Table of Contents
-PROPERTIES OF HIGH-VOLUME FLY ASH CONCRETE
MADE WITH HIGH-EARLY STRENGTH ASTM TYPE III
CEMENT by A. Bilodeau and V. M. Malhotra
-STRUCTURAL CONCRETE INCORPORATING HIGH
VOLUME OF FLY ASH by D. Galeota, M. M. Giammatteo,
and R. Marino
-USING MEDIUM- TO HIGH-VOLUME FLY ASH BLENDED
CEMENTS TO IMPROVE THE SULFATE
-RESISTANCE OF HIGH-LIME FLY ASH CONCRETE by
J. R. Prusinski and R. L. Carrasquillo
-PROCESSED FLY ASH FOR HIGH PERFORMANCE
CONCRETE by H. A. W. Cornelissen, R. E. Hellewaard,
and J. L. J. Vissers
-EFFECT OF FLY ASH COMPOSITION ON THERMAL
CRACKING IN CONCRETE by M. D. A. Thomas,
P. K. Mukherjee, J. A. Sato, and M. F. Everitt
-A MODEL FOR PREDICTING THE COMPRESSIVE
STRENGTH OF STRUCTURAL FLY ASH CONCRETE,
by F. de Larrard
-LONG-TERM PERFORMANCE OF GROUT CONTAINING
FLY ASH AND BRINE by A. A. Al-Manaseer and M. D. Haug
-PROPERTIES OF MORTAR MIXTURES CONTAINING
HIGH AMOUNTS OF VARIOUS SUPPLEMENTARY
CEMENTITIOUS MATERIALS by C. Talbot, M. Pigeon,
J. Marchand, and H. Hornain
-PRODUCTION OF SULFATE-RESISTANT CONCRETE
CONTAINING HIGH-CALCIUM FLY ASH AND SODIUM
SULFATE ADMIXTURE by R. B. Freeman and R. L. Carrasquillo
-INFLUENCE OF PARTICLE SIZE DISTRIBUTION ON
THE EFFECTIVENESS OF TYPE-F FLY ASH IN
SUPPRESSING EXPANSION DUE TO ALKALI-SILICA
REACTIVITY by M. A. Berube, A. Carles-Gibergues,
J. Duchesne, and P. Naproux
-EXPANSIVE CEMENT PRODUCED FROM AFBC ASH
BY ALKALI SULPHATE ACTIVATION APPROACH by
W. Jiang and D. M. Roy
-ACTIVE B-C2S CEMENT FROM FLY ASH AND KILN DUST
by A. Xu and S. L. Sarkar
-THE INFLUENCE OF HIGH EARLY STRENGTH (HES)
MINERALIZED CLINKER ON THE STRENGTH DEVELOPMENT
OF BLENDED CEMENTS CONTAINING FLY ASH, SLAG OR
GROUND LIMESTONE by S. Kelham, J. S. Damtoft, and
B. L. O. Talling
-MIXTURE PROPORTIONING FOR HIGHLY-FLOWABLE
CONCRETE INCORPORATING LIMESTONE POWDER
by K. Sakata, T. Ayano, and A. Ogawa
-PROPERTIES OF LIGHTWEIGHT AGGREGATE PRODUCED
FROM A HIGH CALCIUM FLY ASH by G. Baykal, T. Ozturan,
M. Savas, and K. Z. Ramadan
-FIVE-YEAR EXPOSURE TEST ON LONG-TERM PROPERTIES
OF CONCRETES CONTAINING FLY ASH, BLAST-FURNACE
SLAG AND SILICA FUME by T. Sasatani, K. Torii, and M.
