環(huán)境友好涂料的研究新進展

環(huán)境友好涂料的研究新進展一、本文概述Overviewofthisarticle隨著全球環(huán)境保護意識的日益增強，環(huán)境友好涂料作為一種綠色、低碳、環(huán)保的新型涂料，正逐漸受到廣泛關(guān)注。環(huán)境友好涂料的研究與應(yīng)用，不僅有助于減少環(huán)境污染，降低能源消耗，還能推動涂料行業(yè)的可持續(xù)發(fā)展。本文旨在探討環(huán)境友好涂料的研究新進展，包括其定義、特點、分類、應(yīng)用現(xiàn)狀以及未來發(fā)展趨勢等方面，以期為相關(guān)領(lǐng)域的研究人員和企業(yè)提供參考和借鑒。通過深入了解環(huán)境友好涂料的研究新進展，我們可以更好地推動其在實際應(yīng)用中的普及和發(fā)展，為實現(xiàn)綠色、低碳、循環(huán)、可持續(xù)的社會經(jīng)濟發(fā)展做出貢獻。Withtheincreasingglobalawarenessofenvironmentalprotection,environmentallyfriendlycoatings,asanewtypeofgreen,low-carbon,andenvironmentallyfriendlycoating,aregraduallyreceivingwidespreadattention.Theresearchandapplicationofenvironmentallyfriendlycoatingsnotonlyhelpreduceenvironmentalpollutionandenergyconsumption,butalsopromotethesustainabledevelopmentofthecoatingindustry.Thisarticleaimstoexplorethenewresearchprogressofenvironmentallyfriendlycoatings,includingtheirdefinition,characteristics,classification,applicationstatus,andfuturedevelopmenttrends,inordertoprovidereferenceandinspirationforresearchersandenterprisesinrelatedfields.Bygainingadeeperunderstandingofthelatestresearchprogressinenvironmentallyfriendlycoatings,wecanbetterpromotetheirpopularizationanddevelopmentinpracticalapplications,andcontributetoachievinggreen,low-carbon,circular,andsustainablesocio-economicdevelopment.二、環(huán)境友好涂料的發(fā)展歷程TheDevelopmentHistoryofEnvironmentallyFriendlyCoatings環(huán)境友好涂料的發(fā)展歷程可以追溯到20世紀70年代，當時由于工業(yè)化的快速發(fā)展，環(huán)境問題逐漸凸顯，人們開始關(guān)注涂料工業(yè)對環(huán)境的影響。最初的環(huán)境友好涂料主要是水性涂料，其以水為溶劑，相比傳統(tǒng)的油性涂料，減少了有機溶劑的使用，降低了揮發(fā)性有機化合物（VOC）的排放，對環(huán)境的污染較小。Thedevelopmentprocessofenvironmentallyfriendlycoatingscanbetracedbacktothe1970s,whenduetotherapiddevelopmentofindustrialization,environmentalissuesgraduallybecameprominent,andpeoplebegantopayattentiontotheimpactofthecoatingindustryontheenvironment.Theinitialenvironmentallyfriendlycoatingsweremainlywater-basedcoatings,whichusedwaterasasolvent.Comparedtotraditionaloil-basedcoatings,theyreducedtheuseoforganicsolventsandreducedtheemissionsofvolatileorganiccompounds(VOCs),resultinginlessenvironmentalpollution.隨著科技的進步和環(huán)保意識的提高，環(huán)境友好涂料的發(fā)展逐漸加快。在20世紀90年代，粉末涂料和UV固化涂料開始嶄露頭角。粉末涂料無需溶劑，通過靜電噴涂或流化床涂覆等工藝，實現(xiàn)涂料在工件上的固化成膜，幾乎無VOC排放。而UV固化涂料則利用紫外線引發(fā)涂料中的光敏劑，使涂料在短時間內(nèi)迅速固化，減少了溶劑的揮發(fā)。Withtheadvancementoftechnologyandtheimprovementofenvironmentalawareness,thedevelopmentofenvironmentallyfriendlycoatingsisgraduallyaccelerating.Inthe1990s,powdercoatingsandUVcuredcoatingsbegantoemerge.Powdercoatingsdonotrequiresolventsandcanbecuredandfilmedonworkpiecesthroughprocessessuchaselectrostaticsprayingorfluidizedbedcoating,withalmostnoVOCemissions.UVcuredcoatings,ontheotherhand,useultravioletlighttotriggerphotosensitizersinthecoatings,allowingthemtoquicklycureinashortperiodoftimeandreducingsolventevaporation.