VOLUME 1 |
THEME 1 – AAR and coupled AAR/DEF mechanisms |
Author(s) |
Title |
C. Milanesi
F. Locati
S. Marfil |
Questions and answers about alkali-carbonate reaction seen through the lens of osmotic mechanism |
G. Geng
Z. Shi
B. Lothenbach
A. Leemann
E. Wieland
R. Dahn |
A micro-XAS and XRD study of the crystalline alkali-silica reaction products |
M. Bagheri
B. Lothenbach
A. Leemann
K. Scrivener |
Dissolution of ASR-reactive aggregates and the effect of Al on dissolution rate of amorphous silica at a high pH |
D. Schovanz
F. Tiecher
N. P. Hasparyk
S. C. Kuperman |
Influence of Delayed Ettringite Formation (DEF) on physical and mechanical properties of concrete |
K. Huenger
M. Kositz
M. Danneberg |
Influence of alkali supply from outside on the dissolution behavior of aggregates |
S. Barbotin-Albinski
Z. Shi
E. Boehm-Courjault
A. Leemann
K. Scrivener |
Characterization of synthetic ASR products by TEM and preliminary comparison with on-field early stage products |
B. Godart
J. Wood |
Interaction of DEF and AAR, a review |
J. Xu
D. Lu
Z. Xu |
Reaction behaviour of dolomite powder in Portland cement pastes cured at different conditions |
S. Hanehara
T. Oyamada |
Influence of maximum temperature at early age of concrete and R2O and/or SO3 content on DEF expansion of concrete |
THEME 2 – Factors affecting AAR |
Author(s) |
Title |
O. Mielich
H. Reinhardt
H. Ozkan |
Creep and strength of pavement concretes containing alkali sensitive aggregates after climate simulating tests |
B. Lothenbach
Z. Shi |
Solubility data for alkali-silica reaction products |
N. Courtois
C. Cau Dit Coumes
P. Gaveau
A. Poulesquen
J. Haas
S. B. H. Hassine
D. Bulteel |
Quantification of the extent of alkali-silica reaction occurring in cemented waste packages based on simplified model systems |
A. Leemann |
Impact of different added alkalis on concrete expansion due to ASR |
K. Huenger
M. Danneberg
S. Herold
J. Acker |
Stress conditions in quartzite and their quantification by Raman spectroscopy |
A. Rodrigue
J. Duchesne
B. Fournier
M. Champagne
B. Bissonnette |
Assessment of alkali-silica reaction related expansion and damage in alkali-activated slag/fly ash concretes |
S. U. Einarsdottir
R. D. Hooton |
Factors affecting the alkali release from concrete aggregates |
J. Liaudat
C. M. Lopez
I. Carol |
Experimental study of the effects of mechanical restraints on ASR expansions in concrete |
T. A. Martius-Hammer
J. Lindgard
B. Pedersen |
A study on ASR in high strength lightweight aggregate concrete |
A. Gholizadeh-Vayghan
F. Rajabipour</ td> |
Physicochemical properties of synthetic alkali-silica reaction (ASR) gels |
M. B. Santos
J. de Brito
A. S. Silva |
Potentially alkali-reactive recycled aggregates – Their effect on concrete’s mechanical characteristics |
O. Olajide
M. Nokken
L. Sanchez |
A review on the role of moisture and temperature in alkali silica reaction (ASR) |
THEME 3 – Preventive measures |
Author(s) |
Title |
J. J. Berezosky
F. Locati
D. Falcone
S. Marfil
G. C. dos Santos |
Use of a zeolite-bearing pozzolan to inhibit the reactivity of a sand from Argentina |
L. V. Larsen
R. Kofoed
R. A. Barbosa
B. Grelk
K. K. Hansen
L. H. Jensen
S. B. Hansen |
Controlling ASR in concrete by surface treatment – Field performance investigation |
B. Godart
L. Divet |
The new version of the French recommendations to prevent disorders due to Delayed Ettringite Formation |
