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Increasing the Durability of Paint and Varnish Coatings in Building Products and Construction PDF

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Increasing the Durability of Paint and Varnish Coatings in Building Products and Construction Thispageintentionallyleftblank Woodhead Publishing Series in Civil and Structural Engineering Increasing the Durability of Paint and Varnish Coatings in Building Products and Construction Loganina Valentina Ivanovna Doctor of Technical Sciences Professor and Head of quality control and construction technologies at Penza State University of Architecture, Penza, Russia WoodheadPublishingisanimprintofElsevier TheOfficers’MessBusinessCentre,RoystonRoad,Duxford,CB224QH,UnitedKingdom 50HampshireStreet,5thFloor,Cambridge,MA02139,UnitedStates TheBoulevard,LangfordLane,Kidlington,OX51GB,UnitedKingdom Copyright©2019ElsevierInc.Allrightsreserved. Nopartofthispublicationmaybereproducedortransmittedinanyformorbyanymeans,electronicor mechanical,includingphotocopying,recording,oranyinformationstorageandretrievalsystem,without permissioninwritingfromthepublisher.Detailsonhowtoseekpermission,furtherinformationaboutthe Publisher’spermissionspoliciesandourarrangementswithorganizationssuchastheCopyrightClearance CenterandtheCopyrightLicensingAgency,canbefoundatourwebsite:www.elsevier.com/permissions. ThisbookandtheindividualcontributionscontainedinitareprotectedundercopyrightbythePublisher (otherthanasmaybenotedherein). Notices Knowledgeandbestpracticeinthisfieldareconstantlychanging.Asnewresearchandexperiencebroadenour understanding,changesinresearchmethods,professionalpractices,ormedicaltreatmentmaybecome necessary. Practitionersandresearchersmustalwaysrelyontheirownexperienceandknowledgeinevaluatingandusing anyinformation,methods,compounds,orexperimentsdescribedherein.Inusingsuchinformationormethods theyshouldbemindfuloftheirownsafetyandthesafetyofothers,includingpartiesforwhomtheyhavea professionalresponsibility. Tothefullestextentofthelaw,neitherthePublishernortheauthors,contributors,oreditors,assumeany liabilityforanyinjuryand/ordamagetopersonsorpropertyasamatterofproductsliability,negligenceor otherwise,orfromanyuseoroperationofanymethods,products,instructions,orideascontainedinthe materialherein. BritishLibraryCataloguing-in-PublicationData AcataloguerecordforthisbookisavailablefromtheBritishLibrary LibraryofCongressCataloging-in-PublicationData AcatalogrecordforthisbookisavailablefromtheLibraryofCongress ISBN:978-0-12-817046-5(print) ISBN:978-0-12-817047-2(online) ForinformationonallWoodheadPublishingpublications visitourwebsiteathttps://www.elsevier.com/books-and-journals Publisher:MatthewDeans AcquisitionEditor:GlynJones EditorialProjectManager:JohnLeonard ProductionProjectManager:SojanP.Pazhayattil CoverDesigner:GregHarris TypesetbyMPSLimited,Chennai,India Contents 1 Regularitiesforformationofthequalityoftheexternalappearance ofcoatings 1 1.1 Evaluationofthequalityoftheappearanceofpaintandvarnish coatings 1 1.2 Qualityoftheappearanceofpaintandvarnishcoatings 4 1.3 Statisticalanalysisofthequalityofappearanceofpaint andvarnishcoatingsofcementconcretes 11 1.4 Patternsofqualitychangeoftheappearanceofpaintcoatings ofcementconcreteswithaging 21 1.5 Developmentofamodelofthequalityoftheappearance ofpaintandvarnishcoatings 34 1.6 Relationshipofdeformativepropertiesofpaintcoatings withtheroughnessoftheirsurface 37 1.7 Accountingforthehereditaryfactorwhenassessingthequality changeoftheappearanceofpaintandvarnishintheagingprocess 43 References 52 2 Estimationofthestressed-deformedstateofcoatingfrom