Author(s) |
Title |
S. Medeiros
T. Katayama
V. Zanon
I. Fernandes
A.S. Silva
J.C. Nunes
V. Miranda
V. Ramos
D. Soares |
Assessment of the Potential Alkali-Reactivity of Volcanic Aggregates from Azores Islands |
V. Ramos
I. Fernandes
A.S. Silva
D. Soares
F. Noronha |
Petrographic Characterization vs. Laboratory Test Methods Applied to Granitic Aggregates |
J. Lindgård
T.F. Rønning
M.D.A. Thomas |
Development of an ASR Performance Test: Preliminary Results form a PhD Study |
J. Lindgård
M. Haugen
N. Castro
M.D.A. Thomas |
Advantages of Using Plane Polished Section Analysis as Part of Microstructural Analyses to Describe Internal Cracking Due to Alkali-Silica Reactions |
S. Warner
J.H. Ideker
K. Schumacher |
Alkali-Silica Reactivity and the Role of Alumina |
F. Locati
S. Marfil
P. Maiza
E. Baldo |
Characterization of ASR Products in a 40-Year-Old Highway Province of Córdoba, Argentina |
G.M. Ahlstrom |
The United States Federal Highway Administration’s Alkali-Silica Reactivity Development and Deployment Program |
J,F, Seignol
B. Godart |
A Collective Effort to Propose Practical Guidance on the Use of Numerical Models to Re-Assess AAR-Affected Structures |
J.F. Seignol
O. Omikrine-Metalssi
N. Baghdadi
F. Toutlemonde |
From AAR to DEF: Numerical Modeling of Structures Affected by Expansive Reactions in Concrete |
B. Godart
I. Sims
P. Nixon
B. Capra
M. de Rooij
J. Wood |
The Rilem Guidance on Appraisal and Management of Structures Damaged by AAR |
S. Abdullah
A. Shayan
R. Al-Mahaidi |
Strain Monitoring of CFRP Wrapped RC Columns Damaged by Alkali Aggregate Reaction |
S. Marfil
O. Batic
P. Maiza |
Petrography of Potentially Alkali-Reactive Sandstone from Argentina |
K. Torii
I. Prasetia
T. Minato
K. Ishii |
The Feature of Cracking in Prestressed Concrete Bridge Girders Deteriorated by Alkali-Silica Reaction |
T. Daidai
O. Andrade
K. Torii |
The Maintenance and Rehabilitation Techniques for ASR-Affected Bridge Piers with Fracture of Steel Bars |
T. Habuchi
K. Torii |
Corrosion Characteristics of Reinforcement in Concrete Structures Subject to ASR and Seawater Attack in Marine Environment |
S. Inoue
Y. Mikata
Y. Takashi
K. Inamasu |
Residual Shear Capacity of ASR Damaged Reinforced Concrete Beams with Ruptured Stirrups |
R.P. Martin
C. Bazin
F. Toutlemonde |
Alkali Aggregate Reaction and Delayed Ettringite Formation: Common Features and Differences |
R.P. Martin
J.C. Renaud
S. Multon
F. Toutlemonde |
Structural Behavior of Plain and Reinforced Concrete Beams Affected by Combined AAR and DEF |
O. Andiç-Çakır
O. Çopuroğlu
T. Katayama |
A Review of Alkali-Silica Reactivity in Turkey: A Case Study from Izmir, West Anatolia |
A. Giorla
C. Dunant
A. Guidoum
K. Scrivener |
Experimental and Numerical Study of Alkali-Silica Reaction Under Multi-Axial Load |
Y. Mikata
Y. Shimazu
Y. Hatano
S. Inoue |
Flexural and Shear Capacity of PRC Beams Damaged by Combined Deterioration Due to ASR and Corrosion |
C. Rogers
C.A. MacDonald |
The Geology, Properties and Field Performance of Alkali-Aggregate Reactive Spratt, Sudbury and Pittsburg Aggregate Distributed by the Ontario Ministry of Transportation |
D. Bulteel |
Threshold Effect of LiOH, LiCl or LiNO3 on Alkali-Silica Reaction |