B. M. Pedersen
E. Rodum
M. Haugen
J. Lindgard |
Prevention of ASR by use of low alkali OPC and silica fume. Field and lab studies from the Maridal culvert and the Storo bridge in Oslo, incl. assessment of residual expansion |
M. Thomas
S. Monkman |
The carbonation of recycled concrete aggregate affected by alkali-silica reaction |
G. Kaladharan
T. Szeles
F. Rajabipour |
Novel alkali silica reaction inhibitors for concrete |
Z. Jiang
Q. Yang
Y. Liu |
Experimental investigation on alkali activity and prevention measures of Low-grade metamorphic rock aggregates |
L. Antunes
L. Sanchez
D. Souza
P. Fransham |
The use of wood ash as supplementary cementitious materials (SCM) to mitigate the alkali-aggregate reaction (AAR) in concrete |
M. J. Tapas
K. Vessalas
P. Thomas
V. Sirivivatnanon |
Dissolution behaviour of SCMs in alkaline environment and mechanisms behind ASR mitigation |
E. Nsiah-Baafi
M. J. Tapas
K. Vessalas
P. Thomas
V. Sirivivatnanon |
Mitigation of ASR using aggregate fines as alternative for SCMs |
D. J. de Souza
L. Sanchez
A. Biparva
L. Antunes |
The use of self-healing technology combined with supplementary cementing materials to mitigate the Alkali-Silica Reaction distress |
A. Rossetti
G. S. C. dos Santos
D. D. Falcone
E. F. Irassar |
Studies on illitic calcined clays as possible inhibitors of the Alkali-Silica Reaction (ASR) |
A. S. Silva
A. B. Ribeiro
L. Divet |
Prevention of internal sulphate reaction in concrete. Long-term results of the effect of mineral additions |
T. Oey
E. La Plante
G. Falzone
Y. Hsiao
A. Wada
L. Monfardini
M. Bauchy
J. Bullard
G. Sant |
Calcium nitrate: A chemical admixture to inhibit aggregate dissolution and mitigate expansion caused by alkali-silica reaction |
A. K. Saha
P. K. Sarker |
Evaluation of the potential ASR of ferronickel slag aggregate and its mitigation by fly ash |
A. Bourdot
V. Thiery
S. Cuchet
D. Bulteel |
Experimental modeling of burnt oil shale impact towards ASR |
F. Weise
M. Fladt
M. Wieland |
Internal water-repellent treatment – a novel strategy for mitigating alkali-aggregate reaction in concrete pavements |
I. Sims
A. Poole |
Despite Stanton: AAR from denial to remedy in the UK, Europe & the World |
I.
Fily-Pare
B. Fournier
J. Duchesne
A. Tagnit-Hamou |
Impact of NaOH addition on the ASR expansion of ternary concrete incorporating Ground Glass |
M. R. P. Carvalho
E. M.R. Fairbairn
R. D. T. Filho |
Prevention of alkali-aggregate reaction by using fiber reinforced concrete |
E. T. Bueno
C. Ferraro
J. Paris
K. Clavier
K. Riding
T. Townsend |
Performance of Alternative Pozzolans – Alkali Silica Reactivity |
M. J. Tapas
L. Sofia
K. Vessalas
P. Thomas
W. South
V. Sirivivatnanon
K. Scrivener |
The ability of SCMs to mitigate ASR in cements of higher alkali contents assessed by pore solution method |
K. S. T. Chopperla
J. Ideker |
Performance of Portland-limestone cements with supplementary cementitious materials to mitigate alkali-silica reaction |
B. Boyd-Weetman
P. Thomas
V. Sirivivatnanon
J. Nairn |
Alkali thresholds in concrete; the balanced alkali approach in ASR mitigation |
K. M. De Vasconcelos Moreira
P. V. Gomes Oliveira
E. Pontes de Deus
A. E. B. Cabral |
Effectiveness in ASR mitigation: incorporate SCM during the Portland cement manufacturing or in the concrete production? |
