| nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
| 1 |
ASR expansion behavior of recycled glass fine aggregates in concrete
|
Saccani, Andrea
|
|
2010
|
40 |
4 |
p. 531-536
6 p.
|
artikel
|
| 2 |
ASR pessimum behaviour of siliceous limestone aggregates
|
Garcia-Diaz, E.
|
|
2010
|
40 |
4 |
p. 546-549
4 p.
|
artikel
|
| 3 |
Concrete modelling for expertise of structures affected by alkali aggregate reaction
|
Grimal, E.
|
|
2010
|
40 |
4 |
p. 502-507
6 p.
|
artikel
|
| 4 |
Editorial Board
|
|
|
2010
|
40 |
4 |
p. IFC-
1 p.
|
artikel
|
| 5 |
Effects of aggregate size and alkali content on ASR expansion
|
Multon, Stéphane
|
|
2010
|
40 |
4 |
p. 508-516
9 p.
|
artikel
|
| 6 |
Effects of seawater on AAR expansion of concrete
|
Shayan, A.
|
|
2010
|
40 |
4 |
p. 563-568
6 p.
|
artikel
|
| 7 |
Experimental investigation of the mechanisms by which LiNO3 is effective against ASR
|
Tremblay, C.
|
|
2010
|
40 |
4 |
p. 583-597
15 p.
|
artikel
|
| 8 |
Guest Editorial
|
Broekmans, Maarten A.T.M.
|
|
2010
|
40 |
4 |
p. 501-
1 p.
|
artikel
|
| 9 |
Influence of acetate and formate-based deicers on ASR in airfield concrete pavements
|
Giebson, Colin
|
|
2010
|
40 |
4 |
p. 537-545
9 p.
|
artikel
|
| 10 |
Influence of lithium hydroxide on alkali–silica reaction
|
Bulteel, D.
|
|
2010
|
40 |
4 |
p. 526-530
5 p.
|
artikel
|
| 11 |
Influence of steel fibers on the development of alkali-aggregate reaction
|
de Carvalho, Maria Rita Pires
|
|
2010
|
40 |
4 |
p. 598-604
7 p.
|
artikel
|
| 12 |
Is alkali–carbonate reaction just a variant of alkali–silica reaction ACR=ASR?
|
Grattan-Bellew, P.E.
|
|
2010
|
40 |
4 |
p. 556-562
7 p.
|
artikel
|
| 13 |
Micro-mechanical modelling of alkali–silica-reaction-induced degradation using the AMIE framework
|
Dunant, Cyrille F.
|
|
2010
|
40 |
4 |
p. 517-525
9 p.
|
artikel
|
| 14 |
Monitoring of an hydraulic structure affected by ASR: A case study
|
Rivard, Patrice
|
|
2010
|
40 |
4 |
p. 676-680
5 p.
|
artikel
|
| 15 |
Reactivity of reclaimed concrete aggregate produced from concrete affected by alkali–silica reaction
|
Shehata, Medhat H.
|
|
2010
|
40 |
4 |
p. 575-582
8 p.
|
artikel
|
| 16 |
Selection of an effective ASR-prevention strategy for use with a highly reactive aggregate for the reconstruction of concrete structures at Mactaquac generating station
|
Hayman, Sean
|
|
2010
|
40 |
4 |
p. 605-610
6 p.
|
artikel
|
| 17 |
Summary of research on the effect of LiNO3 on alkali–silica reaction in new concrete
|
Feng, X.
|
|
2010
|
40 |
4 |
p. 636-642
7 p.
|
artikel
|
| 18 |
The current state of the accelerated concrete prism test
|
Ideker, Jason H.
|
|
2010
|
40 |
4 |
p. 550-555
6 p.
|
artikel
|
| 19 |
The EU “PARTNER” Project — European standard tests to prevent alkali reactions in aggregates: Final results and recommendations
|
Lindgård, Jan
|
|
2010
|
40 |
4 |
p. 611-635
25 p.
|
artikel
|
| 20 |
The role of alkali content of Portland cement on the expansion of concrete prisms containing reactive aggregates and supplementary cementing materials
|
Shehata, Medhat H.
|
|
2010
|
40 |
4 |
p. 569-574
6 p.
|
artikel
|
| 21 |
The so-called alkali-carbonate reaction (ACR) — Its mineralogical and geochemical details, with special reference to ASR
|
Katayama, Tetsuya
|
|
2010
|
40 |
4 |
p. 643-675
33 p.
|
artikel
|
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