進入21世紀，環(huán)境友好涂料的研究和應(yīng)用更加深入。生物基涂料、高固含涂料和納米涂料等新型環(huán)境友好涂料相繼問世。生物基涂料以可再生生物質(zhì)為原料，如大豆油、玉米淀粉等，不僅來源廣泛，而且可降解，對環(huán)境無害。高固含涂料則通過提高涂料中固體分的含量，減少溶劑的使用量，從而降低VOC排放。納米涂料則利用納米技術(shù)，改善涂料的性能，如提高涂層的硬度、耐候性和耐腐蝕性，同時降低涂料的使用量。Enteringthe21stcentury,theresearchandapplicationofenvironmentallyfriendlycoatingshavebecomemorein-depth.Newenvironmentallyfriendlycoatingssuchasbiobasedcoatings,highsolidcontentcoatings,andnanocoatingshaveemergedoneafteranother.Biobasedcoatingsuserenewablebiomassasrawmaterials,suchassoybeanoil,cornstarch,etc.,whicharenotonlywidelysourcedbutalsobiodegradableandenvironmentallyfriendly.HighsolidcontentcoatingsreduceVOCemissionsbyincreasingthesolidcontentinthecoatingsandreducingtheuseofsolvents.Nanocoatingsutilizenanotechnologytoimprovetheperformanceofcoatings,suchasincreasingtheirhardness,weatherresistance,andcorrosionresistance,whilereducingtheirusage.如今，環(huán)境友好涂料已成為涂料工業(yè)的重要發(fā)展方向。隨著全球環(huán)保意識的不斷提升和技術(shù)的不斷創(chuàng)新，環(huán)境友好涂料將在未來發(fā)揮更加重要的作用，為實現(xiàn)可持續(xù)發(fā)展和綠色生活做出更大的貢獻。Nowadays,environmentallyfriendlycoatingshavebecomeanimportantdevelopmentdirectioninthepaintindustry.Withthecontinuousimprovementofglobalenvironmentalawarenessandtechnologicalinnovation,environmentallyfriendlycoatingswillplayamoreimportantroleinthefuture,makinggreatercontributionstoachievingsustainabledevelopmentandgreenliving.三、環(huán)境友好涂料的關(guān)鍵技術(shù)KeyTechnologiesforEnvironmentallyFriendlyCoatings環(huán)境友好涂料的研究和發(fā)展離不開關(guān)鍵技術(shù)的突破和創(chuàng)新。這些關(guān)鍵技術(shù)主要集中在以下幾個方面：Theresearchanddevelopmentofenvironmentallyfriendlycoatingscannotbeseparatedfrombreakthroughsandinnovationsinkeytechnologies.Thesekeytechnologiesmainlyfocusonthefollowingaspects:首先是低VOC（揮發(fā)性有機化合物）或無VOC的成膜技術(shù)。傳統(tǒng)的涂料在成膜過程中會釋放大量的VOC，對環(huán)境造成污染。環(huán)境友好涂料的研究致力于開發(fā)低VOC或無VOC的成膜技術(shù)，如水性涂料、粉末涂料等，這些涂料在成膜過程中幾乎不釋放或釋放極少的VOC，從而大大減少了對環(huán)境的污染。ThefirstislowVOC(volatileorganiccompounds)orVOCfreefilm-formingtechnology.TraditionalcoatingsreleasealargeamountofVOCduringthefilm-formingprocess,causingenvironmentalpollution.TheresearchonenvironmentallyfriendlycoatingsiscommittedtodevelopinglowVOCorVOCfreefilm-formingtechnologies,suchaswater-basedcoatings,powdercoatings,etc.ThesecoatingsreleasealmostnoorverylittleVOCduringthefilm-formingprocess,greatlyreducingenvironmentalpollution.其次是納米技術(shù)在涂料中的應(yīng)用。納米技術(shù)的引入使得涂料具有更好的耐候性、抗劃痕性、抗污染性等特性，同時還可以提高涂料的環(huán)保性能。例如，納米二氧化鈦可以作為光催化劑，將有機污染物分解為無害物質(zhì)，從而提高涂料的自清潔性能。Secondly,theapplicationofnanotechnologyincoatings.Theintroductionofnanotechnologyenablescoatingstohavebetterweatherresistance,scratchresistance,pollutionresistance,andothercharacteristics,whilealsoimprovingtheenvironmentalperformanceofcoatings.Forexample,nanotitaniumdioxidecanserveasaphotocatalysttodecomposeorganicpollutantsintoharmlesssubstances,therebyimprovingtheself-cleaningperformanceofcoatings.