THEME 4 – Testing for potential AAR |
Author(s) |
Title |
W. Hermerschmidt
C. Muller
M. Bohm |
Investigations on the influence of sand and testing conditions on the expansion behaviour of concretes in ASR tests |
K. S. T. Chopperla
J. Ideker |
A study on the effect of aggregate type on pore solution composition |
N. Sinno
M. Shehata |
Ways to evaluate alkali-silica reactivity of mineral fillers |
H. Zeitlhofer
B. Achleitner
G. Maier
C. Bos
M. Peyerl
S. Krispel |
ASR testing versus field experience in Austria |
E. Nsiah-Baafi
K. Vessalas
P. Thomas
V. Sirivivatnanon |
Protocols for investigating the reactivity of aggregates and alkali thresholds for ASR prevention |
M. Kositz
K. Huenger
F. Weise |
Regression analysis of ASR expansions and silica dissolution in the presence of NaCl |
B. J. Wigum
O. Andic-Cakır
P. Nixon
I. Sims
A. Poole
B. Fournier
J. H. Ideker
J. Lindgard |
Global research and collaboration on alkali aggregate reactions in concrete: ICAAR-conferences and RILEM TCs achievements |
B. J. Wigum
G. J. Einarsson |
Testing of Icelandic aggregates and various binders – laboratory vs. field; A decade of results and experiences |
B. J. Wigum
J. Lindgard |
RILEM Technical Committee 258-AAA. Development of a performance-based testing concept |
M. A. Glinicki
D. Jozwiak-Niedzwiedzka
A. Antolik
K. Dziedzic
K. Bogusz |
Application of RILEM test methods for alkali-silica reactivity evaluation of Polish aggregates for concrete road structures |
I. Fernandes
A. S. Silva
V. Ramos
D. Soares |
Sequel of the IMPROVE Project: petrographic analysis of the concrete from concrete prims tests |
E. Krutt
S. Pirskawetz
W. Wallau
B. Meng |
Development of an automated 60 °C Concrete Prism Test |
T. F. Ronning
J. Lindgard
S. K. Bremseth |
Alkali boosting in ASR performance testing – Will extra addition of alkalis to the mix design candidate reflect expansion behaviour of cement clinker alkali variation? |
T. F. Ronning
J. Lindgard
I. Borchers |
ASR performance testing concepts – RILEM AAR-10, AAR-11 and AAR-12 |
I. Sims
K. Hassan
M. Reid
A. Smith
M. B. S. Al-Kuwari |
Assessing AAR potential of processed Wadi Aggregates in Qatar, Arabian Gulf |
K. de Weerdt
P. Hemstad
H. Justnes
T. Ostnor
T. F. Ronning
J. Lindgard |
Fundamental study on ASR kinetics – effect of temperature on aggregate reactivity and pore-water composition |
K. Yamada
Y. Kawabata
T. Kawakami
Y. Sagawa |
Determining the pH of concrete pore water for alkali-wrapping considering alkali dissolution from aggregate |
K. Yamada
Y. Kawabata
T. Kawakami
Y. Sagawa
S. Ogawa |
AW-CPT as an ideal laboratory potential expansion test for ASR with constant alkali content and maximized water supply and the design of an alkali solution for wrapping |
P. Stukovnik
V. B. Bosiljkov
M. Marinsek |
Long term monitoring of alkali carbonate reactions (ACR) |
G. Hartmut
F. Schmidt-Dohl |
Investigations on reaction kinetics in solution experiments to prevent the alkali-silica reaction |
L. Sofia
T. Chappex
K. Scrivener |
Impact of storage conditions on expansion due to ASR |
THEME 5 – Diagnosis, evaluation and prognosis |
Author(s) |
Title |
E. Giannini
A.Snyder
T. Drimalas |
Diagnosis and prognosis of ASR in an airfield pavement |
A. Zahedi
L. F. M. Sanchez
M. Noel |
Effect of confinement on AAR-induced expansion and damage |
A. Bezerra
G. Andrade
L. Sanchez
M. Fraser |
