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Cement & Concrete Composites 1994: Vol 16 Index PDF

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Cement & Concrete Composites 16 (1994) 319-322 © 1994 Elsevier Science Limited Printed in Great Britain. All rights reserved ELSEVIER Index Index for Volume 16 Bold type is used for contributors to this volume. The suffix e indicates editorial comment; c, a conference; r, a book review. Accelerated aging, method for assessing the effectiveness Chemical resistance, polystyrene wastepaper-fibre-reinforced cement of mineral admixtures against reaction concrete, 276 composites, 115-28 of alkali with artificial siliceous Chloride diffusion, 75, 77 Acrylic fibres as reinforcement for aggregate’, 207-218 Chloride ion permeability, effect of cement pastes, 31-7 Bérubé, M.-A. and Frenette, ‘Testing silica fume, 279-86 Aggregates. See Alkali-aggregate concrete for AAR in NaOH and NaCl Chloride penetration, reinforced reactivity solutions at 38°C and 80°C’, 189-198 concrete, 257 Alekrish, Alwaleed A. and Alsayed, Biaxial compression, steel fibre Chloride permeability and freeze-thaw ‘Shrinkage of fibre and reinforced fibre concrete, 9-14 damage, 233-9 concrete beams in hot-dry climate’, Biswas, M., Ray and Gupta, ‘Effect of Compression-splitting tests, 83-91 299-307 latex and superplasticiser on Portland Compressive strength Alkali hydroxides in alkali-silica cement mortar in the fresh state’, development with age, 275 reaction, 219-26 309-316 effect of silica fume, 281 Alkali-aggregate reactivity, 16le, 169 Blanco, M.T., Palomo and Amat, effect of water to cement ratio, 275 accelerated test method, 189-98 ‘Acrylic fibres as reinforcement for lightweight concrete beams, 49 standard test methods, 199-206 cement pastes’, 31-37 rubberized concrete, 291 test methods, I6le Blast-furnace slag in alkali-silica steel fibre concrete, 9-14 Alkali-reactive carbonate rocks, reaction, 207-12 Concrete structures, repair and testing, autoclave method for identification of, Blended cements 153r 163-7 municipal wastewater sludge, 39 Concrete technology, 227r Alkali reactivity, sands, 177-88 paste and concrete, properties of, Conferences and symposia, forthcoming, Alkali-silica reaction 73-81 67-9c, 157-9c, 229-30c, 317-8c alkali hydroxides in, 219-26 Bungey, J.H. and Madandoust, Corrosion mineral admixtures, 207-18 ‘Strength variations in lightweight reinforcing bars, effect of additions, Alsayed, Saleh H. and Alekrish, concrete beams’, 49-55 253-60 ‘Shrinkage of fibre and reinforced fibre weldmesh ferrocement, 112 concrete beams in hot-dry climate’, Corrosion potentials, blended cement 299-307 Calcium hydroxide, effects on aging, paste and concrete, 78 Amat, T., Blanco and Palomo, ‘Acrylic 124 Corrosion resistance, blended cement fibres as reinforcement for cement Calcium phosphate cements, properties paste and concrete, 75 pastes’, 31-37 of, 93-106 Coutts, R.S.P., Langfors, Zhu and Austin, S.A., Richards and Robins, ‘The Carbon-fibre composite cables (CFCC), Tobias, ‘Air-cured banana-fibre- resistance of steel fibre concrete to 1-2e reinforced cement composites’, 3-8 VTOL engine jet blast’, 57-64 Carbon-fibre reinforced composites, Crack space, weldmesh ferrocement Autoclave method reliability analysis, 19 under cyclic loading, 107-14 alkali-reactive carbonate rocks, 163-7 Carbon-fibre-reinforced composites Crack width, weldmesh ferrocement alkali reactivity of sands, 177-88 flexural strength, 18 under cyclic loading, 107-14 strength and reliability, 15-21 Criaud, A., Defossé, Chabanis, Debray, Balaguru, P., 66r tensile strength, 18 Michel, Sorrentino, Gallias, Salomon, Banana-fibre-reinforced cement Carbonate rock, alkali reactivity, 163-7 Guédon and Le Roux, ‘The French composites, 3-8 Cement pastes, acrylic fibres as standard methods for evaluating the density, 7 reinforcement for, 31-7 reactivity of aggregates with respect to flexural strength, 6 Cementitious composites axial tensile