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dc.contributor.authorLara Hernandez, Gemima
dc.contributor.authorHernandez Aguilar, Claudia
dc.contributor.authorCruz Orea, Alfredo
dc.contributor.authorArias Duque, Nayda
dc.contributor.authorWilches Torres, Andrea
dc.contributor.authorFlores Cuautle, Jose de Jesus Agustin
dc.date.accessioned2022-06-28T16:40:26Z
dc.date.available2022-06-28T16:40:26Z
dc.date.issued2020-03
dc.identifier.issn0035-001X
dc.identifier.urihttp://repositorios.orizaba.tecnm.mx:8080/xmlui/handle/123456789/566
dc.descriptionThe cosmetic industry has turned its attention to using vegetable products; the number of different vegetable oils used in the cosmetic industry has risen in the last years. Therefore, there are opportunities for development and innovation for the cosmetic sector keeping in mind the growing concern for personal well-being. Being necessary to develop new, and more accurate measurement methods not only to assure the product quality, also to understand the effect of the molecular interactions in order to develop new products. In this work, the so-called photopyroelectric techniques are used for studying the thermal effusivity and diffusivity of wheat germ, mamey seed, walnut, coconut, and linseed oils. The thermal conductivity was calculated using a mathematical relationship, and density was measured. Therefore, full thermal characterization is achieved. The obtained values for the studied oils are closed to other vegetable oils already reported. This similarity is partially a consequence of the similar chemical structure presented in this type of materials.es
dc.description.abstractThe cosmetic industry has turned its attention to using vegetable products; the number of different vegetable oils used in the cosmetic industry has risen in the last years. Therefore, there are opportunities for development and innovation for the cosmetic sector keeping in mind the growing concern for personal well-being. Being necessary to develop new, and more accurate measurement methods not only to assure the product quality, also to understand the effect of the molecular interactions in order to develop new products. In this work, the so-called photopyroelectric techniques are used for studying the thermal effusivity and diffusivity of wheat germ, mamey seed, walnut, coconut, and linseed oils. The thermal conductivity was calculated using a mathematical relationship, and density was measured. Therefore, full thermal characterization is achieved. The obtained values for the studied oils are closed to other vegetable oils already reported. This similarity is partially a consequence of the similar chemical structure presented in this type of materials.es
dc.description.sponsorshipMINCIENCIASes
dc.language.isoen_USes
dc.publisherRevista Mexicana de Físicaes
dc.relation.ispartofseriesRevista Mexicana de Fisica;
dc.subjectVegetable oilses
dc.subjectthermal diffusivityes
dc.subjectchemical structurees
dc.subjectthermal effusivityes
dc.titleWheat germ, mamey seed, walnut, coconut, and linseed oil thermal characterization using photothermal techniqueses
dc.typeArticlees


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