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Supergiant Barocaloric Effects in Acetoxy Silicone Rubber over a Wide Temperature Range:Great Potential for Solid-state Cooling 被引量:2
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作者 William Imamura Erik Oda Usuda +3 位作者 lucas soares paixao Nicolau Molina Bom Angelo Marcio Gomes Alexandre Magnus Gomes Carvalho 《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2020年第9期999-1005,I0008,共8页
Solid-state cooling based on caloric effects is considered a viable alternative to replace the conventional vapor-compression refrigeration systems.Regarding barocaloric materials,recent results show that elastomers a... Solid-state cooling based on caloric effects is considered a viable alternative to replace the conventional vapor-compression refrigeration systems.Regarding barocaloric materials,recent results show that elastomers are promising candidates for cooling applications around room-temperature.In the present paper,we report supergiant barocaloric effects observed in acetoxy silicone rubber—a very popular,low-cost and environmentally friendly elastomer.Huge values of adiabatic temperature change and reversible isothermal entropy change were obtained upon moderate applied pressures and relatively low strains.These huge barocaloric changes are associated both to the polymer chain rearrangements induced by confined compression and to the first-order structural transition.The results are comparable to the best barocaloric materials reported so far,opening encouraging prospects for the application of elastomers in near future solid-state cooling devices. 展开更多
关键词 Solid-state cooling Barocaloric effect ELASTOMER Silicone rubber Crystalline-amorphous transition
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Waste Tire Rubber-based Refrigerants for Solid-state Cooling Devices 被引量:1
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作者 Nicolau Molina Born Erik Oda Usuda +4 位作者 Mariana da Silva Gigliotti Denílson JoséMarcolino de Aguiar William Imamura lucas soares paixao Alexandre Magnus Gomes Carvalho 《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2020年第7期769-775,I0007,共8页
Management of discarded tires is a compelling environmental issue worldwide.Although there are several approaches developed to recycle waste tire rubbers,their application in solid-state cooling is still unexplored.Co... Management of discarded tires is a compelling environmental issue worldwide.Although there are several approaches developed to recycle waste tire rubbers,their application in solid-state cooling is still unexplored.Considering the high barocaloric potential verified for elastomers,the use of waste tire rubber(WTR)as a refrigerant in solid-state cooling devices is very promising.Herein,we investigated the barocaloric effects in WTR and polymer blends made of vulcanized natural rubber(VNR)and WTR,to evaluate its feasibility for solid-state cooling technologies.The adiabatic temperature changes and the isothermal entropy changes reach giant values,as well as the performance parameters,being comparable or even better than most barocaloric materials in literature.Moreover,pure WTR and WTR-based samples also present a faster thermal exchange than VNR,consisting of an additional advantage of using these discarded materials.Thus,the present findings evidence the encouraging perspectives of employing waste rubbers in solid-state cooling based on barocaloric effects,contributing to both the recycling of polymers and the sustainable energy technology field. 展开更多
关键词 Waste tire rubber Solid-state cooling Barocaloric effect Tire recycling Sustainable energy
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