A. Dressler
L. Urbonas
D. Heinz |
Effect of Alkali Ingress and Binder Composition on Damaging ASR |
P. Droz
J.F. Seignol
R. Leroy
L. Boldea |
Strategy for the Rehabilitation of Salanfe Dam |
C.F. Dunant
E.C. Bentz |
The Effect of Multi-Axial Restraint on ASR-Affected Concrete |
X.X. Gao
S. Multon
M. Cyr
A. Sellier |
Contribution to the Requalification of Alkali-Silica Reaction (ASR) Damaged Structures: Assessment of the ASR Advancement in Aggregates |
X.X. Gao
S. Multon
M. Cyr
A. Sellier |
Scale Effect of Alkali-Silica Reaction (ASR) Expansion |
A. Leemann
C. Merz |
Comparison Between AAR-Induced Expansion Determined with an Ultra-Accelerated Microbar Test and a Concrete Performance Test |
A. Leemann
C. Merz |
An Attempt to Validate the Concrete Performance Test with the Degree of AAR-Induced Damage Observed in Concrete Structures |
A. Leemann |
Alkali-Silica Reaction Autogenous Deformations and Pressure Development in a Model System |
A. Leemann
C. Merz |
Assessment of the Residual Potential of Concrete from Structures Damaged by AAR |
M. Nomura
A. Komatsubara
M. Kuroyanagi
K. Torii |
Evaluation of the Residual Expansivity of Cores Due to Alkali-Silica Reaction in Hokuriku District, Japan |
A.A. Ramezanianpour
S. Hajighasemali |
Flexural Strength of ASR Affected Beams Under Sustained Loading |
A.A. Ramezanianpour
M. Shafikhani |
ASR Test Methods Evaluation for Concretes Containing Natural Pozzolans |
C. Anaç
R. Esposito
O. Çopuroğlu
E. Schlangen
M.A.N. Hendriks |
A Tool for Concrete Performance Assessment for ASR Affected Structures: An Outlook |
N. Castro
B.J. Wigum
M.A.T.M. Brockmans |
Deleterious Alkali-Aggregate Reaction in Concrete: Relationship Between Mineralogical and Microstructural Characteristics of Aggregates Versus Expansion Tests |
P.E. Grattan-Bellew |
Petrographic Methods Foe Distinguishing Between Alkali-Silica, Alkali-Carbonate Reactions and Other Mechanisms of Concrete Deterioration |
Y. Kubo
M. Nakata |
Effect of Types of Reactive Aggregate on Mechanical Properties of Concrete Affected by Alkali-Silica Reaction |
T. Niina
S. Matsumoto
Y. Hisari
D. Murahashi
T. Miyagawa |
Fundamental Study for Controlling ASR Expansion by Silane Penetrant System |
T. Miyagawa
T. Yokoyama
H. Yonekawa
T. Mita
K. Nakamura
T. Ookubo |
Strengthening Effect on Prestressed Concrete Members Affected by Alkali-Silica Reaction (ASR) |
K. Utsunomiya
H. Uenakada
K. Sakiya
T. Niina
Y. Adachi |
Cracking Behavior and Deterioration Suppression Effect of Protective Surface Coatings on ASR-Affected Structures |
B.J. Wigum |
Assessment and Development of Performance Tests for Alkali Aggregate Reaction in Iceland |
M.P. Adams
B. Gray
J.H. Ideker
J.E. Tanner
A. Jones
B. Fournier
S. Beauchemin
M. Shehata
R. Johnson |
Applicability of Standard Alkali-Silica Reactivity Testing Methods for Recycled Concrete Aggregate |
R. Bachmann
K.J. Hünger |
Interactions of Chemical and Physical Parameters of Aggregate Grains for a Better Understanding of Alkali-Silica-Reaction |
I. Borchers
C. Hünger |
Seven Years of Field Site Tests to Assess the Reliability of Different Laboratory Test Methods for Evaluating the Alkali-Reactivity Potential of Aggregates |
