Polycaprolactam(PA6)is an important engineering plastic known for its excellent strength and processability,making it widely applicable in the automotive and transportation industries.Previous studies have demonstrate...Polycaprolactam(PA6)is an important engineering plastic known for its excellent strength and processability,making it widely applicable in the automotive and transportation industries.Previous studies have demonstrated that incorporating a small amount of organic-modified montmorillonite(OMMT)can significantly enhance the gas barrier properties of PA6.Based on PA6/OMMT,this study further introduced maleic anhydride-grafted ethylene-octyl copolymer(mPOE)and polytetrafluoroethylene(PTFE).Morphological characterization revealed the successful manipulation of the microstructure within this toughening system,revealing a distinctive tassel bundle morphology in the ternary blend of PA6/mPOE/PTFE.in the quaternary PA6/OMMT/mPOE/PTFE system,scanning electron microscopy(SEM)analysis demonstrated that the special“tassel bundle(TB)”morphology could induce an ordered arrangement of OMMT nanosheets,leading to synergistic improvements in both toughness and gas barrier performance.These findings offer promising potential for applications requiring simultaneously high gas barrier properties and enhanced toughness,particularly in hydrogen storage tanks and related industrial fields.展开更多
The current global shortage of oil resources and the pollution problems caused by traditional barrier materials urgently require the search for new substitutes.Biodegradable bio-based barrier materials possess the cha...The current global shortage of oil resources and the pollution problems caused by traditional barrier materials urgently require the search for new substitutes.Biodegradable bio-based barrier materials possess the characteristics of being renewable,environmentally friendly,and having excellent barrier properties.They have become an important choice in fields such as food packaging,agricultural film covering,and medical protection.This review systematically analyzes the design and research of this type of material,classifying biobased and biodegradable barrier materials based on the sources of raw materials and synthesis pathways.It also provides a detailed introduction to the latest research progress of biobased and biodegradable barrier materials,discussing the synthesis methods and improvement measures of their barrier properties.Subsequently,it analyzes the related technologies for enhancing the barrier properties of biobased and biodegradable barrier materials,and finally looks forward to the directions that future research should focus on,promoting the transition of biobased and biodegradable barrier materials from the laboratory to industrial applications.展开更多
Nanocomposites of high-density polyethylene(HDPE)modified with 0.2 phr graphene-zinc oxide(GN-ZnO)exhibited optimal mechanical properties and thermal stability.Two other nano-materials—GN and nano-ZnO—were also used...Nanocomposites of high-density polyethylene(HDPE)modified with 0.2 phr graphene-zinc oxide(GN-ZnO)exhibited optimal mechanical properties and thermal stability.Two other nano-materials—GN and nano-ZnO—were also used to compare them with GN-ZnO.increasing the content of GN-ZnO gradually enhanced the antibacterial and barrier properties,but the addition of 0.3 phr GN-ZnO led to agglomeration that caused defects in the nanocomposites.Herein,we investigated the antibacterial and barrier properties of HDPE nanocomposites infused with different nanoparticles(GN,ZnO,GN-ZnO)of varying concentrations.HDPE and the nanoparticles were meltblended together in a Haake-Buchler Rheomixer to produce a new environment-friendly nano-material with improved physical and chemical properties.The following characterizations were conducted:tensile test,thermogravimetric analysis,morphology,differential scanning calorimetry,X-ray diffraction,antibacterial test,and oxygen and water vapor permeation test.The results showed that the crystallinity of HDPE was affected with the addition of GN-ZnO,and the nanocomposites had effective antibacterial capacity,strong mechanical properties,high thermal stability,and excellent barrier performance.This type of HDPE nanocomposites reinforced with GN-ZnO would be attractive for packaging industries.展开更多
基金financially supported by the National Natural Science Foundation of China(No.52372282)。
文摘Polycaprolactam(PA6)is an important engineering plastic known for its excellent strength and processability,making it widely applicable in the automotive and transportation industries.Previous studies have demonstrated that incorporating a small amount of organic-modified montmorillonite(OMMT)can significantly enhance the gas barrier properties of PA6.Based on PA6/OMMT,this study further introduced maleic anhydride-grafted ethylene-octyl copolymer(mPOE)and polytetrafluoroethylene(PTFE).Morphological characterization revealed the successful manipulation of the microstructure within this toughening system,revealing a distinctive tassel bundle morphology in the ternary blend of PA6/mPOE/PTFE.in the quaternary PA6/OMMT/mPOE/PTFE system,scanning electron microscopy(SEM)analysis demonstrated that the special“tassel bundle(TB)”morphology could induce an ordered arrangement of OMMT nanosheets,leading to synergistic improvements in both toughness and gas barrier performance.These findings offer promising potential for applications requiring simultaneously high gas barrier properties and enhanced toughness,particularly in hydrogen storage tanks and related industrial fields.