Kawamura
-MOVEMENT OF IONS THROUGH MORTAR MIXED WITH
MINERAL ADMIXTURES by N. Otsuki, S. Nagataki, and
M. Hisada
-PROPERTIES OF CONCRETE WITH BAGASSE ASH AS FINE
AGGREGATE by B. K. Baguant
-MECHANICAL TREATMENT OF FLY ASHES: STRENGTH
EVELOPMENT AND WORKABILITY OF MORTARS CONTAINING
GROUND FLY ASHES by J. Monzo, J. Paya, E. Peris-Mora, and
M. V. Borrachero
-INFLUENCE OF FINENESS AND SOLUBLE SILICA CONTENT
OF FLY ASHES ON THEIR STRENGTH DEVELOPMENT WITH
RESPECT TO AGE by R. V. Ranganath, R. C. Sharma, and
S. Krishnamoorthy
-IMPROVEMENT OF CHARACTERISTICS OF ROLLER
COMPACTED CONCRETE BY CLASSIFIED FLY ASH by
T. Fukute, K. Nakano, and M. Ishii
-CLASS C FLY ASH AS A SHRINKAGE REDUCER FOR
CEMENT PASTE by S. Tangtermsirikul, T. Sudsangiam,
T. Deesawangnade, and P. Nimityongskul
-CONSTRUCTION EXPERIENCE WITH CLSM FLY ASH
SLURRY FOR UNDERGROUND FACILITIES by B. W. Ramme,
T. R. Naik, and H. J. Kolbeck
-A STRENGTH DEFINITION FOR THE WATER-TO-CEMENT
MATERIALS RATIO by A. Hassaballah and T. H. Wenzel
-UTILIZATION OF FLY ASH IN THE DEVELOPMENT OF A
COST-EFFECTIVE CEMENTITIOUS PRODUCT by S. L. Sarkar,
A. Kumar, D. K. Das, and G. Banerjee
-MORPHOLOGY AND SELECTED PROPERTIES OF FLY ASH
by P. K. Rohatgi, P. Huang, R. Guo, B. N. Keshavaram, and
D. Golden
-COMPARATIVE TESTING OF PORTLAND CEMENT, FLY ASH,
GROUND GRANULATED BLAST FURNACE SLAG AND SILICA
FUME CONCRETES FOR POTENTIAL DURABILITY by
P. C. Taylor, P. E. Streicher, G. Goch, and L. Fliss
-HEAT TREATMENT OF FINE-GRAINED CEMENTLESS
CONCRETE BASED ON HIGH-CALCIUM FLY ASH AND SLAG
FROM THERMAL POWER PLANTS by S. I. Pavlenko
-USE OF FLY ASH, BLAST FURNACE SLAG AND CHEMICAL
GYPSUM FOR THE SYNTHESIS OF CALCIUM
SULFOALUMINATE-BASED CEMENTS by G. Belz, J. Beretka,
M. Marroccoli, L. Santoro, N. Sherman, and G. L. Valenti
-MEXICAN NATURAL POZZOLANS AND THE EVALUATION
OF THE SPECIFICATIONS RELATED TO THEIR USE by
R. Uribe-Afif and R. E. Rodriguez-Camacho
-RUBBER ADDED FLY ASH FOR UNDERGROUND
PETROLEUM TANKS by G. Baykal and K. Koprulu
-EFFECTIVENESS OF FLY ASH IN REDUCING EXPANSION
OF CONCRETE MADE WITH REACTIVE AGGREGATES FROM
NEW BRUNSWICK, CANADA by B. Fournier, W. S. Langley,
and V. M. Malhotra
-PERFORMANCE OF CONCRETES INCORPORATING
VARIOUS FORMS OF SILICA FUME by J. Wolsiefer, Sr.,
V. Sivasundaram, V. M. Malhotra, and G. G. Carette
-EFFECTIVENESS OF SUPPLEMENTARY CEMENTING
MATERIALS IN CONTROLLING CHLORIDE PENETRATION
INTO CONCRETE by R. N. Swamy and J. C. Laiw
-ENSURING HIGH QUALITY SILICA FUME CONCRETE
OVERLAYS by C. Ozyildirim
-STRAIN RATE SENSITIVITIES OF STRENGTH AND
DEFORMATION OF HIGH-STRENGTH SILICA FUME
CONCRETE by N. Han and J. C. Walraven
-NONEVAPORABLE WATER AND DEGREE OF CEMENT
HYDRATION IN SILICA FUME - CEMENT SYSTEMS by
E. H. Atlassi
-SURFACE AND COLLOIDAL PROPERTIES OF SILICA FUMES
IN AQUEOUS MEDIUM by Q. Chu, S. Bonnamy, and
H. Van Damme
-INFLUENCE OF HIGH SILICA FUME AND HIGH FLY ASH
CONTENTS ON ALKALINITY OF PORE SOLUTION AND
