| Author (s) | Title |
| C.A. Rogers | Alkali-Aggregate Reactions in Ontario |
P. Albert
S. Raphael | Alkali-Silica Reactivity in the Beauharnois Power-Houses, Beauharnois |
E.R Magni
C.A Rogers
P.E. Gratten-Bellow | The Influence of the Alkali-Silica Reaction on Structures in the Vicinity of Sudbury, Ontario |
B. Fournier
M.A. Berube D. Vezina | Investigation of the Alkali-reactivity Potential of Limestone Aggregates from the Quebec City Area (Canada) |
B. Durand
J. Berard
J.A. Soles | Comparison of the Effectiveness of Four Mineral Admixtures to Counteract Alkali-Aggregate Reaction |
P.K. Mukherjee
J.A. Bickley | Performance of Glass as Concrete Aggregates |
N. Tenoutasse
A.M. Marion | Influence of Fly Ash in Alkali-Aggregate Reaction |
C. Yamamoto
M. Makita
Y. Moriyama
S. Numata | Effect of Ground Granulated Blast Furnace Slag Admixture, and Granulated or Air-cooled Blast Furnace Slag Aggregate on Alkali-Aggregate Reactions and Their Mechanisms |
J. Farbiarz
R.L. Carrasquillo
P.C. Snow | Alkali-Aggregate Reaction in Concrete Containing Fly Ash |
R.E. Oberholster
G. Davies | The Effect of Mineral Admixtures on the Alkali-Silica Expansion of Concrete Under Outdoor Exposure Conditions |
F.R. Andriolo
B.C. Sgaraboza | The Use of Pozzolan from Calcined Clays in Preventing Excessive Expansion Due to the Alkali-Aggregate Reaction in Some Brazilian Dams |
N. Tenoutasse
A.M. Marion | The Influence of Silica Fume in Alkali-Aggregate Reactions |
Z.Y. Cal
W. Qin | Chinese Experience in the Use of ASTM Method |
J.A. Soles
V.M. Malhotra
R.W. Suderman | The Role of Supplementary Cementing Materials in Reducing the Effects of Alkali-Aggregate Reactivity: Canmet Investigations |
M.S.Y. Bhatty
N.R. Greening | Some Long Time Studies of Blended Cements with Emphasis on Alkali-Aggregate Reaction |
C. Perry
R.L. Day
R.C. Joshi
B.W. Langan
J.E. Gillott | The Effectiveness of Twelve Canadian Fly Ashes in Suppressing Expansion Due to Alkali-Silica Reaction |
| E.C. Robert | The Influence of Pulverised Fuel Ash on A.S.R., Behavioural Differences Between Mortars Containing Pyrex Glass and Beltane Opal |
| D.F. Factor | Inhibition of Alkali-Silica Reaction by Nonpozzolanic Mechanisms |
P.J. Nixon
I. Canham
C.L. Page
R. Bollinghaus | Sodium Chloride and Alkali-Aggregate Reaction |
S. Chatterji
N. Thaulow
A.D. Jensen
P. Christensen | Mechanisms of Accelerating Effects of NaCl and Ca(OH)2 on Alkali-Silica Reaction |
G.E. Blight
M.G. Alexander | Assessment of AAR Damage to Concrete Structures |
M. Fuji
K. Kobayashi
T. Kojima
H. Maehara | The Static and Dynamic Behavior of Reinforced Concrete Beams with Cracking Due to Alkali-Silica Reaction |
H. Imai
T. Yamasaki
H. Maehara
T. Miyagawa | The Deterioration by Alkali-Silica Reaction of Hanshin Expressway Concrete Structures—Investigation and Repair |
A.B. Poole
S. Rigden
L. Wood | The Strength of Model Columns Made with Alkali-Silica Reactive Concrete |
W. Koyanagi
K. Rokugo
H. Ishida | Failure Behavior of Reinforced Concrete Beams Deteriorated by Alkali-Silica Reactions |
| T.S. Thorsen | Alkali-Silica Reactions in Reinforced Concrete Beams with Particular Reference to Bearing Capacity |
| J. Figg | ASR—Inside Phenomena and Outside Effects (Crack Origin and Pattern) |
J.G.M. Wood
J.S. Young
D.E. Ward | The Structural Effects of Alkali-Aggregate Reaction on Reinforced Concrete |
J. Houde
P. Lacroix
M. Momeau | Rehabilitation of Railway Bridge Piers Heavily Damaged by Alkali-Aggregate Reaction |