基金supported by the Science and Technology Research Project of Henan Province(222102230031)Key Scientific Research Projects of Colleges and Universities in Henan Province(23A430018)Natural Science Foundation of Henan(252300420267).
文摘The current global shortage of oil resources and the pollution problems caused by traditional barrier materials urgently require the search for new substitutes.Biodegradable bio-based barrier materials possess the characteristics of being renewable,environmentally friendly,and having excellent barrier properties.They have become an important choice in fields such as food packaging,agricultural film covering,and medical protection.This review systematically analyzes the design and research of this type of material,classifying biobased and biodegradable barrier materials based on the sources of raw materials and synthesis pathways.It also provides a detailed introduction to the latest research progress of biobased and biodegradable barrier materials,discussing the synthesis methods and improvement measures of their barrier properties.Subsequently,it analyzes the related technologies for enhancing the barrier properties of biobased and biodegradable barrier materials,and finally looks forward to the directions that future research should focus on,promoting the transition of biobased and biodegradable barrier materials from the laboratory to industrial applications.
基金The authors would like to acknowledge the financial support from the following organizations:Wuliangye Group Co.,Ltd.(No.CXY2019ZR001)Sichuan Province Science and Technology Support Program(No.2019JDRC0029)+2 种基金Zigong City Science and Technology(Nos.2017XC16,2019CXRC01)Opening Project of Material Corrosion and Protection Key Laboratory of Sichuan Province(Nos.2016CL10,2017CL03,2019CL05,2018CL08,2018CL07)Opening Project of Sichuan Province,the Foundation of Introduced Talent of Sichuan University of Science and Engineering(Nos.2014RC31,2017RCL31,2017RCL36,2017RCL16,2019RC05,2019RC07).Appreciation is also extended to Apex Nanotek Co.,Ltd.
文摘Nanocomposites of high-density polyethylene(HDPE)modified with 0.2 phr graphene-zinc oxide(GN-ZnO)exhibited optimal mechanical properties and thermal stability.Two other nano-materials—GN and nano-ZnO—were also used to compare them with GN-ZnO.increasing the content of GN-ZnO gradually enhanced the antibacterial and barrier properties,but the addition of 0.3 phr GN-ZnO led to agglomeration that caused defects in the nanocomposites.Herein,we investigated the antibacterial and barrier properties of HDPE nanocomposites infused with different nanoparticles(GN,ZnO,GN-ZnO)of varying concentrations.HDPE and the nanoparticles were meltblended together in a Haake-Buchler Rheomixer to produce a new environment-friendly nano-material with improved physical and chemical properties.The following characterizations were conducted:tensile test,thermogravimetric analysis,morphology,differential scanning calorimetry,X-ray diffraction,antibacterial test,and oxygen and water vapor permeation test.The results showed that the crystallinity of HDPE was affected with the addition of GN-ZnO,and the nanocomposites had effective antibacterial capacity,strong mechanical properties,high thermal stability,and excellent barrier performance.This type of HDPE nanocomposites reinforced with GN-ZnO would be attractive for packaging industries.