再者是生物基材料在涂料中的應(yīng)用。生物基材料來源于可再生資源，如植物油脂、淀粉等，這些材料具有環(huán)保、可再生、可降解等優(yōu)點。在涂料中使用生物基材料，不僅可以減少對石油資源的依賴，還可以提高涂料的環(huán)保性能。Furthermore,theapplicationofbiobasedmaterialsincoatings.Biobasedmaterialscomefromrenewableresources,suchasplantoils,starch,etc.Thesematerialshaveadvantagessuchasenvironmentalprotection,renewability,andbiodegradability.Theuseofbiobasedmaterialsincoatingscannotonlyreducedependenceonpetroleumresources,butalsoimprovetheenvironmentalperformanceofcoatings.最后是循環(huán)再利用技術(shù)。涂料在使用過程中會產(chǎn)生大量的廢棄涂料，這些廢棄涂料如果不進行處理，會對環(huán)境造成污染。環(huán)境友好涂料的研究致力于開發(fā)涂料的循環(huán)再利用技術(shù)，如將廢棄涂料進行回收、再生利用等，從而減少廢棄涂料對環(huán)境的污染。Finally,thereisrecyclingtechnology.Duringtheuseofcoatings,alargeamountofwastecoatingswillbegenerated.Ifthesewastecoatingsarenottreated,theywillcausepollutiontotheenvironment.Theresearchonenvironmentallyfriendlycoatingsiscommittedtodevelopingrecyclingandreusetechnologiesforcoatings,suchasrecyclingandreusingwastecoatings,inordertoreducethepollutionofwastecoatingsontheenvironment.環(huán)境友好涂料的關(guān)鍵技術(shù)包括低VOC或無VOC的成膜技術(shù)、納米技術(shù)的應(yīng)用、生物基材料的應(yīng)用以及循環(huán)再利用技術(shù)等。這些技術(shù)的發(fā)展和應(yīng)用將推動環(huán)境友好涂料的進一步發(fā)展，為實現(xiàn)綠色、低碳、循環(huán)的可持續(xù)發(fā)展目標提供有力支持。ThekeytechnologiesofenvironmentallyfriendlycoatingsincludelowVOCorVOCfreefilm-formingtechnology,theapplicationofnanotechnology,theapplicationofbiobasedmaterials,andrecyclingtechnology.Thedevelopmentandapplicationofthesetechnologieswillpromotethefurtherdevelopmentofenvironmentallyfriendlycoatings,providingstrongsupportforachievingsustainabledevelopmentgoalsofgreen,low-carbon,andrecycling.四、環(huán)境友好涂料的性能優(yōu)化Performanceoptimizationofenvironmentallyfriendlycoatings隨著環(huán)保意識的日益增強，環(huán)境友好涂料的研究不僅關(guān)注其環(huán)保性，更著眼于其性能的優(yōu)化。性能優(yōu)化不僅關(guān)乎涂料的使用效果，更直接影響到其市場接受度和應(yīng)用廣泛性。因此，如何在保證環(huán)保的前提下，提升涂料的性能，已成為當前研究的熱點。Withtheincreasingawarenessofenvironmentalprotection,researchonenvironmentallyfriendlycoatingsnotonlyfocusesontheirenvironmentalfriendliness,butalsoonoptimizingtheirperformance.Performanceoptimizationnotonlyaffectstheeffectivenessofcoatings,butalsodirectlyaffectstheirmarketacceptanceandwidespreadapplication.Therefore,howtoimprovetheperformanceofcoatingswhileensuringenvironmentalprotectionhasbecomeacurrentresearchhotspot.在環(huán)境友好涂料的性能優(yōu)化方面，研究者們主要從涂料的耐候性、耐腐蝕性、耐磨性、附著力等關(guān)鍵指標入手。例如，通過引入新型的環(huán)保型添加劑和納米材料，可以有效提升涂料的耐候性，使其在極端氣候條件下仍能保持良好的性能。同時，采用生物基材料和環(huán)保型固化劑，可以增強涂料的耐腐蝕性和耐磨性，延長其使用壽命。