thequalityoftheirappearance 55 2.1 Methodforassessingthestressstateofcoatings 55 2.2 Connectionofthestress(cid:1)strainstateofpaintcoatingswith thequalityoftheirappearance 56 2.3 Stressstateofthecoatings,dependingontheoperational factors 63 References 71 3 Regularitiesofcrackingprotective-decorativecoatings 73 3.1 Methodforassessingthecrackresistanceofpaintandvarnish coatings 73 3.2 Regularitiesofcrackingprotectiveanddecorativecoatings intheagingprocess 78 3.3 Effectoftheporosityofthecementsubstrateonthecrack resistanceofprotectiveanddecorativecoatings 86 References 92 4 Forecastingthedurabilityofcoatings 93 4.1 Regularitiesofagingofprotectiveanddecorativecoatings ofcementconcretes 93 vi Contents 4.2 Predictionoftheagingtimeofcoatingsofexteriorwalls ofbuildings 125 References 131 5 Statisticalmethodsofqualitymanagementofcoatingsofcement concrete 133 5.1 Applicationofthesixsigmamethodologytotheanalysis ofthequalityofpaintandvarnishcoatings 133 5.2 Useofstatisticalmethodstoassessthecrackingofpaint andvarnishcoatings 139 References 159 6 Developmentofplansforstatisticalacceptanceofqualitycontrol 161 6.1 Criteriaforacceptanceofpaintedsurfaces 161 6.2 Statisticalcontrolofpaintedsurfaces 163 6.2.1 Planofstatisticalacceptancecontrolofthepainted surfaceswithconstantstandarddeviation 163 6.2.2 Statisticalacceptancecontrolofquantitativetrait withvariablestandarddeviation 167 6.2.3 Controlofthequantificationofindividualproperties 169 6.3 Reliabilityandpredictionofpropertiesofprotective anddecorativecoatings 173 6.3.1 Criteriaofreliabilityofpaintandvarnishcoatings 173 6.3.2 Lawofprobabilitydistributionoftrouble-freeservice ofprotectiveanddecorativecoatings 177 References 189 Index 191 1 Regularities for formation of the quality of the external appearance of coatings 1.1 Evaluation of the quality of the appearance of paint and varnish coatings Coatings for finishing facades with aesthetic protective functions must have a high-quality appearance. The quality of appearance refers to the presence of defects (inclusions, streaks, shagreen, strokes and scratches, waviness, variability) paintwork. The presence of defects on the surface of the paintwork determines the qualityofappearance. According to GOST 9.032-74 “Unified system of protection against corrosion and aging for coatings for paint and varnish, groups, technical requirements and designations,” there are seven classes of the quality of the appearance of coatings onametalsubstratedefinedasfollows: I class—no defects can be allowed for high-gloss, glossy, semi-glossy and semi- matt.Formattcoatingsnotmorethan4inclusionsperm2; II(cid:1)VII classes—are possible weed or individual inclusions, taking into account their number (pcs/m2) depending on the length, width, diameter of the defect and thedistancebetweenthem(mm),aswellasrisksandhatch. In addition to the above defects, the quality classes III(cid:1)YII include waviness, Y(cid:1)YIIstreaks,andIY(cid:1)YIIoffshade. In Refs. [1,2], the quality of the appearance of protective-decorative coatings for cementconcreteareevaluateIV(cid:1)VIIclasses (Table1.1). As noted earlier, the surface quality of the paintwork is also determined by its roughness, that is, its surface profile. Methods involving fractalphysics can be used toestimatethecoatingsurfaceprofile.ThefractaldimensionindexDofthecoating surface profile ranges between 1,D,2 [3(cid:1)6]. The greater the roughness of the coating, the more curved the coating profile and the greater the value of D. Thus, the fractal dimension D of the coating profile can serve as a criterion of its appear- ancequality,reflectingthepresenceofinclusions,streaks,andwaviness. In