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MARTIN DE LEON, JUDIT

[][com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=75450]], camposKey:0142-9418 2023-01-01 Evaluation of methods to accurately characterize the thermal conductivity of micro-and nanocellular polymers based on poly(methyl-methacrylate) (PMMA) produced at lab-scale00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=75379]], camposKey:0896-8446 2023-01-01 PMMA stability under hydrothermal conditions00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=72770]], camposKey:2073-4360 2022-07-01 Thermal Conductivity of Nanoporous Materials: Where Is the Limit?00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=72771]], camposKey:2079-4991 2022-05-01 Optical Properties of Polyisocyanurate¿Polyurethane Aerogels: Study of the Scattering Mechanisms00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=72768]], camposKey:0032-3861 2022-01-01 Micronization as a solution for enhancing the thermal insulation of nanocellular poly(methyl-methacrylate) (PMMA)00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=65556]], camposKey:0896-8446 2021-11-01 Cold neutron transmission for the in-situ analysis of the gas diffusion in polymers00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=65557]], camposKey:0142-9418 2021-06-01 New non-destructive optical approach to determine the crystallization kinetics of PLA under a CO2 atmosphere with spatial and temporal resolution00, 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autoclave bead foaming to produce expanded polycarbonate (EPC) bead foams with microcellular structure and controlled crystallinity00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=63444]], camposKey:2637-6105 2021-01-01 Transparent Polyisocyanurate-Polyurethane-Based Aerogels: Key Aspects on the Synthesis and Their Porous Structures46074615, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=53123]], camposKey:0959-8103 2020-01-01 Influence of the viscosity of poly(methyl methacrylate) on the cellular structure of nanocellular materials7283, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=53124]], camposKey:1438-7492 2020-01-01 Nanocellular Polymers with a Gradient Cellular Structure Based on Poly(methyl methacrylate)/Thermoplastic Polyurethane 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ifccomptador=37692]], camposKey:0014-3057 2017-01-01 PMMA-sepiolite nanocomposites as new promising materials for the production of nanocellular polymers1026, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=3037]], camposKey:2073-4360 2016-01-01 Low Density Nanocellular Polymers Based on PMMA Produced by Gas Dissolution Foaming: Fabrication and Cellular Structure Characterization2650, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=3044]], camposKey:0167-577X 2016-01-01 Production and characterization of nanocellular polyphenylsulfone foams155158, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=41937]], camposKey:1012-0386 2014-01-01 In-Situ optical analysis of structural changes in polylactic acid (PLA) during the gas dissolution process131136][CapitolsLlib{id=com.sigma.fs3.argos.domain.gpc.GpcCapitolsLlibPK[ifcactivitat=CAP, ifccomptador=8662]},camposKey: 139 140 O-TIII.13_49 Production of nanocellular materials from nanostructured polymers based on PMMA/MAM blends: influence of the polymer morphology on the cellular structure 8416283265Avances en materiales poliméricos. XIV Reunión del grupo especializado de polímeros (GEP) de la RSEQ y RSEF. 1 2016-01-01 Servicio de Publicaciones e Imagen Institucional , CapitolsLlib{id=com.sigma.fs3.argos.domain.gpc.GpcCapitolsLlibPK[ifcactivitat=CAP, ifccomptador=8665]},camposKey: 145 147 O-TIII.17_53 Influence of the process parameters in the cellular structure of low density PMMA nanocellular polymers produced by the gas dissolution foaming route 8416283265Avances en materiales poliméricos. XIV Reunión del grupo especializado de polímeros (GEP) de la RSEQ y RSEF. 1 2016-01-01 Servicio de Publicaciones e Imagen Institucional , CapitolsLlib{id=com.sigma.fs3.argos.domain.gpc.GpcCapitolsLlibPK[ifcactivitat=CAP, ifccomptador=8660]},camposKey: 28 29 PL_6 Nanocellular polymers: a new class of materials with enhanced properties 8416283265Avances en materiales poliméricos. 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Artículos de revista (32)

Sanchez-Calderon I.; Sillero A.; Lizalde-Arroyo F.; Bernardo V.; Martin-de-Leon J.; Rodriguez-Perez M.A. Evaluation of methods to accurately characterize the thermal conductivity of micro-and nanocellular polymers based on poly(methyl-methacrylate) (PMMA) produced at lab-scale . POLYMER TESTING 2023; 117.

