Colella, Francesco (2017) DESIGN OF 3D VIRTUAL AND ADDITIVE MANUFCTURED MODELS FOR CULTURAL HERITAGE. [Tesi di dottorato]

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Item Type: Tesi di dottorato
Resource language: English
Title: DESIGN OF 3D VIRTUAL AND ADDITIVE MANUFCTURED MODELS FOR CULTURAL HERITAGE
Creators:
Creators
Email
Colella, Francesco
fran_cole@libero.it
Date: 7 April 2017
Number of Pages: 56
Institution: Università degli Studi di Napoli Federico II
Department: Ingegneria Chimica, dei Materiali e della Produzione Industriale
Dottorato: Ingegneria dei prodotti e dei processi industriali
Ciclo di dottorato: 29
Coordinatore del Corso di dottorato:
nome
email
Mensitieri, Giuseppe
giuseppe.mensitieri@unina.it
Tutor:
nome
email
Martorelli, Massimo
UNSPECIFIED
Gloria, Antonio
UNSPECIFIED
Date: 7 April 2017
Number of Pages: 56
Keywords: ADDITIVE MANUFACTURING 3D VIRTUAL AND PHYSICAL MODELS BUILDING-ARCHITECTURE-CULTURAL HERITAGE
Settori scientifico-disciplinari del MIUR: Area 09 - Ingegneria industriale e dell'informazione > ING-IND/22 - Scienza e tecnologia dei materiali
Date Deposited: 25 Apr 2017 16:58
Last Modified: 08 Mar 2018 13:44
URI: http://www.fedoa.unina.it/id/eprint/11623
DOI: 10.6093/UNINA/FEDOA/11623

Collection description

It is well known that reverse engineering and additive manufacturing may be suitably integrated to develop different kinds of customized devices. Starting from image capture and analysis techniques, it is possible to manufacture an object or a functional part in a layer-by-layer fashion. Today many objects may be fabricated by additive manufacturing, benefiting from user-friendly computer programs and from the availability of open source 3-D printers. In the field of cultural heritage, there are many potential applications of the reverse engineering tools and methods, ranging from dissemination (e.g., virtual museums), reproduction (e.g., via additive manufacturing) and maintenance, to condition monitoring. Accordingly, in the proposed research 3D virtual and physical scale models of buildings and artworks were properly developed. 3D physical models were fabricated by fused deposition modeling (FDM), starting from the optimization of the process and instrument parameters. The processability of the materials (i.e., thermoplastic polymers) was assessed through functional and calorimetric analyses. Image capture and analysis techniques allowed to reproduce the geometry and morphology.

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