Intermsofoptimizingtheperformanceofenvironmentallyfriendlycoatings,researchersmainlyfocusonkeyindicatorssuchasweatherresistance,corrosionresistance,wearresistance,andadhesion.Forexample,byintroducingnewenvironmentallyfriendlyadditivesandnanomaterials,theweatherresistanceofcoatingscanbeeffectivelyimproved,enablingthemtomaintaingoodperformanceevenunderextremeweatherconditions.Meanwhile,theuseofbiobasedmaterialsandenvironmentallyfriendlycuringagentscanenhancethecorrosionresistanceandwearresistanceofcoatings,andextendtheirservicelife.研究者們還在涂料的制備工藝上進行創(chuàng)新，以提高涂料的綜合性能。例如，采用新型的噴涂技術(shù)，可以使涂料更加均勻地涂抹在基材表面，提高涂層的附著力。通過優(yōu)化涂料的配方和制備過程，可以減少涂料的VOC含量，進一步提高其環(huán)保性。Researchersarealsoinnovatinginthepreparationprocessofcoatingstoimprovetheiroverallperformance.Forexample,usingnewsprayingtechniquescanmakethecoatingmoreevenlyappliedtothesurfaceofthesubstrate,improvingtheadhesionofthecoating.Byoptimizingtheformulationandpreparationprocessofcoatings,theVOCcontentofcoatingscanbereduced,furtherimprovingtheirenvironmentalfriendliness.環(huán)境友好涂料的性能優(yōu)化是一個系統(tǒng)工程，需要研究者們在材料選擇、制備工藝、性能評價等多個方面進行綜合考慮。未來，隨著科技的不斷進步和環(huán)保要求的不斷提高，環(huán)境友好涂料的性能優(yōu)化將有望實現(xiàn)更大的突破。Theperformanceoptimizationofenvironmentallyfriendlycoatingsisasystematicengineeringprojectthatrequiresresearcherstocomprehensivelyconsidermultipleaspectssuchasmaterialselection,preparationprocess,andperformanceevaluation.Inthefuture,withthecontinuousprogressoftechnologyandtheincreasingenvironmentalrequirements,theperformanceoptimizationofenvironmentallyfriendlycoatingsisexpectedtoachievegreaterbreakthroughs.五、環(huán)境友好涂料的應(yīng)用領(lǐng)域Applicationfieldsofenvironmentallyfriendlycoatings隨著環(huán)保意識的日益增強和環(huán)保政策的不斷推進，環(huán)境友好涂料的應(yīng)用領(lǐng)域正在不斷擴大。這種涂料以其低污染、低毒性、低VOC排放等特性，正逐漸替代傳統(tǒng)的有害涂料，成為許多行業(yè)的新選擇。Withtheincreasingawarenessofenvironmentalprotectionandthecontinuouspromotionofenvironmentalpolicies,theapplicationfieldsofenvironmentallyfriendlycoatingsareconstantlyexpanding.Thistypeofcoating,withitscharacteristicsoflowpollution,lowtoxicity,andlowVOCemissions,isgraduallyreplacingtraditionalharmfulcoatingsandbecominganewchoiceformanyindustries.在建筑領(lǐng)域，環(huán)境友好涂料被廣泛用于內(nèi)外墻裝飾、地板涂料、屋頂防水涂料等方面。由于其無毒、無味、無污染的特點，不僅保障了施工人員的健康，也降低了對周圍環(huán)境的污染。同時，許多環(huán)境友好涂料還具有良好的耐候性、抗老化性、抗污染性，使得建筑物能夠長期保持美觀。Inthefieldofarchitecture,environmentallyfriendlycoatingsarewidelyusedininteriorandexteriorwalldecoration,floorcoatings,roofwaterproofcoatings,andotheraspects.Duetoitsnon-toxic,odorless,andpollution-freecharacteristics,itnotonlyensuresthehealthofconstructionworkers,butalsoreducespollutiontothesurroundingenvironment.Atthesametime,manyenvironmentallyfriendlycoatingsalsohavegoodweatherresistance,anti-agingandantipollutionproperties,makingbuildingsbeautifulforalongtime.在汽車工業(yè)中，環(huán)境友好涂料同樣發(fā)揮著重要作用。隨著新能源汽車的快速發(fā)展，對涂料的環(huán)保性要求也越來越高。環(huán)境友好涂料不僅能夠有效降低汽車制造過程中的污染排放，還能夠提高涂層的耐久性、抗劃痕性和抗腐蝕性，為汽車提供更好的保護。