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Capítulos de libros (3)

Bernardo Garcia, Victoria; Martin de Leon, Judith; Rodriguez Perez, Miguel Angel. O-TIII.13_49 Production of nanocellular materials from nanostructured polymers based on PMMA/MAM blends: influence of the polymer morphology on the cellular structure. En: -. Avances en materiales poliméricos. XIV Reunión del grupo especializado de polímeros (GEP) de la RSEQ y RSEF.. Servicio de Publicaciones e Imagen Institucional 2016. p. 139-140.


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AYUDA A LA INVESTIGACIÓN

Proyectos (10)

0 DELEBS PIPE: DESARROLLO DE TUBERÍAS INSONORIZADAS EN BASE A SOLUCIONES SOSTENIBLES. Equipo Investigadores: RODRIGUEZ PEREZ, MIGUEL ANGEL (IP); MARTIN DE LEON, JUDIT. CPP2022-009857. Entidades colaboradoras ABN PIPE SYSTEMS SLU, CELLMAT TECHNOLOGIES,S.L.. Entidades Participantes: UNIVERSIDAD DE VALLADOLID (UVa). Entidades Financiadoras: AGENCIA ESTATAL DE INVESTIGACIÓN, 10.13039/501100011033, UNIÓN EUROPEA.-NEXT GENERATION UE, PLAN DE RECUPERACIÓN, TRANSFORMACIÓN Y RESILIENCIA, MICINN. MINISTERIO DE CIENCIA E INNOVACIÓN . 01/09/2023-31/08/2026

Next Generation-UEMnisterio de Ciencia e InnovaciónAEIPlan de Recuperación, transformación y Resiliencia
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Convenios/Contratos OTC (11)

S.T.R. ENSAYOS DE CARACTERIZACIÓN DE MATERIALES. Equipo Investigadores: RODRIGUEZ PEREZ, MIGUEL ANGEL (IP); MARTIN DE LEON, JUDIT. Entidades Participantes: UNIVERSIDAD DE VALLADOLID (UVa).. Entidades Financiadoras: SERVICIO TECNICO REPETITIVO.. 01/01/2024

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Otras ayudas y becas (1)

CONTRATO PREDOCTORAL JUNTA CASTILLA Y LEÓN DE JUDIT MARTÍN DE LEÓN: DESARROLLO DE POLÍMEROS NANOCELULARES CON DENSIDADES REDUCIDAS MEDIANTE LA OPTIMIZACIÓN DEL PROCESO DE PRODUCCIÓN. RODRIGUEZ PEREZ, MIGUEL ANGEL (Director). MARTIN DE LEON, JUDIT (Beneficiario). 25/11/2015 - 14/10/2019. 74.000,00 EUR.

JCYL-1FSE
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OTROS

Congresos (4)

Asistencia GEAP-Slap, San sebastian ( ESPAÑA ) 08/05/2022 -
(Conferencia invitada). MARTIN DE LEON, JUDIT. Asistencia GEAP-Slap
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Estancias de investigación (1)

ESTANCIA DE INVESTIGACION: UNIVERSIDAD DE CAMBRIDGE. 30/08/2018 - 29/11/2018
     UNIVERSITY OF CAMBRIDGE (GB). ( REINO UNIDO )


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Proyectos de innovación docente (1)

La industria en el aula a través de las nuevas tecnologías. - PID2022/90. Universidad de Valladolid. 01/09/2022.
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