W.F. Cândido
N.P. Hasparyk
H. Carasek
P. Monteiro |
Study of Lithium Treatments in Mitigating Alkali-Aggregate Reaction |
T. Chappex
K. Scrivener |
Controlling Alkali-Silica Reaction by Understanding the Contribution of Aluminum Provided by Supplementary Cementitious Materials |
T. Couto
N.P. Hasparyk
H. Carasek |
Chemical and Mineralogical Behavior of Brazilian Aggregates in Expansive ASR |
R. Esposito
M.A.N. Hendriks |
A Review of ASR Modeling Approaches for Finite Element Analyses of Dams and Bridges |
X. Feng
B. Clark |
Correlations between the Laboratory Test Methods for Potential Alkali-Silica Reactivity of Aggregates |
R. Fertig
J. Tanner |
Evaluation of ASR Potential in Wyoming Aggregates Using Multiple Accelerated Tests |
R.N. Florindo
J.F. Schneider
N.P. Hasparyk
P.J.M. Monteiro
L. Eiger |
Alkali-Silica Reaction in Quartzite Treated by a Silane Analyzed by Nuclear Magnetic Resonance |
K.J. Hünger
C. Hübert
Y. Scholz
J. Kronemann |
Changes of Pore Solution Composition Under Accelerated Mortar Bar and Concrete Prism Test Conditions |
T. Kim
J. Olek |
Influence of Lithium Ions on the Chemistry of Pore Solutions in Pastes and Mortars with Inert Aggregates |
V.L. Harish
P.R. Rangaraju |
Investigations into Alkali-Silica Reaction in Calcium Sulfo-Aluminate Cement Mortars and its Blends with Pozzolans |
A.K. Mukhopadhyay
G. Hassan
K.W. Liu
D. Zollinger |
A New Kinetic Type Rapid Aggregate ASR Test Method |
M. PourGhaz
R. Spragg
J. Castro
J. Weiss |
Can Acoustic Emission be Used to Detect Alkali Silica Reaction Earlier than Length Change Tests |
P. Rolim
P. Gleize
N. Hasparyk
P. Monteiro |
Chemical Method and Variations in the Test for Siliceous Rocks |
D. Rothstein
R.L. Carrasquillo
C. Garza |
Field and Laboratory Assessment of Cracking Damage from Alkali-Aggregate Reactions in Concrete Slabs on Ground, Column Footings and Perimeter Foundations, Midwest USA |
F.M. Salles
J.C. Pínfari
S.C. Kuperman
C. Mizumoto
H.dM. Bernardes |
Jaguari Hydropower Plant Evaluation, Diagnosis and Control of a Structure Affected by Alkali-Aggregate Reaction |
Z. Seidlová
R. Přikryl
Z. Pertold
S. Šachlová |
Alkali-Silica Reaction of Volcanic Rocks |
M.H. Shehata
W. Mikhaeel
M. Lachemi
C. Rogers |
Preventive Measures Against Expansion in Concrete Containing Reactive Recycled Concrete Aggregate |
B. Hudson
F. Shrimer |
Geology and Particle Size Effects on Alkali-Aggregate Reactivity in Western Canada |
I. Sims
P. Nixon
B. Godart |
Eliminating Alkali-Aggregate Reaction from Long-Service Structures |
F. Tiecher
P.H. Rolim
N.P. Hasparyk
D.C.C.D. Molin
M.E.B. Gomes
P. Glieze |
Reactivity Study of Brazilian Aggregates Through Silica Dissolution Analysis |
W.S. Tung
S.C. Kuperman
I.A. de Melo
C.R. Dardis |
Assessment of Alkali-Aggregate Reaction at Sabesp’s Dams |
F. Weise
K. Voland
S. Pirskawetz
D. Meinel |
Innovative Measurement Techniques for Characterising Internal Damage Processes in Concrete Due to ASR |
C.S. Zoilo
H.dM. Bernardes
F.M. Salles
S.C. Kuperman |
Monitoring of Displacements Due to Alkali-Aggregate Reaction |
C.C. Liu
W.T. Kuo
W.C. Wang
C.Y. Hsu |
Influence of Aggregate Content on the Migration Behavior of Cations Using the Accelerated Lithium Migration Technique |
