Aquino, Eve Maria Freire deRibeiro, Kilder César de Araújo2019-06-062019-06-062012-12-12RIBEIRO, Kilder César de Araújo. Biocompósitos poliméricos: envelhecimento ambiental, integridade estrutural e processo de reciclagem. 2012. 216f. Tese (Doutorado em Engenharia Mecânica) - Centro de Tecnologia, Universidade Federal do Rio Grande do Norte, Natal, 2012.https://repositorio.ufrn.br/jspui/handle/123456789/27151Biocomposites needs attempt to general services conditions with minimal changes of properties through its life cycle to serve satisfactory for industrial interests. So this thesis intent to develop new polymeric biocomposite made from polyester isoftalic resin with Neopentil Glicol (NPG) as matrix, named nautical resin. This biocomposites it’s filled by wood flour and untreated woven jute-fabric. First of all, two configurations were produced by industrial hand lay-up. The BJ laminate, with four jute-fabric layers and BMJ sandwich panel, with four jute-fabric layers and an intermediate layer (nucleon) by wood flour and nautical resin were subject to accelerated ageing process with UV radiation and humidity cycles, through accelerated test device building by DCR/CNPq according ASTM G 53 – 96. After ageing the BMJ panel and BJ laminate bodyproofs were processed and recycled to produce a third configuration, named BMJ-R panel (recycled) which it’s containing four jute-fabric layers and an intermediate hybrid nucleon with wood flour and jute fibers grinded into nautical resin. The non-aged and recycled configurations were passed by tensile, flexural and compression mechanical properties tests and physical test of volumetric density. BMJ panel passed again for two ambient water absorption tests: distilled and sea water. Aged biocomposites and RN+NPG (nautical resin) body-proofs passed by tensile and flexural mechanical properties tests and were analyzed by mass lost degradation after ageing test to observe how its configuration and nucleon presence may influence that materials and in which aspects. The nautical resin samples works as a comparative parameter for contribution to biocomposites performance face to studied intemperate factors. Analyses of fracture comparative, mechanical performance, before and after ageing, recycling processes and the structural integrity were realized to form the global understanding about the influence of the different configurations and factors into polymeric biocomposites made here.BiocompósitoResina NáuticaEnvelhecimento AceleradoReciclagemRetenção de PropriedadesFratura MecânicadoctoralThesisCNPQ::ENGENHARIAS::ENGENHARIA MECANICA