this chapter, we have attempted to evaluate the possibility of describing the coatingsurfacequalityusingfractaldimension. The paints were applied with a brush onto a mortar substrate in two layers with 24-hour intermediate drying. The coating profile was determined with a profile meter A1. The length of the coating surface profile was determined with a perambulator. IncreasingtheDurabilityofPaintandVarnishCoatingsinBuildingProductsandConstruction. DOI:https://doi.org/10.1016/B978-0-12-817046-5.00001-2 ©2019ElsevierInc.Allrightsreserved. 2 IncreasingtheDurabilityofPaintandVarnishCoatingsinBuildingProductsandConstruction Table1.1 Permissibledefectsforcoatingsdependingontheirclass Coating Defectname Normforcoatings class Satin Semimaturing Matt gloss IV (a)Inclusions:numberof 1 1 1 pcs/dm2 (b)Size,mm,notmore 1.0 1.0 1.0 (c)Distancebetween 10 10 10 inclusions,mm,nomore than (d)Shagreen Allowedto (e)Streaks Notallowed (f)Strokes,risks Allowedindividual (g)Waviness,mm,notmore 2 2 2 than (h)Offshade Notallowed Y (a)Inclusions:numberof 4 4 5 pcs/dm2 (b)Size,mm,notmore 2.0 2.0 2.0 (c)Shagreen Allowedto (d)Streaks AllowedIndividual (e)Strokes,risks Allowedto (f)Waviness,mm,notmore 2.5 2.5 2.5 than (g)Offshade Notallowed YI (a)Inclusions:numberof 8 8 8 pcs/dm2 (b)Size,mm,notmore 3.0 3.0 3.0 (c)Shagreen Notallowed (d)Streaks Allowedindividual (e)Strokes,risks Allowedto (f)Waviness,mm,notmore 4.0 4.0 4.0 than (g)Offshade Allowedto Regularitiesforformationofthequalityoftheexternalappearanceofcoatings 3 In addition, the coating surface quality was estimated with a gloss meter FB-2. The fractal dimension D of the coating surface profile was estimated using the geometrical method. For this purpose the image of the curve obtained by using a profilemeterprofilographwascoveredbyagridconsistingofsquareswithsideL1. Then the number of the squares N curve N (L1) went through were counted. After changing the grid scale, we recounted the number of squares intersecting curve N (L2), N (L3) N (Ln). Then, in a log(cid:1)log grid we plotted N (L), according totheinclinationangleofwhichwedeterminedthefractaldimension. Table 1.2 shows the results of the coating surface quality estimation that was carried out in accordance with GOST 9.407-74 using the fractal dimension of the coatingsurfaceprofile. As can be seen, there is a correlation between the coating surface roughness and the appearance quality class. As the surface roughness increases the appearance qualityclassdecreasesandthefractaldimensionDincreases. For example, the coating surface profile fractal dimension based on PF-115 with a coating surface roughness and appearance quality class of 0.2m and Y is D51.17, while with the coating surface roughness and the appearance quality class, it is 0.75mkm and YI is D51.35. Similar patterns were seen for other types ofcoatings. Changes in the gloss and coating surface profile parameters on the sample were equal to 10cm also prove the fact. When the coating surface profile fractal dimen- sion increases, the gloss decreases and the numerical valuesof the profile perimeter increase. Table1.2 Coatingappearancequalityestimation Thepaint The Fractal The The Gloss coating dimension,D surface coating (%) surface profile surface roughness, perimeter quality Ra(mkm) (mm) kind PF-115 0.22 1.17 106 Y 70.8 0.75 1.35 116 YI 67.7 МА-15 0.2 1.075 102 Y 83.1 0.48 1.125 109 YI 78 NC-123 0.2 1.1 105 Y 76.9 0.75 1.36 121 YI 67.7 Acril, 0.75 1.3 216 YI 66.2 Universal 1.26 1.42 221 YII 64.2 Water- 0.6 1.25 192 YI 66.2 dispersible, 1.24 1.7 225 YII 62.2 facade

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