PROTECTION OF STEEL AGAINST CORROSION by U. Wiens,
W. Breit, and P. Schiessl
-MOISTURE DIFFUSIVITY OF FIBER REINFORCED SILICA
FUME MORTARS by E. Danarie and Y. F. Houst
-MANUFACTURE OF HIGH-STRENGTH AERATED CONCRETE
CONTAINING SILICA FUME by H. Fujiwara, E. Sawada, and
Y. Ishikawa
-SULFATE RESISTANCE OF MORTARS CONTAINING SILICA
FUMES AS EVALUATED BY DIFFERENT METHODS by
A. Yeginobali and F. T. Dilek
-HIGH REACTIVITY METAKAOLIN (HRM) FOR HIGH
PERFORMANCE CONCRETE by M. A. Caldarone and
K. A. Gruber
-THE INFLUENCE OF SILICA FUME ON THE HEAT OF
HYDRATION OF PORTLAND CEMENT by M. I. Sanchez de Rojas
and M. Frias
-STUDIES ON FERROCEMENT CONTAINING SILICA FUME
by M. Tamai and T. Takaya LONG-TERM PERFORMANCE OF
SILICA FUME CONCRETES IN THE USA EXPOSED TO
ABRASION-EROSION OR CAVITATION - WITH 10-YEAR
RESULTS FOR KINZUA DAM AND LOS ANGELES RIVER by
M. D. Luther and W. Halczak
-THE DURABILITY OF CONCRETES MADE WITH BLENDS OF
HIGH-ALUMINA CEMENT AND GROUND GRANULATED BLAST
FURNACE SLAG by G. J. Osborne and B. Singh
-BLAST FURNACE SLAG AGGREGATE IN THE PRODUCTION
OF HIGH-PERFORMANCE CONCRETE by M. N. Haque,
O. A. Kayyali, and B. M. Joynes
-EFFECTS OF FLY ASH, BLAST FURNACE SLAG AND
SILICA FUME ON RESISTANCE OF MORTAR TO CALCIUM
CHLORIDE ATTACK by K. Torii, T. Sasatani, and M. Kawamura
-EFFECTS OF HIGH FINENESS AND LARGE AMOUNTS OF
GROUND GRANULATED BLAST FURNACE SLAG ON
PROPERTIES AND MICROSTRUCTURE OF SLAG CEMENTS
by T. Tomisawa and M. Fujii
-EFFECT OF TEST PROCEDURES ON THE ASSESSMENT
OF THE SULFATE RESISTANCE OF SLAG CEMENTS by
J. P. H. Frearson and D. D. Higgins
-UTILIZATION OF LOW HEAT CEMENT WITH HIGH CONTENT
OF FINELY GROUND BLAST FURNACE SLAG FOR HIGH
STRENGTH CONCRETE by M. Iwai, A. Takagi, T. Mizobuchi,
and Y. Nobuta
-EFFECTIVENESS OF GRANULATED BLAST FURNACE
SLAG IN PREVENTING ALKALI-SILICA REACTION by
D. D. Higgins and M. D. Connell
-EFFICIENCY OF FINELY GROUND BLAST FURNACE SLAGS
IN HIGH-STRENGTH MORTARS by Y. Ohama, J. Madej, and K.
Demura
-A STUDY OF THE PROPERTIES OF PORTLAND
CEMENT INCORPORATING SILICA FUME AND BLAST
FURNACE SLAG by S. Nagataki and C. Wu
-EFFECT OF BLAST FURNACE SLAG IN REDUCING
EXPANSION DUE TO ALKALI-SILICA REACTION IN
CONCRETE by T. Wang, S. Nishibayashi, K. Nakano,
and Q. Bian
-EFFECT OF HEAVY METALS IMMOBILIZATION ON THE
PROPERTIES OF ALKALI ACTIVATED SLAG MORTARS
by J. Malolepszy and J. Deja
-PROPERTIES OF MORTAR AND CONCRETE USING
RED MUD AND FINELY GROUND SILICA by K. Kohno,
K. Amo, Y. Ogawa, and M. Gyotoku
-A STUDY OF STRENGTH DEVELOPMENT AND
CARBONATION OF CONCRETE INCORPORATING
HIGH VOLUME BLAST FURNACE SLAG by J. Nakamoto
and K. Togawa
-FLY ASH AND SLAG JET-BLAST RESISTANT
CONCRETES by P. J. Robins and S. A. Austin
-CHEMICAL ACTIVATION OF LIME-SLAG BLENDS by
C. Shi and R. L. Day
-SMALL-ANGLE SCATTERING STUDY OF CONCRETE
MICROSTRUCTURE AS A FUNCTION OF SILICA FUME,
FLY ASH OR OTHER POZZOLANIC ADDITIONS by
A. J. Allen and R. A. Livingston