AAR’, 199-206 fracture toughness, 7 technique (CCATT), 15 Cyclic loading, weldmesh ferrocement, modulus of elasticity, 7 Chabanis, B., Criaud, Defossé, Debray, 107-14 water absorption, 7 Michel, Sorrentino, Gallias, Salomon, Batis, G., Kouloumbi and Malami, ‘The Guédon and Le Roux, ‘The French Debray, L., Criaud, Defossé, Chabanis, anticorrosive effect of fly ash, slag and standard methods for evaluating the Michel, Sorrentino, Gallias, Salomon, Greek pozzolan in reinforced concrete’, reactivity of aggregates with respect to Guédon and Le Roux, ‘The French 253-260 AAR’, 199-206 standard methods for evaluating the Berra, M., Mangialardi and Paolini, Chemical durability tests, acrylic fibres, reactivity of aggregates with respect to ‘Application of the NaOH bath test 33 AAR’, 199-206 320 Index Defossé, C., Criaud, Chabanis, Debray, Fracture toughness Katz, R. Nathan, Toutanji and Michel, Sorrentino, Gallias, Salomon, banana-fibre-reinforced cement El-Korchi, ‘Strength and reliability of Guédon and Le Roux, ‘The French composites, 7 carbon-fiber-reinforced cement standard methods for evaluating the evaluation of, 83-91 composites’, 15-21 reactivity of aggregates with respect to finite element analysis, 85 Kawamura, Mitsunori and Torii, ‘Pore AAR’, 199-206 rubberized concrete, 292 structure and chloride ion permeability Density, banana-fibre-reinforced cement Francois-Brazier, J., Glinicki, Vautrin of mortars containing silica fume’, composites, 7 and Soukatchoff, ‘Plate impact testing 279-286 Diamond, Sidney and Ong, ‘Effects of method for GRC materials’, 241-251 Khatib, J.M., Molloy and Mangat, added alkali hydroxides in mix water Freeze/thaw characteristics, rubberized ‘Microstructure, chloride diffusion and on long-term SO concentrations in concrete, 291 reinforcement corrosion in blended pore solution’, 219-226 Freeze/thaw damage and chloride cement paste and concrete’, 73-81 Diggins, R., Shayan and Ivanusec, permeability, 233-9 Kishitani, Koichi, Kobayashi and ‘Suitability of two rapid test methods Frenette, J. and Bérubé, ‘Testing Tamura, ‘The rapid test JIS A 1804’, for determining the alkali reactivity of concrete for AAR in NaOH and NaCl 169-175 sands’, 177-188 solutions at 38°C and 80°C’, 189-198 Kobayashi, Masaki, Kishitani and Drying shrinkage, polystyrene concrete, Tamura, ‘The rapid test JIS A 1804’, 276 169-175 Gallias, M., Criaud, Defossé, Chabanis, Ductility, fibre-reinforced cement Kouloumbi, N., Batis and Malami, ‘The Debray, Michel, Sorrentino, Salomon, composites, 23 anticorrosive effect of fly ash, slag Guédon and Le Roux, ‘The French Durability, wastepaper-fibre-reinforced and Greek pozzolan in reinforced standard methods for evaluating the cement composites, 115-28 concrete’, 253-260 reactivity of aggregates with respect to Krstulovic-Opara, Neven, Watson and AAR’, 199-206 LaFave, ‘Effect of increased tensile El-Korchi, Tahar, Katz and Toutanji, Glass fibre reinforced cement, impact strength and toughness on ‘Strength and reliability of carbon- tests, 241-51 reinforcing-bar bond behavior’, 129-141 fiber-reinforced cement composites’, Glinicki, M.A., Vautrin, Soukatchoff 15-21 and Francois-Brazier, ‘Plate impact Eldin, Neil N. and Senouci, testing method for GRC materials’, LaFave, James M., Watson and 241-251 Krstulovic-Opara, ‘Effect of increased ‘Measurement and prediction of the Ground blast-furnace slag in alkali-silica tensile strength and toughness on strength of rubberized concrete’, 287-298 reaction, 207-18 reinforcing-bar bond behavior’, 129- 14] Expanded polystyrene beads in hardened Guédon, S., Criaud, Defossé, Chabanis, concrete, 273-7 Debray, Michel, Sorrentino, Gallias, Langfors, G, Zhu, Tobias and Coutts, Salomon and Le Roux, ‘The French ‘Air-cured banana-fibre-reinforced standard methods ior evaluating the cement composites’, 3-8 Failure modes, rubberized concrete, 292 reactivity of aggregates with respect to Latex, effect on Portland cement mortar, Ferrocement AAR’, 199-206 309-16 