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shrinkage (59) 59
shrinkage reducing agent (59) 59
construction & building technology (54) 54
materials science, multidisciplinary (52) 52
concrete (49) 49
drying shrinkage (47) 47
autogenous shrinkage (44) 44
engineering, civil (34) 34
mechanical properties (24) 24
cement (22) 22
shrinkage reducing admixture (22) 22
analysis (21) 21
shrinkage-reducing admixtures (21) 21
shrinkage-reducing admixture (20) 20
concretes (18) 18
beimengung (17) 17
mortars (17) 17
strength (17) 17
durability (16) 16
expansive agent (16) 16
high-performance concrete (16) 16
admixtures (15) 15
compressive strength (15) 15
cracking (15) 15
druckfestigkeit (14) 14
shrinkage-reducing agent (14) 14
コンクリート (14) 14
収縮 (14) 14
expansive additive (13) 13
reducing agents (13) 13
cements (12) 12
収縮低減剤 (12) 12
curing (11) 11
expansion (11) 11
hydration (11) 11
pastes (11) 11
クリート (11) 11
コンク (11) 11
リート (11) 11
수축저감제 (11) 11
mechanical-properties (10) 10
self-compacting concrete (10) 10
behavior (9) 9
high-strength concrete (9) 9
materials science, composites (9) 9
portland-cement (9) 9
silica fume (9) 9
usage (9) 9
乾燥収縮 (9) 9
収縮低減 (9) 9
building materials (8) 8
internal curing (8) 8
mortar (8) 8
properties (8) 8
research (8) 8
schrumpfung (8) 8
trockenschwindung (8) 8
zement (8) 8
低減剤 (8) 8
cement paste (7) 7
expansive admixture (7) 7
fly ash (7) 7
microstructure (7) 7
paste (7) 7
reduktionsmittel (7) 7
superplasticizer (7) 7
surface tension (7) 7
研究 (7) 7
cement pastes (6) 6
cracks (6) 6
engineering (6) 6
portland cement (6) 6
reduction (6) 6
shrinkage reducing admixtures (6) 6
stahlfaser (6) 6
treibmittel (6) 6
ultrahochleistungsbeton (6) 6
実験 (6) 6
additives (5) 5
civil engineering (5) 5
compensating concrete (5) 5
creep (5) 5
lightweight aggregate (5) 5
materials science, general (5) 5
plastic shrinkage (5) 5
polymer (5) 5
porosity (5) 5
reducing admixtures (5) 5
reinforced concrete (5) 5
steel (5) 5
uhpc (5) 5
viscosity (5) 5
乾燥 (5) 5
収縮 低減剤 (5) 5
強度 (5) 5
材料 (5) 5
건축공학 (5) 5
admixture (4) 4
aggregates (4) 4
blast-furnace slag (4) 4
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Construction and Building Materials, ISSN 0950-0618, 08/2015, Volume 91, pp. 171 - 179
Journal Article
Construction & building materials, ISSN 0950-0618, 2018, Volume 159, pp. 155 - 163
Journal Article
Cement and Concrete Research, ISSN 0008-8846, 08/2019, Volume 122, pp. 196 - 211
To use a calcium sulfoaluminate (CSA) expansive agent (EA), beneficial for volume stability of concrete, its effect on the pullout behavior of straight steel fiber in ultra-high-performance concrete (UHPC... 
Calcium sulfo-aluminate expansive agent | Loading rate effect | Ultra-high-performance concrete | Pullout resistance | Straight steel fiber | AUTOGENOUS SHRINKAGE | CEMENT | MATERIALS SCIENCE, MULTIDISCIPLINARY | STRENGTH | SHRINKAGE-REDUCING ADMIXTURE | CONSTRUCTION & BUILDING TECHNOLOGY | TENSILE | HIGH-PERFORMANCE CONCRETE | Steel | Bonds | Analysis | Steel fibers | Calcium | Bond strength | Bonding strength | Pull-out resistance | Impact loads | Inclination | Loading rate | Fiber pullout
Journal Article
Materials science forum, ISSN 0255-5476, 10/2018, Volume 936, pp. 207 - 213
...), Shrinkage Reducing Agent (SRA), and Fly Ash (FA) help to reduce and control the shrinkage and to compare the effectiveness of these substances used in the normal curing, i.e., at 30... 