Intheautomotiveindustry,environmentallyfriendlycoatingsalsoplayanimportantrole.Withtherapiddevelopmentofnewenergyvehicles,theenvironmentalprotectionrequirementsforcoatingsarealsoincreasing.Environmentallyfriendlycoatingscannotonlyeffectivelyreducepollutionemissionsduringautomobilemanufacturing,butalsoimprovethedurability,scratchresistance,andcorrosionresistanceofcoatings,providingbetterprotectionforautomobiles.在木器家具、船舶、航空航天、電子電器等領(lǐng)域，環(huán)境友好涂料也有著廣泛的應(yīng)用。例如，在家具制造中，環(huán)境友好涂料可以替代傳統(tǒng)的油漆，使家具更加環(huán)保、健康；在船舶制造中，環(huán)境友好涂料具有良好的防腐、防污、抗老化性能，能夠延長船舶的使用壽命。Environmentallyfriendlycoatingsarealsowidelyusedinfieldssuchaswoodenfurniture,ships,aerospace,andelectronics.Forexample,infurnituremanufacturing,environmentallyfriendlycoatingscanreplacetraditionalpaints,makingfurnituremoreenvironmentallyfriendlyandhealthy;Inshipbuilding,environmentallyfriendlycoatingshavegoodanti-corrosion,antifoulingandanti-agingproperties,whichcanextendtheservicelifeofships.環(huán)境友好涂料在各個領(lǐng)域的應(yīng)用正在不斷拓展，為環(huán)保事業(yè)和可持續(xù)發(fā)展做出了積極貢獻。未來，隨著科技的進步和環(huán)保要求的提高，環(huán)境友好涂料的應(yīng)用前景將更加廣闊。Theapplicationofenvironmentallyfriendlycoatingsinvariousfieldsisconstantlyexpanding,makingpositivecontributionstoenvironmentalprotectionandsustainabledevelopment.Inthefuture,withtheadvancementoftechnologyandtheimprovementofenvironmentalprotectionrequirements,theapplicationprospectsofenvironmentallyfriendlycoatingswillbeevenbroader.六、環(huán)境友好涂料的挑戰(zhàn)與展望ChallengesandProspectsofEnvironmentallyFriendlyCoatings隨著全球環(huán)保意識的日益加強，環(huán)境友好涂料的研究與發(fā)展面臨著一系列的挑戰(zhàn)和展望。在挑戰(zhàn)方面，環(huán)境友好涂料的研發(fā)需要克服的困難主要包括如何進一步提高涂料的環(huán)保性能，如降低VOCs排放、提高可再生資源的利用率等。如何在保證涂料性能的實現(xiàn)低成本、大規(guī)模生產(chǎn)，也是環(huán)境友好涂料面臨的重要問題。Withtheincreasingglobalenvironmentalawareness,theresearchanddevelopmentofenvironmentallyfriendlycoatingsarefacingaseriesofchallengesandprospects.Intermsofchallenges,thedifficultiesthatneedtobeovercomeinthedevelopmentofenvironmentallyfriendlycoatingsmainlyincludehowtofurtherimprovetheenvironmentalperformanceofcoatings,suchasreducingVOCemissionsandimprovingtheutilizationofrenewableresources.Howtoachievelow-costandlarge-scaleproductiontoensuretheperformanceofcoatingsisalsoanimportantissuefacedbyenvironmentallyfriendlycoatings.然而，盡管面臨這些挑戰(zhàn)，環(huán)境友好涂料的發(fā)展前景仍然廣闊。展望未來，隨著科學(xué)技術(shù)的不斷進步，環(huán)境友好涂料的研發(fā)將更加注重環(huán)保性能與性能之間的平衡，以滿足市場日益增長的需求。同時，通過深入研究涂料的生產(chǎn)工藝、配方優(yōu)化等方面，有望進一步提高環(huán)境友好涂料的性能，降低生產(chǎn)成本，實現(xiàn)大規(guī)模應(yīng)用。However,despitethesechallenges,thedevelopmentprospectsofenvironmentallyfriendlycoatingsarestillbroad.Lookingaheadtothefuture,withthecontinuousprogressofscienceandtechnology,theresearchanddevelopmentofenvironmentallyfriendlycoatingswillpaymoreattentiontothebalancebetweenenvironmentalperformanceandperformancetomeetthegrowingmarketdemand.Atthesametime,throughin-depthresearchontheproductionprocessandformulaoptimizationofcoatings,itisexpectedtofurtherimprovetheperformanceofenvironmentallyfriendlycoatings,reduceproductioncosts,andachievelarge-scaleapplication.