W.C. Wang
C.C. Liu
C. Lee |
Effect of Electrolyte on the Performance in Electrochemical Repairing Technique for the Concrete Affected by ASR |
T. Miyagawa
T. Yamamoto
T. Mihara
K. Era |
Controlling ASR Expansion by Lithium Ion Pressurized Injection Method |
Y. Boukari
D. Bulteel
P. Rivard
N.E. Abriak |
Relevance of a Multi-Scale Approach to Monitor ASR in Concrete |
O. Mielich
H.W. Reinhardt |
Influence of Phonolite Rock Powder on the Mitigation at an Alkali-Silica Reaction |
H.W. Reinhardt
O. Mielich |
Mechanical Properties of Concretes with Slowly Reacting Alkali Sensitive Aggregates |
A. Shayan
A. Xu
R. Pritchard |
Influence of Cathodic Protection Impressed Currents on AAR Expansion of Concrete Containing Reactive Aggregates |
T. Ueda
A. Nanasawa |
Effect of Electrochemical Penetration of Lithium Ions on Concrete Expansion Due to ASR |
A. Shayan
A. Xu
R. Salamy |
Confinement of AAR Expansion in Cylindrical Reinforced Columns by CFRP Wrapping |
L.M. Gonzalez
A.S. Silva
S. Jalali |
A Comparison of Expansion Tests for Alkali-Reactivity of Aggregates, Based on a Kinetics Approach – Part I – Limit Rates Implicit in Reactivity Test Criteria |
L.M. Gonzalez
A.S. Silva
S. Jalali |
A Comparison of Expansion Tests for Alkali-Reactivity of Aggregates, Based on a Kinetics Approach – Part II – Experimental Rates for Different Types of Aggregates |
L.M. Gonzalez
A.S. Silva
D. Soares
S. Jalali |
Alkali Silica Reaction in Concrete: Kinetic Modeling the Start of the Expansion. Part 1 – Model Assumptions, Structure and Data Fitting |
L.M. Gonzalez
A.S. Silva
D. Soares
S. Jalali |
Alkali Silica Reaction in Concrete: Kinetic Modeling the Start of the Expansion. Part 2 – Comparison of Model Estimates with Experimental Data |
C.A. MacDonald
C. Rogers
R.D. Hooton |
The Relationship Between Laboratory and Field Expansion – Observations at the Kingston Outdoor Exposure Site for ASR After Twenty Years |
D. Lu
Y. Zheng
Y. Liu
Z. Xu
M. Tang |
Reaction Behaviour of Dolomitic Limestone from Kingston, Canada in Alkali-Activated Geopolymeric Materials |
D. Lu
B. Fournier
P. Grattan-Bellew
Z. Xu
Y. Lu
X. Shen
M. Tang |
Effectiveness of Fly Ash in Suppressing ASR Expansion in the Universal Accelerated Mortar Bar Test |
A. Shayan
A. Xu |
Comparison Between In-Situ Expansion Measurements on AAR-Affected Beams, Drilled Cores and Large Sawn Sections |
R.D. Hooton
B. Fournier
K. Kerenidis
R. Chevrier |
Mitigating Alkali-Silica Reaction When Using High-Alkali Cements |
C.A. Milanesi
S. Marfil
P.J. Maiza
O.R. Batic |
An Expansive Dolostone from Argentina – The Common Dilemma: ACR or Another Variant of ASR? |
H. Takahasi
K. Yamada |
Critical Characters of Fly Ash Suppressing ASR |
Y. Liu
D. Lu
Y. Zheng
Z. Xu |
Reaction Behaviour of Armorphous Silica in Alkali-Activated Geopolymeric Cementitious Materials |
T. Katayama |
Rim-Forming Dolomitic Aggregate in Concrete Structures in Saudi Arabia – Is Dedolomitization Equal to the So-Called Alkali-Carbonate Reaction? |
T. Katayama |
ASR Gels and Their Crystalline Phases in Concrete – Universal Products in Alkali – Silica, Alkali – Silicate and Alkali – Carbonate Reactions |
T. Katayama |