crack space and crack width, 107-14 supta, A.P., Ray and Biswas, ‘Effect Le Roux, A., Criaud, Defossé, laminates for strengthening RC of latex and superplasticiser on Chabanis, Debray, Michel, Sorrentino, T-beams, 143-52 Portland cement mortar in the fresh Gallias, Salomon and Guédon, “The Fibre-reinforced calcium phosphate state’, 309-316 French standard methods for evaluating cement composites, interfacial and the reactivity of aggregates with respect mechanical behaviour, 93-106 to AAR’, 199-206 Hardened concrete, expanded Fibre-reinforced cement composites Li, Victor C. and Wu, ‘Trade-off polystyrene beads in, 273-7 banana, 3-8 between strength and ductility of High-performance-fibre-reinforced- carbon, 15-21 random discontinuous fiber reinforced concrete (HPFRC), reinforcing-bar pseudo-strain-hardening, 23 cementitious composites’, 23-29 bond behaviour, 129-4] strength and ductility, 23-9 Lightweight concrete Hsu, Jer-Wen, Soroushian, Shah and tensile strength, 23 chloride permeability, 238 Won, ‘Durability and moisture wastepaper, 115-28 strength variations, 49-55 sensitivity of recycled Fibre-reinforced concrete, Lim, C.T.E., Paramasivam and Ong, wastepaper-fiber-cement composites’, reinforcing-bar bond behaviour, 129-41 ‘Ferrocement laminates for 115-28 Fibre-reinforced-plastic reinforcement, strengthening RC T-beams’, 143-152 1-2e, 65-6r Linear-elastic fracture mechanics Finite element analysis Impact failure load, 248 (LLEFM), 83 fracture toughness, 85 Impact resistance, acrylic fibres, 32 Load-displacement curves, GRC, 248 steel-concrete composite beams, Impact tests, GRC materials, 241-51 261-72 Inertial effects on impact load history, Madandoust, R. and Bungey, ‘Strength 247 stress distribution, 85 variations in lightweight concrete Flexural resistance, acrylic fibres, 32 Ishimori, Hiroshi, Saito and Ohta, beams’, 49-55 Flexural strength ‘Chloride permeability of concrete Mailvaganam, Noel P., 153r subjected to freeze-thaw damage’, banana-fibre-reinforced cement Malami, Ch., Kouloumbi and Batis, 233-239 composites, 6 ‘The anticorrosive effect of fly ash, carbon-fibre-reinforced composites, Ivanusec, I., Shayan and Diggins, slag and Greek pozzolan in reinforced 18 ‘Suitability of two rapid test methods concrete’, 253-260 for determining the alkali reactivity of Flexural toughness, acrylic fibres, 32 Mangat, P.S., Khatib and Molloy, sands’, 177-188 Fly ash ‘Microstructure, chloride diffusion and effect on corrosion resistance, 253-60 reinforcement corrosion in blended in alkali-silica reaction, 207-18 J-integral method, 88 cement paste and concrete’, 73-81 Index 321 Mangialardi, T., Berra and Paolini, Paramasivam, P., Ong and Lim, Salomon, M., Criaud, Defossé, ‘Application of the NaOH bath test ‘Ferrocement laminates for Chabanis, Debray, Michel, Sorrentino, method for assessing the effectiveness strengthening RC T-beams’, 143-152 Gallias, Guédon and Le Roux, ‘The of mineral admixtures against reaction Paramasivam, P., Tan and French standard methods for evaluating of alkali with artificial siliceous Murugappan, ‘Constitutive relation for the reactivity of aggregates with respect aggregate’, 207-218 steel fibre concrete under biaxial to AAR’, 199-206 Mehta, P.K., 155c, 227r compression’, 9-14 Sands, alkali reactivity, 177-88 Michel, B., Criaud, Defossé, Chabanis, Petrography, aggregates, 201, 204 Senouci, Ahmed B. and Eldin, Debray, Sorrentino, Gallias, Salomon, Polarisation resistance, blended cement ‘Measurement and prediction of the Guédon and Le Roux, ‘The French paste and concrete, 78 strength of rubberized concrete’, standard methods for evaluating the Polyacrylonitrile-based carbon fibres, 287-298 reactivity of aggregates with respect to 1-2e, 15 Shah, Zahir, Soroushian, Won and Hsu, AAR’, 199-206 Polystyrene aggregate concrete, 273 ‘Durability and moisture sensitivity of Mineral admixtures in alkali-silica Porco, G., Spadea and Zinno, ‘Finite recycled wastepaper-fiber-cement reaction, 207-18 