Automated assessment of AAR damage in concrete in progress |
V. Lanza
P. Alaejos |
Evaluation of the presence of ettringite in concrete structures affected by alkali-silica reaction |
A. Zahedi
Y. Zhu
L. Sanchez
B. Fournier |
Microscopic assessment of alkali-silica reaction (ASR) affected recycled concrete aggregate (RCA) mixtures derived from construction and demolition waste (CDW) |
D. J. De Souza
L. F. M. Sanchez |
Multi-level assessment of the ASR damage including Vickers’ hardness in concrete |
R. Ziapour
C. Trottier
L. Sanchez |
Assessment of AAR-induced expansion and damage through the direct shear test |
F. Shrimer
J. Balinski |
Stories from the front: AAR testing gone awry |
N. Zubaida
A. Zahedi
L. Sanchez
P. Rivard |
Evaluation of the potential of residual expansion in concrete affected by Alkali Aggregate Reaction |
T. Chappex
J. Hammerschlag
P. Kronenberg |
Correlation of mechanical fatigue testing and semi-quantitative optical microscopy analysis for the robust diagnosis of field ASR damaged structures |
A. Antolik
D. Jozwiak-Niedzwiedzka
U. Diederichs |
Microstructural evaluation of the real concrete pavements with potential Alkali Aggregate Reaction signs |
THEME 6 – Monitoring and non-destructive methods |
Author(s) |
Title |
H. Nakagawa
T. Taniguchi
M. Matsushima |
An investigation of ultrasonic method to monitor expansion of concrete due to ASR |
S. Iliopoulos
A. Lamberti
K. Schildermans
S. B. H. Hassine |
Monitoring of ASR affected samples using different NDT-techniques |
S. Tayfur
C. Yuksel
O. Akar
N. Alver
O. Andic-Cakır |
Recent advances on the monitoring of mechanical properties of ASR-affected concrete by utilizing acoustic emission method |
A. J. Taylor
B. Thomas
R. G. Venn |
Moisture conditioning of concrete prism specimens and monitoring their length changes using digital image correlation |
B. Elmi
J. P. Lebet |
Determination of ASR expansion potential using permanent GPS stations: Experimental device and first results |
F. Tiecher
D. Schovanz
N. P. Hasparyk |
Reliability of a non-destructive method for identification of self-compacting concrete degradation by ASR |
C. O. Rivas Blanco
M. I. Avilés Flores
E. M. Fernández Reyes |
Measurement of microstructural damage in ASR affected concrete samples by using micro-ultrasound imaging |
A. L. Bournas
N. Pyrialakou
S. Nikolaou
K. Katsifarakis
K. Pilakoutas |
Experimental study on the structural response of columns with ASR and their repair using textile reinforced mortar |
E. Pujadas
L. Sancho
P. Castro
L. Pel
L. Wadsö |
Monitoring water content in ASR affected concrete under different environmental conditions using NMR imaging |
S. Chatterjee
J. Thompson
K. Folliard |
Nondestructive assessment of in-situ ASR gel stiffness in concrete pavements by continuous wavelet transforms of surface waves |
M. R. Ali
T. Matsushima
H. Noguchi |
Micro-mechanical examination of ASR-induced expansion in cementitious materials via AFM technique |
R. E. S. Souza
S. Chatterjee
J. Thompson
K. Folliard |
Evolution of ASR-gel stiffness over time and its spatial distribution in concrete through a novel nondestructive test method using surface waves |
THEME 7 – Structural effects of AAR and coupled AAR/DEF |
Author(s) |
Title |
A. Rossetti
S. Weinschenker
D. Falcone
G. Dos Santos |
Influence of a reactive sand on the mechanical performance of HPC beams |