環(huán)境友好涂料的發(fā)展還將受到政策支持的推動。各國政府為了保護環(huán)境、減少污染，紛紛出臺相關(guān)政策，鼓勵和支持環(huán)境友好涂料的研發(fā)和應(yīng)用。這將為環(huán)境友好涂料的發(fā)展提供有力的政策保障和市場空間。Thedevelopmentofenvironmentallyfriendlycoatingswillalsobedrivenbypolicysupport.Governmentsofvariouscountrieshaveintroducedrelevantpoliciestoencourageandsupporttheresearchandapplicationofenvironmentallyfriendlycoatingsinordertoprotecttheenvironmentandreducepollution.Thiswillprovidestrongpolicyguaranteesandmarketspaceforthedevelopmentofenvironmentallyfriendlycoatings.環(huán)境友好涂料的研究與發(fā)展面臨著諸多挑戰(zhàn)，但也充滿了機遇和希望。通過不斷的技術(shù)創(chuàng)新和政策支持，有望在未來實現(xiàn)環(huán)境友好涂料的廣泛應(yīng)用，為推動全球環(huán)保事業(yè)做出重要貢獻。Theresearchanddevelopmentofenvironmentallyfriendlycoatingsfacemanychallenges,buttheyarealsofullofopportunitiesandhope.Throughcontinuoustechnologicalinnovationandpolicysupport,itisexpectedtoachievewidespreadapplicationofenvironmentallyfriendlycoatingsinthefuture,makingimportantcontributionstopromotingglobalenvironmentalprotection.七、結(jié)論Conclusion隨著全球環(huán)境問題的日益嚴重，環(huán)境友好涂料的研究與開發(fā)已經(jīng)引起了廣泛關(guān)注。近年來，環(huán)境友好涂料的研究新進展表現(xiàn)在多個方面，包括新型環(huán)保材料的開發(fā)、低揮發(fā)性有機化合物（VOC）涂料的研發(fā)、水性涂料的改進、納米技術(shù)在涂料中的應(yīng)用以及涂料廢棄物的處理等。這些新進展不僅提高了涂料的性能，同時也大大降低了涂料生產(chǎn)和使用過程中對環(huán)境的污染。Withtheincreasinglyseriousglobalenvironmentalproblems,theresearchanddevelopmentofenvironmentallyfriendlycoatingshaveattractedwidespreadattention.Inrecentyears,newprogressintheresearchofenvironmentallyfriendlycoatingshasbeenreflectedinvariousaspects,includingthedevelopmentofnewenvironmentallyfriendlymaterials,theresearchanddevelopmentoflowvolatileorganiccompound(VOC)coatings,theimprovementofwater-basedcoatings,theapplicationofnanotechnologyincoatings,andthetreatmentofcoatingwaste.Thesenewdevelopmentsnotonlyimprovetheperformanceofcoatings,butalsogreatlyreduceenvironmentalpollutionduringtheproductionanduseofcoatings.在新型環(huán)保材料的開發(fā)方面，研究者們通過引入生物基材料、可再生資源等，成功制備出了一系列環(huán)境友好的涂料。這些涂料不僅具有良好的涂覆性能，而且來源廣泛，可再生性強，對環(huán)境的負擔小。Inthedevelopmentofnewenvironmentallyfriendlymaterials,researchershavesuccessfullypreparedaseriesofenvironmentallyfriendlycoatingsbyintroducingbiobasedmaterials,renewableresources,etc.Thesecoatingsnotonlyhavegoodcoatingperformance,butalsohaveawiderangeofsources,strongrenewability,andlowenvironmentalburden.低揮發(fā)性有機化合物（VOC）涂料的研發(fā)則是通過優(yōu)化涂料配方、改進生產(chǎn)工藝等方式，降低涂料中的VOC含量。這不僅有利于改善室內(nèi)空氣質(zhì)量，還有助于減少大氣污染。Thedevelopmentoflowvolatileorganiccompound(VOC)coatingsisachievedbyoptimizingthecoatingformula,improvingproductionprocesses,andreducingtheVOCcontentinthecoatings