| A.J.C.T. Cavalcanti | Alkali-Aggregate Reaction at Moxoto Dam, Brazil |
P.J. Nixon
P. Gillson | An Investigation into Alkali-Silica Reaction in Concrete Bases at an Electricity Substation at Drake Low Power Station, England |
J.G.M. Wood
A. Johnson
P. Norris | Management Strategies for Buildings and Bridges Subject to Degradation from Alkali-Aggregate Reaction |
T. Akashi
S. Amasak
N. Takagi
M. Tomita | The Estimate for Deterioration Due to Alkali-Aggregate Reaction by Ultrasonic Methods |
H.C. Visvesvaraya
C. Rajkumar
A.K. Mullick | Analysis of Distress Due to Alkali-Aggregate Reaction in Gallery Structures of a Concrete Dam |
| A. T. Vanderstraeten | Repair of Alkali-Aggregate Reaction Damage to the Motorway Structures of the Pell Street Interchange, Port Elizabeth, Republic of South Africa |
| G.E. Hoppe | Rehabilitation of an Arch Bridge |
Y. Mizumoto
K. Kosa
K. Ono
K. Nakano | Study on Cracking Damage of a Concrete Structure Due to Alkali-Silica Reaction |
P.J. Strauss
O. Schnitter | Rehabilitation of a Portland Cement Concrete Pavement Cracked by Alkali-Aggregate Reaction |
| K. Okada | Present Situation of Alkali-Aggregate Reaction in Japan |
| B. Penkala | Alkali-Aggregate Reactivity Investigations in Poland—A Review |
| W.J. French | A Review of Some Reactive Aggregates from the United Kingdom with Reference to the Mechanism of Reaction and Deterioration |
| M. Berra | The Potential Alkali-Aggregate Reactivity in Italy: Comparison of Some Methods to Test Aggregates and Different Cement-Aggregate Combinations |
| G. Baronio |
| D.A. St. John | New Zealand’s Approach to Evaluating the Alkali-Aggregate Problem |
C. Cmilijanic
M. Rsumovic | Study of Potential Alkali-Silicate Reactivity of Aggregate from Fluvial Deposits in Serbia (Yugoslavia) |
A. Shayan
R. Diggins
D. F. Ritchie
P. Westgate | Evaluation of Western Australian Aggregates For evaluation of Western Australian Aggregates for Alkali-Reactivity in Concrete |
| H.Y. Xu M. Chen | AAR in Chinese Engineering Practices |
| C.A. Rogers | Testing Canadian Aggregates for Alkali Reactivity |
K. Kishitani
S. Nishibayashi
S. Morinaga | Response of JCI to Alkali-Aggregate Reaction Problem—Guideline for Determining Potential Alkali Reactivity |
| C.A. Rogers | Interlaboratory Study of the Concrete Prism Expansion Test for the Alkali Carbonate Reaction |
M. Tang
Z. Liu
S. Han | Mechanism of Alkali-Carbonate Reaction |
P.E. Gratten-Bellow
P.J. Lefebvre | Effect of Confinement on Deterioration of Concrete Effect of Confinement on Deterioration of Concrete Made with Alkali-Carbonate Reactive Aggregate |
M. Tang
Y. Liu | Rapid Method for Determining the Alkali Reactivity of Carbonate Rock |
| T. Knudsen | A Continuous, Quick Chemical Method for the Characterization of the Alkali-Silica Reactivity of Aggregates |
M. Tang
S. Han
S. Zhen
M. Yuan
Y. Ye
Y. Lu | Applications of Autoclave Rapid Test Method in Practical Engineering Projects in China |
S. Nishibayashi
K. Yamura
H. Matsushita | A Rapid Method of Determining the Alkali-Aggregate Reaction in Concrete by Autoclave |
| H. Tamura | A Test Method on Rapid Identification of Alkali Reactivity Aggregate (GBRC Rapid Method) |
G. Baronio
M. Berra
A. Bachiorrini
A. Delmastro
L. Montanaro | Infrared Spectroscopy in the Evaluation of Aggregates in A.S.R. Deteriorated Concretes from Many Parts of the World: Comparison with Other Methods |
Y. Yoshioka
H. Kasami
S. Ohno
