| Record ID | marc_columbia/Columbia-extract-20221130-031.mrc:250449046:6151 |
| Source | marc_columbia |
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LEADER: 06151cam a2200673Mi 4500
001 15131000
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006 m o d
007 cr cn|||||||||
008 180306s2014 flua o 000 0 eng d
035 $a(OCoLC)on1027760511
035 $a(NNC)15131000
040 $aCRCPR$beng$erda$epn$cCRCPR$dOCLCO$dOCLCF$dOCLCQ$dOCLCO$dEBLCP$dN$T$dYDX$dNLE$dUKMGB$dUKAHL$dOCLCQ$dK6U$dOCLCO
015 $aGBB892116$2bnb
016 7 $a018865928$2Uk
019 $a1021292624$a1034988982$a1051425879
020 $a9781482271959$q(e-book)
020 $a1482271958
020 $z9780419228004
020 $z0419228004
035 $a(OCoLC)1027760511$z(OCoLC)1021292624$z(OCoLC)1034988982$z(OCoLC)1051425879
037 $aTANDF_376447$bIngram Content Group
050 4 $aRA435
072 7 $aSCI003000$2bisacsh
082 04 $a620.1/35
049 $aZCUA
100 1 $aAligizaki, Kalliopi K.,$eauthor.
245 10 $aPore Structure of Cement-Based Materials :$bTesting, Interpretation and Requirements /$cKalliopi K. Aligizaki.
250 $aFirst edition.
264 1 $aBoca Raton, FL :$bCRC Press,$c2014.
300 $a1 online resource :$btext file, PDF
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
490 1 $aModern concrete technology series ;$vvol. 12
490 1 $aModern concrete technology series ;$v12
520 2 $a"Pore Structure of Cement-Based Materials provides a thorough treatment of the experimental techniques used to characterize the pore structure of materials. The text presents the principles and practical applications of the techniques used, organized in an easy-to-follow and uncomplicated manner, providing the theoretical background, the way to analyze experimental data, and the factors affecting the results. The book is the single comprehensive source of the techniques most commonly used for pore structure analysis, covering simple techniques like mercury intrusion porosimetry and water absorption, to the more sophisticated small-angle scattering and nuclear magnetic resonance. The book is an essential reference text for researchers, users, and students in materials science, applied physics, and civil engineering, who seek a deep understanding of the principles and limitations of the techniques used for pore structure analysis of cement-based materials."--Provided by publisher.
505 0 $aCover; Title Page; Copyright Page; Contents; List of figures; List of tables; Foreword; Preface; Acknowledgments; List of symbols; List of abbreviations; Units and conversions; 1 Introduction; 1.1 Scope of the book; 1.2 Pores in cement paste; 1.2.1 Gel pores; 1.2.2 Capillary pores; 1.2.3 Hollow-shell pores; 1.2.4 Air voids; 1.2.5 Pore size ranges; 1.3 Methods for characterizing pore structure; 1.4 Definition of pore structure parameters; 1.4.1 General pores; 1.4.2 Air voids; References; 2 Specimen pretreatment; 2.1 Water removal; 2.1.1 Drying techniques; 2.1.2 Solvent replacement
505 8 $a2.1.3 Comparison of different water removal techniques2.2 Preparation for microscopy; 2.2.1 Polished surface; 2.2.2 Thin sections; 2.2.3 Fracture surface; 2.2.4 Intrusion alloys; References; 3 Mercury intrusion porosimetry; 3.1 Theory and testing procedure; 3.1.1 Instrument description; 3.1.2 Testing procedure; 3.1.3 Calculation of pore size; 3.1.4 Pore size distribution; 3.1.5 Specific surface area; 3.2 Plots obtained; 3.2.1 Cumulative intrusion curves; 3.2.2 Incremental and differential distribution curve; 3.2.3 Surface area; 3.2.4 Range of sizes determined
505 8 $a3.3 Hysteresis and entrapment of mercury3.3.1 Theories proposed to explain hysteresis; 3.3.2 Entrapment of mercury and second intrusion method; 3.4 Parameters affecting results; 3.4.1 Specimen pretreatment; 3.4.2 Specimen size; 3.4.3 Rate of pressure build-up; 3.4.4 Contact angle; 3.4.5 Surface tension of mercury; 3.4.6 Alteration of pore structure; 3.4.7 Alternative intrusion liquids; 3.5 Advantages and limitations; References; 4 Gas adsorption; 4.1 Theory and testing procedure; 4.2 Analysis of data; 4.2.1 Adsorption isotherm; 4.2.2 Thickness of adsorbed film
505 8 $a4.2.3 Pore size (Kelvin equation)4.3 Total pore volume; 4.3.1 Dubinin-Radushkevich equation; 4.4 Pore size distribution; 4.4.1 The Barrett-Joyner-Halenda method; 4.4.2 The Cranston-Inkley method; 4.4.3 The modelless method and micropore (MP) analysis method; 4.5 Specific surface; 4.5.1 The Langmuir theory; 4.5.2 The Brunauer-Emmett-Teller (BET) theory; 4.5.3 The Dubinin-Kaganer equation; 4.5.4 The Harkins-Jura (HJ) relative method; 4.5.5 The t-plot; 4.5.6 The as-plot; 4.6 Adsorption hysteresis; 4.7 Factors affecting the results; 4.7.1 Pretreatment method; 4.7.2 Type of adsorbate used
505 8 $a4.7.3 Analysis method used4.8 Advantages and limitations; References; 5 Pycnometry and thennoporometry; 5.1 Pycnometry; 5.1.1 Liquid pycnometry; 5.1.2 Gas (helium) pycnometry and helium flow; 5.1.3 Advantages and limitations; 5.2 Thermoporometry; 5.2.1 Theoretical considerations; 5.2.2 Experimental procedure; 5.2.3 Pore size distribution; 5.2.4 Determination of the surface area and the average radius; 5.2.5 Applications on cement paste; 5.2.6 Advantages and limitations; References; 6 Nuclear magnetic resonance; 6.1 Theoretical aspects/fundamentals; 6.1.1 Single nucleus properties
650 0 $aConcrete.
650 0 $aCement.
650 6 $aBéton.
650 6 $aCiment.
650 7 $aconcrete.$2aat
650 7 $abéton.$2aat
650 7 $acement (construction material)$2aat
650 7 $aTECHNOLOGY & ENGINEERING$xEngineering (General)$2bisacsh
650 7 $aTECHNOLOGY & ENGINEERING$xReference.$2bisacsh
650 7 $aCement.$2fast$0(OCoLC)fst00850432
650 7 $aConcrete.$2fast$0(OCoLC)fst00874126
655 0 $aElectronic books.
655 4 $aElectronic books.
776 08 $z9781482271959$z9780419228004
830 0 $aModern concrete technology series ;$vvol. 12.
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio15131000$zTaylor & Francis eBooks
852 8 $blweb$hEBOOKS