Ghent University Academic Bibliography |

Ghent University Academic Bibliography

Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01JE8DKWK7WBW6HE1YYYMGC5D1> ?p ?o. }

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01JE8DKWK7WBW6HE1YYYMGC5D1 classification C1.
01JE8DKWK7WBW6HE1YYYMGC5D1 date "2024".
01JE8DKWK7WBW6HE1YYYMGC5D1 language "eng".
01JE8DKWK7WBW6HE1YYYMGC5D1 type conference.
01JE8DKWK7WBW6HE1YYYMGC5D1 hasPart 01JE8EACET1QTXADVWSMA59JTE.pdf.
01JE8DKWK7WBW6HE1YYYMGC5D1 subject "Earth and Environmental Sciences".
01JE8DKWK7WBW6HE1YYYMGC5D1 subject "Technology and Engineering".
01JE8DKWK7WBW6HE1YYYMGC5D1 doi "10.1051/matecconf/202440303006".
01JE8DKWK7WBW6HE1YYYMGC5D1 issn "2261-236X".
01JE8DKWK7WBW6HE1YYYMGC5D1 presentedAt urn:uuid:b6b60f00-a1f9-47c0-bbb6-11623cda69e6.
01JE8DKWK7WBW6HE1YYYMGC5D1 volume "403".
01JE8DKWK7WBW6HE1YYYMGC5D1 abstract "This study presents the analysis of the crystallization impact in four lime-based mortar mixtures in order to determine the extent of decay during salt crystallization, affected by the use of additives and change in microstructure. For this purpose, non-destructive micro-computed tomography was used to monitor salt crystallization in lime mortar cores. This technique allowed tracking of salt precipitation after accelerated weathering steps and further enabled the localization of damage due to salt crystallization in both time and space. Results indicate that the internal 3D microstructure of the lime mortars is greatly influenced by the type and the amount of additive used. Polyacrylic acid (PAA) acted as a superplasticizer and air entrainer in the mixture, resulting in the formation of larger air voids, which led to a decrease in compressive strength. Mobilization of salts within the mortar matrix was observed, causing accumulation and cracking of the mortar wall towards the end of the weathering experiment.".
01JE8DKWK7WBW6HE1YYYMGC5D1 author 0c78bb18-8dbe-11eb-9830-af22e17e8cca.
01JE8DKWK7WBW6HE1YYYMGC5D1 author 551ffef8-a284-11ed-9cd4-b870109b60d9.
01JE8DKWK7WBW6HE1YYYMGC5D1 author F4BFDAEA-F0ED-11E1-A9DE-61C894A0A6B4.
01JE8DKWK7WBW6HE1YYYMGC5D1 author F64E9522-F0ED-11E1-A9DE-61C894A0A6B4.
01JE8DKWK7WBW6HE1YYYMGC5D1 dateCreated "2024-12-04T08:47:02Z".
01JE8DKWK7WBW6HE1YYYMGC5D1 dateModified "2025-02-14T13:00:30Z".
01JE8DKWK7WBW6HE1YYYMGC5D1 editor urn:uuid:734e4a29-ad65-4546-8cf5-7aec573cf454.
01JE8DKWK7WBW6HE1YYYMGC5D1 editor urn:uuid:c0b71c19-62c2-46ff-8676-26be56a4cd24.
01JE8DKWK7WBW6HE1YYYMGC5D1 editor urn:uuid:fbae4fc1-aa54-46bb-8ab5-336809c15777.
01JE8DKWK7WBW6HE1YYYMGC5D1 name "Exploring lime mortar microstructure : investigating the impact of mixed-in additives and their role in salt efflorescence inhibition".
01JE8DKWK7WBW6HE1YYYMGC5D1 pagination urn:uuid:068e18d2-5250-40a2-8c7b-50b115067ec6.
01JE8DKWK7WBW6HE1YYYMGC5D1 sameAs LU-01JE8DKWK7WBW6HE1YYYMGC5D1.
01JE8DKWK7WBW6HE1YYYMGC5D1 sourceOrganization urn:uuid:15a63ff3-73d3-49ab-b626-729ce0b5f9b6.
01JE8DKWK7WBW6HE1YYYMGC5D1 sourceOrganization urn:uuid:3a8fe09d-ec6d-4205-9998-46c6e04fd04b.
01JE8DKWK7WBW6HE1YYYMGC5D1 type C1.