Late-Expansive ASR in a 30-Year Old PC Structure in Eastern Japan |
T. Katayama
P.E. Grattan-Bellew |
Petrography of the Kingston Experimental Sidewalk at Age 22 Years – ASR as the Cause of Deleteriously Expansive, So-Called Alkali-Carbonate Reaction |
F. Moradi-Marani
S.A. Kodjo
P. Rivard
K.J. Folliard |
Effectiveness of Nondestructive Tests for Assessing AAR-Damage in the Laboratory |
A. Pagnotta
D. Trejo
P. Gardoni |
Effects on Impact-Echo Signals Caused by Adjacent Steel Reinforcing Bars and Voids in Lap-Splice Regions: Experimental Study |
F. Rajabipour
H. Maraghechi
S.M.H. Shafaatian |
ASR and its Mitigation in Mortars Containing Recycled Soda-Lime Glass Aggregates |
M. Deng
B. Lin
L. Xu
L. Mo
M. Tang |
Release of Na+ and K+ Ions in Cement Pastes Incorporated with Fly Ashes in De-Ionized Water |
X. Song
M. Deng
L. Xu
D. Kong
M. Tang |
Reaction Products in Systems of CaMg(CO3)2-SiO2-Ca(OH)2-KOH-NaOH-H2O at Temperatures Between 20°C and 60°C |
L. Xu
M. Deng
X. Lan |
Inhibition of Fly Ash on the Alkali Silica Reaction (ASR) in Concrete with Alkali-Reactive Sandstone as Aggregate |
P. Hagelia
I. Fernandes |
On the AAR Susceptibility of Granitic and Quartzitic Aggregates in View of Petrographic Characteristics and Accelerated Testing |
E.R. Giannini
K.J. Folliard |
Stiffness Damage and Mechanical Testing of Core Specimens for the Evaluation of Structures Affected by ASR |
K. Kreitman
E. Giannini
Z. Webb
K.J. Folliard
O. Bayrak
J. Zhu |
Nondestructive Evaluation of Reinforced Concrete Structures Affected by ASR |
I. Fernandes
M.A.T.M. Brockmans
P. Nixon
I. Sims
M.dA. Ribeiro
F. Noronha
B. Wigum |
Alkali-Silica Reactivity of Some Common Rock Types a Global Petrographic Atlas |
V. Jensen |
Reclassification of Alkali Aggregate Reaction |
M. Deng
X. Song
X. Lan
X. Huang
M. Tang |
Expandability of Alkali-Dolomite Reaction in Dolomitic Limestones |
H. Goda
Y. Kawabata
M. Uchino
M. Iwanami
M. Hibino |
Application of Digital Image Correlation Method to Strain Release for ASR Deterioration |
Y. Kawabata
K. Yamada
H. Matsushita |
The Effect of Composition of Cement Hydrates with Supplementary Cementitious Materials on ASR Expansion |
Y. Kawabata
T. Ikeda
K. Yamada
Y. Sagawa |
Suppression Effect of Fly Ash on ASR Expansion of Mortar/Concrete at the Pessimum Proportion |
V. Villeneuve
B. Fournier
J. Duchesne |
Determination of the Damage in Concrete Affected by ASR – The Damage Rating Index (DRI) |
C.R. Shearer
N. Yeboah
K.E. Kurtis
S.E. Burns |
Evaluation of Biomass Fired and Co-Fired Fly Ash for Alkali-Silica Reaction Mitigation in Concrete |
V.K. Harish
P.R. Rangaraju |
Effect of Lithium Admixtures in VCAS Blended Cements to Mitigate Alkali Silica Reaction |
P.L. Fecteau
B. Fournier
M. Choquette
J. Duchesne |
Contribution to the Understanding of the So-Called Alkali-Carbonate Reaction (ACR) |
B. Fournier
C. Rogers
C.A. MacDonald |
Multilaboratory Study of the Concrete Prism and Accelerated Mortar Bar Expansion Tests with Spratt Aggregate |
M. Thomas
K. Folliard
B. Fournier
G. Ahlstrom |
A Prescriptive Specification for the Selection of Measures for Preventing Alkali-Silica Reaction |
T. Drimalas
J.H. Ideker
G. Arrietta
K.J. Folliard
B. Fournier