element analysis and parametric study composites’, 115-128 Mingshu, Tang, Xianghui and Sufen, of steel-concrete composite beams’, Shayan, A., Ivanusec and Diggins, ‘Autoclave method for identification of 261-272 ‘Suitability of two rapid test methods alkali-reactive carbonate rocks’, Pore structure for determining the alkali reactivity of 163-167 blended cement paste and concrete, sands’, 177-188 Modulus of elasticity 74, 76 Shayan, Ahmad, 161-162e banana-fibre-reinforced cement effect of silica fume, 279-86 Show, Kuan-Yeow and Tay, ‘Municipal composites, 7 Porosity, blended cement paste and wastewater sludge as cementitious and polystyrene concrete, 276 concrete, 74, 76 blended cement materials’, 39-48 Modulus of rupture, calcium phosphate Portland cement, effect of latex and Silica fume, 279-86 cements, 101-3 superplasticiser, 309-16 effect on durability and moisture Moisture sensitivity, Pozzolans sensitivity, 123 wastepaper-fibre-reinforced cement effect on corrosion resistance, 253-60 in alkali-silica reaction, 207-18 composites, 115-28 in alkali-silica reaction, 207-18 Singh, G. and Xiong, ‘Crack space and Molloy, B.T., Mangat and Khatib, Pseudo-strain-hardening crack width of weldmesh ferrocement ‘Microstructure, chloride diffusion and fibre-reinforced cement composites, 23 under cyclic loading’, 107-114 reinforcement corrosion in blended HPFRC, 131 Slag cement paste and concrete’, 73-81 effect on corrosion resistance, 253-60 Moment-curvature relationships in Ravindrarajah, R. Sri, 153r see also Blast-furnace slag steel-concrete composite beams, 264 Ravindrarajah, R. Sri and Tuck, Soroushian, Parviz, Shah, Won and Municipal wastewater sludge as ‘Properties of hardened concrete Hsu, ‘Durability and moisture cementitious and blended cement sensitivity of recycled containing treated expanded polystyrene materials, 39-48 wastepaper-fiber-cement composites’, beads’, 273-277 Murugappan, K., Paramasivam and 115-128 Ray, Indrajit, Gupta and Biswas, Tan, ‘Constitutive relation for steel ‘Effect of latex and superplasticiser on Sorrentino, D., Criaud, Defossé, fibre concrete under biaxial Portland cement mortar in the fresh Chabanis, Debray, Michel, Gallias, compression’, 9-14 state’, 309-316 Salomon, Guédon and Le Roux, ‘The Reinforced concrete French standard methods for evaluating Nanni, Antonio, 65r corrosion resistance of reinforcing the reactivity of aggregates with respect Neural networks, 295-7 bars, 253-60 to AAR’, 199-206 Non-destructive testing, lightweight effect of steel fibre, 299-307 Soukatchoff, P., Glinicki, Vautrin and concrete beams, 49 flexural behaviour of T-beams, Frangois-Brazier, ‘Plate impact testing 143-52 method for GRC materials’, 241-25] shrinkage, 299-307 Spadea, G., Porco and Zinno, ‘Finite Ohta, Minoru, Saito and Ishimori, Reinforcing bars element analysis and parametric study ‘Chloride permeability of concrete bond behaviour, 129-41 of steel-concrete composite beams’, subjected to freeze-thaw damage’, corrosion resistance, 253-60 261-272 233-239 Reliability analysis, CFRC composites, Steel-concrete composite beams, finite Ong, K.C.G., Paramasivam and Lim, 19 element analysis, 261-72 ‘Ferrocement laminates for Richards, M.R., Robins and Austin, Steel fibre, effect on shrinkage, strengthening RC T-beams’, 143-152 ‘The resistance of steel fibre concrete 299-307 Ong, Shaode and Diamond, ‘Effects of to VTOL engine jet blast’, 57-64 Steel fibre concrete added alkali hydroxides in mix water Robins, P.J., Austin and Richards, ‘The biaxial compression, 9-14 on long-term SO concentrations in resistance of steel fibre concrete to compressive strength, 9-14 pore solution’, 219-226 VTOL engine jet blast’, 57-64 resistance to VTOL engine jet blast, Rubberized concrete, strength 57-64 Palomo, A., Amat and Blanco, ‘Acrylic measurement and prediction, 287-98 stress-strain relation, 9-14 fibres as reinforcement for cement Sabir, B.B., ‘The use of Stress distribution, finite element pastes’, 31-37 compression-splitting