Fly ash | Shrinkage reducing agent | Steam cured | Expansive additive | Factorial design | Plastic shrinkage | Curing | Reducing agents | Shrinkage | Mortars (material)
Journal Article
Cement and Concrete Composites, ISSN 0958-9465, 05/2014, Volume 49, pp. 59 - 69
.... The addition of a shrinkage-reducing agent produced a noticeable reduction in the fiber pullout resistance owing to the lower matrix shrinkage, although the reduction of pullout resistance differed... 
Ultra-high-performance concrete | High-strength steel fiber | Shrinkage-reducing agent | Microfiber | Interfacial bond strength | CONSTRUCTION & BUILDING TECHNOLOGY | CEMENT-BASED COMPOSITES | BEHAVIOR | REINFORCED CONCRETE | MATERIALS SCIENCE, COMPOSITES | Steel, High strength | Concrete | Concretes | Reduction | High strength steels | Reagents | Slip | Shrinkage | Steels | Fibers
Journal Article
Composites Part B, ISSN 1359-8368, 06/2019, Volume 167, pp. 517 - 532
...). For varying the matrix shrinkage, different quantities of calcium sulfoaluminate-based (CSA) expansive agent (EA) were adopted, ranging from 0... 
Rate sensitivity | Ultra-high-performance concrete | Deformed steel fiber | Pullout behavior | Expansive agent | AUTOGENOUS SHRINKAGE | CEMENT | MATERIALS SCIENCE, COMPOSITES | COMPOSITES | SHRINKAGE-REDUCING ADMIXTURE | ENGINEERING, MULTIDISCIPLINARY | TENSILE | FLEXURAL BEHAVIOR | STRESS | BOND | Steel | Concrete
Journal Article
International journal of concrete structures and materials, ISSN 2234-1315, 2018, Volume 12, Issue 1, pp. 1 - 9
Journal Article
Journal of Structural and Construction Engineering, ISSN 1340-4202, 2014, Volume 79, Issue 700, pp. 671 - 680
Journal Article
Materials, ISSN 1996-1944, 07/2020, Volume 13, Issue 13, p. 3018
Shrinkage-reducing agents have been developed to mitigate shrinkage and to control cracks in concrete... 
compressive strength | splitting tensile strength | shrinkage-reducing agent | freezing and thawing | spacing factor
Journal Article
Cement and concrete research, ISSN 0008-8846, 2018, Volume 111, pp. 157 - 168
... of “shrinkage-reducing agents” (SRAs). Water vapor sorption isotherms and low temperature DSC measurements suggest that alcohol-ethylene oxide polymers (AEOPs... 
C-S-H (B) | Shrinkage-reducing agent | Shrinkage (C) | Admixture (D) | C-S-H | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | HYDRATION | REDUCING ADMIXTURES | TRICALCIUM SILICATE | PROPOSED MECHANISM | CONSTRUCTION & BUILDING TECHNOLOGY | PORTLAND-CEMENT | PHASE-TRANSFORMATIONS | ICE FORMATION | WATER | Ethylene oxide | Polymer industry | Polymers | Ethylene | Green technology | Cement
Journal Article
Journal of Structural and Construction Engineering, ISSN 1340-4202, 04/2013, Volume 78, Issue 686, pp. 639 - 646
Journal Article
Cement and Concrete Composites, ISSN 0958-9465, 01/2020, Volume 105, p. 103425
Journal Article
Journal of Structural and Construction Engineering, ISSN 1340-4202, 2009, Volume 74, Issue 645, pp. 1895 - 1903
Journal Article
Journal of Structural and Construction Engineering, ISSN 1340-4202, 08/2012, Volume 77, Issue 678, pp. 1167 - 1173
Journal Article