简介:通过光稳定剂的选择及浓度的确定。复配抗氧剂体系的研究。开发生产了低密度聚乙烯耐候棚膜专用料2F0.4B,并对产品进行了性能考核,棚膜大田应用试验。结果表明:2F0.4A-1的力学性能,耐老化性能最佳。适宜作为该专用料的基础树脂;聚合型受阻胺光稳定剂B的光稳定效果最好;膜厚0.10mm时,光稳定剂B的最小加入量0.20%;膜厚0.08mm时,光稳定剂B的最小加入量0.22%;选择合理的复合抗氧剂体系可以获得良好的抗热氧老化以及抗背板效应;含相同助剂,厚度不同(0.06,0.08,0.11mm)的棚膜老化前期差异不明显。老化后期较薄的膜力学性能衰减迅速。
简介:Thereisagrowingsupportforthelowlyingscalarmesonsf0(500),f0(980),a0(980),and(800)tobegenerateddynamicallyfromtheinteractionofpseudoscalarmesons,whilethecaseofthenextsetofscalarresonancesathigherenergies,f0(1370),f0(1710),K0(1430)ismoreaquestionofdebate.Soisthecaseofthetensorresonancesf2(1270),f′2(1525),K2(1430).AnewperspectiveonthesestateshasbeenofferedinRef.[1]wherethef0(1370)andf2(1270)resonancesareshowntobegeneratedfromtheinteractionprovidedbythelocalhiddengaugeLagrangiansimplementingunitarization.Itisshownthattheideaofthenatureofthesestatesasvectormeson-vectormesoncompositestateshasbeentestedinmanyreactions.Yet,thepermanentdiscussionoftheissuedemandsextrachecksforotherobservablesand,inthissense,theweakdecaysbringanewsourceofvaluableinformationthatshouldservetotestdifferentmodels.
简介:LetB(E,F)bethesetofallboundedlinearoperatorsfromaBanachspaceEintoanotherBanachspaceF,B+(E,F)thesetofalldoublesplittingoperatorsinB(E,F)andGI(A)thesetofgeneralizedinversesofA2B+(E,F).InthispaperweintroduceanunboundeddomainW(A,A^+)inB(E,F)forA2B+(E,F)andA^+2GI(A),andprovideanecessaryandsufficientconditionforT2W(A,A^+).Thenseveralconditionsequivalenttothefollowingpropertyareproved:B=A^+(IF+(T??A)A^+)??1isthegeneralizedinverseofTwithR(B)=R(A^+)andN(B)=N(A^+),forT2W(A,A^+),whereIFistheidentityonF.Alsoweobtainthesmooth(C¥)diffeomorphismMA(A^+,T)fromW(A,A^+)ontoitselfwiththefixedpointA.LetS=fT2W(A,A^+):R(T)\N(A^+)=f0gg,M(X)=fT2B(E,F):TN(X)R(X)gforX2B(E,F)g,andF=fM(X):8X2B(E,F)g.UsingthediffeomorphismMA(A^+,T)weprovethefollowingtheorem:SisasmoothsubmanifoldinB(E,F)andtangenttoM(X)atanyX2S.ThetheoremexpandsthesmoothintegrabilityofFatAfromalocalneighborhooldatAtotheglobalunboundeddomainW(A,A^+).Itseemstobeusefulfordevelopingglobalanalysisandgeomatricalmethodindifferentialequations.
简介:摘要:SiO2f/SiO2复合材料由于物理性能良好,对信号波穿透性能好,被广泛应用到各种通讯器件中,但材料表面附着力较差,耐热性难以满足高温工作环境。因此,本文对SiO2f/SiO2复合材料表面涂层材料研究,硅元素来源为甲基三乙氧基硅烷(MTES)聚合物,硼酸(B(OH)3)作为硼源,采用溶胶凝胶法制备工艺,在乙醇中混合为聚硼硅氧烷胶液。通过试验验证不同硼含量对聚硼硅氧烷树脂的耐热性及疏水性影响;以及验证不同温度热处理下对涂层性能的影响。结果表明,本文方法较原有机树脂耐热性有所提高,承受最高稳定温度由原有的250℃提高到350℃,明显提高了复合材料的耐热程度。在对复合材料的憎水性研究中,本文方法制造得到的聚硼硅氧烷作为表面涂层,SiO2f/SiO2负荷材料吸水率由原有的1.13%降到最低0.33%。