tests in evaluating analysis, 85 Paolini, A.E., Berra and Mangialardi, the fracture toughness of concrete’, Stress intensity factors, determination of, ‘Application of the NaOH bath test 83-91 87 method for assessing the effectiveness Saito, Mitsuru, Ohta and Ishimori, Stress-strain curve, rubberized concrete, of mineral admixtures against reaction ‘Chloride permeability of concrete 292 of alkali with artificial siliceous subjected to freeze-thaw damage’, Stress-strain relation, steel fibre aggregate’, 207-218 233-239 concrete, 9-14 322 Index Sufen, Han, Mingshu and Xianghui, alkali reactivity of aggregates, 169 Water absorption, ‘Autoclave method for identification of alkali reactivity of sands, 177-88 banana-fibre-reinforced cement alkali-reactive carbonate rocks’, chemical dissolution test, 205 composites, 7 163-167 chemical durability, 33 Watson, Kimberly A.., Sugama, T. and Taylor, ‘Interfacial and compression-splitting tests, 83-91 Krstulovic-Opara and LaFave, ‘Effect mechanical behavior of fiber- concrete prism expansion, 205 of increased tensile strength and reinforced calcium phosphate cement impact, 241-51 toughness on reinforcing-bar bond composites’, 93-106 JIS A 1804, 169 behavior’, 129-141 Superplasticiser, effect on Portland lightweight concrete beams, 49 Weldmesh ferrocement under cyclic cement mortar, 309-16 mortar bar expansion, 205, 207-18 loading, crack space and crack width, Swamy, R.N., 227r mortar bar test, 178 107-14 NaOH bath test, 207-18 Won, Jong-Pil, Soroushian, Shah and reactivity of carbonate rocks, 163-7 Hsu, ‘Durability and moisture Tamura, Hiroshi, Kishitani and reinforcing-bar pull-out tests, 129 sensitivity of recycled Kobayashi, ‘The rapid test JIS A 1804’, slump test, 288 wastepaper-fiber-cement composites’, 169-175 Tobias, B.C., Coutts, Langfors and Zhu, 115 Tan, K.H., Murugappan and ‘Air-cured banana-fibre- reinforced Workability of rubberized concrete, 289 Paramasivam, ‘Constitutive relation for cement composites’, 3-8 Wu, Hwai-Chung and Li, ‘Trade-off steel fibre concrete under biaxial Torii, Kazuyuki and Kawamura, ‘Pore between strength and ductility of compression’, 9-14 structure and chloride ion permeability random discontinuous fiber reinforced Tay, Joo-Hwa and Show, ‘Municipal of mortars containing silica fume’, cementitious composites’, 23-29 wastewater sludge as cementitious and 279-286 blended cement materials’, 39-48 Toutanji, Houssam A., El-Korchi and X-ray diffraction analysis, 279-86 Taylor, M. and Sugama, ‘Interfacial Katz, ‘Strength and reliability of X-ray photoelectron spectroscopy and mechanical behavior of fiber- carbon-fiber-reinforced cement (XPS), 95 reinforced calcium phosphate cement composites’, 15-21 Xianghui, Lan, Mingshu and Sufen, composites’, 93-106 Tuck, A.J. and Ravindrarajah, ‘Autoclave method for identification of Tensile resistance, acrylic fibres, 32 ‘Properties of hardened concrete alkali-reactive carbonate rocks’, Tensile strength containing treated expanded polystyrene 163-167 carbon-fibre-reinforced composites, beads’, 273-277 Xiong, G.J. and Singh, ‘Crack space 18 and crack width of weldmesh fibre-reinforced cement composites, ferrocement under cyclic loading’, 23 Vautrin, A., Glinicki, Soukatchoff and 107-114 polystyrene aggregate concrete, 275 Frangoise-Brazier, ‘Plate impact testing rubberized concrete, 291 method for GRC materials’, 241-251 Zhu, W.H., Tobias, Coutts and Test methods VTOL aircraft engine jet blast, 57 Langfors, ‘Air-cured banana-fibre- AASHTO 1277, 233 reinforced cement composites’, 3-8 AASHTO 1277-831, 279-86 Zinno, R., Porco and Spadea, ‘Finite accelerated mortar bar test, 179 Wastepaper-fibre-cement composites, element analysis and parametric study alkali-aggregate reactivity, 16le, durability and moisture sensitivity, of steel-concrete composite beams’, 189-98, 199-206 115-28 261-272 — — — — S S —

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Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.