L. Matta
S. Roy
R. Seracino |
Near surface mounted CFRP strengthening of large-scale ASR-affected concrete bridge members under sustained loads |
H. P. Jágr
D. Lechner
C. Portella
R. Rodrigues
S. Wüest
G. Antonicelli
J. M. Henault
D. Monette
A. Leemann
J. Voit
S. Dürrenmatt |
Towards a design methodology for the determination of the residual lifetime of concrete structures affected by AAR |
A. Meschke
P. Svidron
L. Piechnik
E. Tasche |
On the role of non-local ASR-induced damage in structural deterioration – Finite Element modeling and damage identification by inverse analysis |
A. Duchesne
N. Zubaida
L. Sanchez |
Characterization of ASR-affected structures under load by using Acoustic Emission |
D. R. Forgeron
P. Ropert
N. Surace |
Numerical simulation of AAR-affected structures considering mechanical-chemical behavior and damage propagation |
S. A. E. Jarrah
P. Rivard |
Microcrack characterization in alkali-aggregate reaction (AAR) affected concrete structures using microscopic observations and water absorption tests |
M. Ben Haha
B. Lothenbach
A. Leemann |
Thermodynamic and microstructural modeling of ASR in concrete structures |
M. Thiemicke
T. Schossig
D. Henning
T. Matschei
R. Trettin |
Recent findings on the interaction between DEF and ASR |
J. Matos
A. I. Ribeiro
S. Melo
M. Sousa
A. B. Ribeiro |
Reinforcement corrosion in concrete affected by AAR |
M. G. Raza
K. Tobita
D. Mishra
K. Matsushita
S. T. Huang |
Influence of ASR on reinforced concrete piers |
E. R. Fiol
R. I. Barros
F. A
. Branco |
Advanced computational techniques for structural analysis of 3D concrete structures |
L. Fernández Altable
N. García Núñez
A. Soto
E. Vázquez
F. Puertas |
Performance of an alternative for alkali-aggregate reaction (AAR) in concrete structures |
M. Sierens
L. C. Sousa
F. A. Branco
R. I. Barros |
Experimental analysis of the mechanical behavior of AAR affected reinforced concrete members under cyclic actions |
L. Shafieifar
A. Azad
L. M. Matuana
C. L. Chiu |
Evaluation of the effect of FRP confinement on AAR/DEF affected concrete |
A. Haxhibeqiri
M. Tahiri
H. Haliti
F. Ajdini |
Effect of AAR and freeze-thaw action on bond between steel and concrete |
THEME 8 – Modelling (micro, meso and macroscale) |
Author(s) |
Title |
J. Liu
G. Sant
L. Zhang
T. Kim
N. Neithalath |
A model to simulate long-term ASR distress in highly heterogeneous concrete based on constituent’s properties |
S. Monfardini
M. Bauchy
G. Sant |
Reactive molecular dynamics simulations of ASR gel growth in concrete |
D. Ghazanfari
C. C. Ferraris
M. Balonis
G. Sant |
Predicting the reaction and transport of alkaline species through unsaturated particulate materials |
M. Panagiotou
A. L. Bournas
M. Stangl
B. Boulay
S. Nikolaou
G. Papadakis
K. Pilakoutas |
Modelling alkali-silica reaction (ASR) expansion in concrete and comparing with ultrasonic testing |
F. Rajabipour
M. Liu
J. Trout
T. Whitestone
S. Pour-Ghaz
K. Amini
M. Balonis |
A non-classical thermodynamic model to predict the critical humidity for alkali-silica reaction (ASR) in concrete |
S. Wang
G. P. T. M. Van Zijl
W. Gao |
A new reactive transport model for alkali-silica reaction (ASR) in concrete |
J. D. Monteiro
M. J. F. Monteiro
G. Weiss
A. Shcarlat
N. K. Gupta
A. Raj
C. P. Souza
S. Goel
R. Fernandes
A. Deheeger
T. E. Martinez
S. Mukhopadhyay
T. J. Mizutani
