Page 693 - Handbook of Thermal Analysis of Construction Materials
P. 693
Index 661
Coatings 24, 573 increase of slump 171
generic types 556 mechanical behavior 62
Coefficient of thermal expansion 21. mechanical properties 61
See also CTE permeability 66
Cold weather concreting 212, 214 predict the performance 57
Cold-applied liquid compounds 572 quality 60
Commercial building materials raw materials 122
production 480 rheological behavior 60
Commercial joint sealants setting 61, 151, 159
characterization 595 strength development 54
Commercial plasters thermograms of harmful impurities
storage conditions 484 122
Complementary technique 408 tidal zone 65
Composite materials 62, 294 Concrete industry asphalt
Composites 24, 536 applications 562
Composition of products 144 Concrete technology
Compounded-expansive additive thaumasite 135
375, 377 Condensed silica 301
Compressive strength 175 Conduction calorimetric analysis
effect of lignosulfonate 168 71, 72, 238
effect of TEA 155 Conduction calorimetry 73,
effect of water content 383 89, 100, 102, 112, 150,
magnesia-phosphate cement 381 190, 198, 221, 246, 261,
mortar 438 265, 296, 318, 326, 417
most significant effect 150 Constant decomposition rate control
phosphate-cement concretes 382 473. See also CDRC
slightly reduced 159 Constant heating rate 14
Computer-based models 58 Constant reaction rate 14, 15
Concrete 29, 35 Construction
accelerators 145 adhesives 541
admixtures 143, 339 materials 536
aged 135 requirements of 403
causes leading to failure 123 Construction sealants
corrosion of steel 65 decomposition products 588
creep 57 weathering 579
degree of carbonation 134 Controlled transformation rate
deterioration 64, 66, 135 thermal analysis 467.
durability 54, 56, 62, 122 See also CRTA
exposed to salt water 135 Controlled-rate thermal analysis 475
fly ash 175 Conversion 478
freezing-thawing cycles 127 high alumina cement 411
high temperature curing 66 Conversion of ettringite 197.
high temperature effects 126 See also TSA