M.D.A. Thomas |
Evaluating Combination of Aggregates in the Accelerated Mortar Bar Test |
T. Drimalas
K.J. Folliard
M.D.A. Thomas
B. Fournier
A. Bentivegna |
Study of the Effectiveness of Lithium and Silane Treatments on Field Structures Affected by ASR |
K.J. Folliard
M.D.A. Thomas
B. Fournier
Y. Resendez
T. Drimalas
A. Bentivegna |
Evaluation of Mitigation Measures Applied to ASR-Affected Concrete Elements: Preliminary Findings from Austin, TX Exposure Site |
S. Hayman
M. Thomas
T. Drimalas
K. Folliard |
Deterioration of Concretes Exposed to Potassium Acetate Due to Alkali-Silica Reaction |
J.H. Ideker
T. Drimalas
A.F. Bentivegna
K.J. Folliard
B. Fournier
M.D.A. Thomas
R.D. Hooton
C.A. Rogers |
The importance of Outdoor Exposure Site Testing |
M.D.A. Thomas
K.J. Folliard
B. Fournier
T. Drimalas
P. Rivard |
Study of Remedial Actions on Highway Structures Affected by ASR |
E. Menéndez
N. Préndez
C. Márquez
B. Aldea |
Evaluation of Granitic Aggregates Behavior in Relation with the Alkaline Extraction and Compositional Change in Their Phases |
E. Brouard |
Potentially Reactive Aggregates with a Pessimum Effect Pessimum Effect Mechanisms, Review of PRP Qualification Tests and Conditions of Use of These Aggregates |
B. Lagerblad |
Alkali Release from Silicate Minerals and Alkali-Silica Reaction in Concrete |
C. Giebson
K. Seyfarth
H.M. Ludwig |
Correlation of ASR Performance Testing for Highway Pavement Concretes with Field Performance and Investigations into Boosting the Alkali Level |
H. Pyy
M. Ferreira
E. Holt |
Assessing the Extent of AAR in Finland |
L. Charpin
A. Ehrlacher |
A Linear Elastic Fracture Mechanics-Based Study of the Influence of Aggregate Size and Gel Mechanical Properties During Alkali-Silica Reaction |
S. Beauchemin
B. Fournier |
Petrographic Analysis of Aggregate Particles Used in the Accelerated Mortar Bar Test for Evaluating the Potential Alkali-Reactivity of Recycled Concrete Aggregates (RCA) |
L. Sanchez
P. Salva
B. Fournier
M. Jolin
N. Pouliot
A. Hovington |
Evaluation of Damage in the Concrete Elements of the Viaduct “Robert-Bourassa-Charest” After Nearly 50 Years in Service |
S. Tremblay
B. Fournier
M. Thomas
T. Drimalas
K. Folliard |
The Lomas Boulevard Road Test Site, Albuquerque (New Mexico) – A Case Stud on the Use of Preventive Measures Against ASR in New Concrete |
P.L. Fecteau
B. Fournier |
Residual Expansion Testing: New Aspects on Cores Extracted from Exposure Blocks Submitted to Environmental Conditions |
M.A. Bérube
B. Fournier
T. Côté |
Testing Concrete Cores for Residual Expansion Due to AAR – An Attempt to Minimize Alkali Leaching and Consequent Unrealistic Expansion Decrease |
M.A. Bérube
B. Fournier
T. Côté |
Using the Damage Rating Index for Assessing the Expansion of Concrete Affected by Freeze-Thaw, Sulphate Attack, or ASR |
L. Sanchez
B. Fournier
M. Jolin |
Critical Parameters of the Stiffness Damage Test for Assessing Concrete Damage Due to Alkali-Silica Reaction |
J. Rodríguez
P. González
F. Martínez
J. Martí |
Concrete Swelling in a Double Curvature Dam |
V. Jensen |
The Controversy of Alkali Carbonate Reaction: State of Art on the Reaction Mechanisms and Behaviour in Concrete |