K. A. Paine
H. J. H. Brouwers
M. M. Reda Taha
C. H. Yu
C. Strege
A. Chamok
J. Rodrigues |
Machine Learning applications in concrete alkali aggregate reactions (AAR) |
R. E. Huber
J. Yang
F. Weiss
M. Balonis
A. Leemann |
Potential reactive and incompatible assemblages in the NIST/CEMDATA thermodynamic databases |
THEME 9 – Repair and remedial measures |
Author(s) |
Title |
S. White
A. Megyesi |
Hydrodemolition as an effective repair method for ASR affected structures |
L. F. M. Sanchez
M. Fraser
S. E. Patterson
S. W. Nicolay
B. Fournier |
Effectiveness of lithium-based ASR treatments for ASR-affected concrete |
S. A. E. Jarrah
P. Rivard
F. Berthold
A. Schokker
G. Beaudoin
N. Zubaida
S. Bonneau
P. Labonte
S. Gariepy |
The reactivity of alkali-aggregate reaction (AAR) gel for concrete structures subjected to electrochemical treatments |
S. Hoshino
Y. Sato
R. Fujii
Y. Kuroki
T. Nishikawa |
Recent activities of Japan Concrete Institute (JCI) Committee on Diagnosis and Repair Methods for Concrete Structures Deteriorated by Alkali Aggregate Reaction |
M. Cousin
N. Van Herck |
ASR-MA: Roadmap to prevent ASR through Maintenance Activities in the Netherlands |
H. Sunayama
R. Fujii
K. Ogawa
S. Sakai
S. Miyaji |
Long-term behavior of reinforced concrete column repaired by carbon fiber sheet |
S. Lopez
N. O’Flaherty
C. E. Majorana
J. G. Cabrera |
Rehabilitation of a decommissioned nuclear power plant in Scotland affected by ASR. Feasibility study for diamond wire cutting |
F. Berthold
L. Hernandez
N. Ziadi
A. Poursaee
R. Ziapour
L. Sanchez |
Long-term monitoring of electrochemical realkalization (ER) treatments to mitigate AAR |
R. J. Saucier
L. F. M. Sanchez |
Effect of low-frequency damping on ASR damaged concrete |
N. Chinchon-Payan
A. Puertas
A. Blasco
M. Alonso
J. Borrachero
J. Monzo
L. P. Singh
S. Mishra |
Protection and repair of concrete affected by AAR. Prevention of swelling by incorporation of nanosilica into aggregates |
P. Rivard
S. Jarrah
F. Berthold |
Mitigation of ASR by means of electrochemical treatments: mechanisms and efficiency |
M. Fraser
L. F. M. Sanchez
J. O. Jato-Espino
B. Fournier |
Lithium-based ASR treatments in Quebec: overview of laboratory studies and field applications |
K. Sobolev
S. Sultana
J. Radlinski |
Development of protective coatings to mitigate Alkali-Silica Reaction (ASR) in concrete using engineered superhydrophobic and photocatalytic nanoparticles |
A. H. M. Ahmad
M. F. Nuruddin
M. F. M. Zain |
Experimental study of repair materials for structures affected by Alkali-Silica Reaction (ASR) |
B. Godart
B. Fournier
G. Grimal
F. Desmettre
J. Duchesne |
Performance-based specifications to prevent alkali-aggregate reaction (AAR) – 20 years experience in France and Quebec |
C. J. Forbes
J. P. Le Roux
S. Grimal
P. Rivard
J. Duchesne
L. F. M. Sanchez |
Mitigation of ASR by using supplementary cementitious materials (SCM) with low Ca/Si ratio: a Quebec perspective |
K. Amini
M. Maleki
R. Thomas
S. Pour-Ghaz
K. Amini
K. Kirisits
R. J. Myers |
Concrete durability enhancement using self-healing microcapsules |
E. Vazquez
S. Garcia-Nunez
M. Martinez
G. Gomez
A. Barrera-Diaz
P. Balzer
J. Wiegmann |
In-situ re-alkalization of structures affected by ASR using electrochemical techniques |
L. Pontiroli
G. Buzzi |
ASR mitigation by the use of colloidal silica in a siliceous limestone |