-spring models
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