{
    "o:id": 10526,
    "url": "https://chloe.cnr.it/s/BiDiAr/item/10526",
    "o:resource_template": "Academic Article",
    "o:resource_class": "bibo:AcademicArticle",
    "dcterms:title": [
        "Optical microprofilometry optimized for surface analysis and 3D printing of archaeological objects"
    ],
    "dcterms:creator": [
        "Mazzocato, Sara",
        "Daffara, Claudia",
        "Marchioro, Giacomo",
        "Menegazzi, Alessandra"
    ],
    "dcterms:date": [
        "2021"
    ],
    "dcterms:language": [
        "eng"
    ],
    "dcterms:rights": [
        "https://creativecommons.org/licenses/by-nc-nd/4.0/deed.en CC BY-NC-ND 4.0"
    ],
    "dcterms:abstract": [
        "In this paper we investigated the application of the optical scanning micro-profilometry based on conoscopic holography sensors for the acquisition and the surface analysis of archaeological objects with a micrometric resolution. The portability of the setup developed and its modularity allow to work in situ with a multi-scale and multi-material approach. In addition, we have developed our own tools to create a mesh from the 2D-arrays of distances collected with the resulting possibility to obtain a replica of the artwork using 3D printing technologies. We test the microprofilometer on two case studies: a fragment of an archaeological amphora, also presenting the workflow to obtain the 3D printed object, and an Etruscan bronze mirror, analyzing its surface."
    ],
    "dcterms:isPartOf": [
        "https://chloe.cnr.it/s/BiDiAr/item/2002"
    ],
    "bibo:doi": [
        "https://doi.org/10.19282/ac.32.2.2021.21"
    ],
    "bibo:issue": [
        "2"
    ],
    "bibo:pages": [
        "227-236"
    ],
    "bibo:uri": [
        "https://www.archcalc.cnr.it/journal/articles/1176"
    ],
    "bibo:volume": [
        "32"
    ],
    "foaf:homepage": [
        "https://www.zotero.org/groups/5293298/bidiar/items/QP74KS8V/item-list"
    ]
},