Y. Shinozaki | Study on a Rapid Test Method for Evaluating the Reactivity of Aggregates |
J.F. Scott
C.R. Duggan | Potential New Test for Alkali-Aggregate Reactivity |
R.N. Swamy
M.M. Al Asali | New Test Methods for Alkali-Silica Reaction |
Y. Wakizaka
I. Hirano
K. Kuwahara
M. Makita | Characteristics of Aggregates in Concrete and Alkali-Silica Reactions in Japan |
| D.S. Lane | Long-Term Mortar-Bar Expansion Tests for Potential Alkali-Aggregate Reactivity |
| D.W. Hobbs | Some Tests on Fourteen Year Old Concrete Affected by the Alkali-Silica Reaction |
K. Okada
T. Agawa
M. Adachi
K. Takahshi | Alkali-Aggregate Reaction: A Study on Causative Factors |
| R.D. Hooton | Effect of Containers on ASTM C441—Pyrex Mortar Bar expansions |
| I. Sims | The Importance of Petrography in the ASR Assessment of Aggregates and Existing Concretes |
| R.E. Oberholster | Results of an International Inter-Laboratory Test Program to Determine the Potential Alkali Reactivity of Aggregates by the ASTM C227 Mortar Prism Method |
M. Regourd
H. Hornain | Microstructure of Reaction Products |
A.K. Mullick
G. Samuel | Reaction Products of Alkali-Silica Reaction—A Microstructural Study |
J.T. Iiyama
M. Kusano
Y. Tokunaga | Evolution of the Petrographic Textures of Concretes Suffering Alkali-Aggregate Reactions |
A. Shayan
C.J. Lancucki | Alkali-Aggregate Reaction in the Causeway Bridge, Perth, Western Australia |
K. Kodama
T. Nishino | Observation Around the Cracked Region Due to Alkali-Aggregate Reaction by Analytical Electron Microscope |
| C. Cmilijanic | Investigations of Development and Products of Alkali-Silicate Reaction in Concrete |
| M. Rsumovic |
A. Giovambattista
O.R. Batic
L.P. Traversa | Reactivity of Alkalis and Sandstones Cemented with Opal and Chalcedony |
| I. Al-Dabbagh | Flint Characteristics and Alkali-Silica Reactivity |
| A.D. Buck | Petrographic Criteria for Recognition of Alkali-Reactive Strained Quartz |
| H.E. Vivian | The Reactivities of Fine-Grained Quartz in Rapid Tests and in Concrete |
A.K. Mullick
R.C. Wason
S.K. Sinha
L.H. Rao | Evaluation of Quartzite and Granite Aggregates Containing Strained Quartz |
| P.E. Gratten-Bellow | Is High Undulatory Extinction in Quartz Indicative of Alkali-Expansivity of Granitic Aggregates? |
| J. Krell | Influence of Mix Design on Alkali-Silica Reaction in Concrete |
| T.N. Jones | Alkali-Silica Reaction in Several U.K. Concretes: The Effect of Temperature and Humidity on Expansion, and the Significance of Ettringite Development |
| A.B. Poole |
| H. Xu | On the Alkali Content of Cement in AAR |
| A.F. Inderwick | Should Acid Soluble Sodium Equivalent Alkali be the Measure of Potential Portland Cement Reactivity? |
| H. Olafsson | The Effect of Relative Humidity and Temperature on Alkali Expansion of Mortar Bars |
K. Natesaiyer
K.C. Hover | Investigation of Electrical Effects on Alkali-Aggregate Reaction |
M. Makita
S. Kobayashi
H. Kawano
Y. Ishii | Tentative Guideline of Ministry of Construction for ASR Mortar Bar Method |
| C.D. Johnston | Alkali-Silica Reactivity in Concrete—Importance of Cement Content and Alkali Equivalent |
O.R. Batic
C.R. Cortelezzi
J.D. Sota
P.J. Maiza
R. Pavlicevic
R. Iasi | Behaviour of Volcanic Glasses Reacting with Portland Cement Alkali |
T. Katayama
Y. Kaneshige | Diagenetic Changes in Potential Alkali-Aggregate Reacivity of Volcanic Rocks in Japan—A Geological Interpretation |
Y. Yamamoto
A. Akiyama | Alkali Reactivity of Ferro-Nickel Slags for Concrete Aggregate |
