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Keyword [Consolidating concrete]
Result: 41 - 59 | Page: 3 of 3
41. Effect of various chemical admixtures and binder combinations on workability of high-performance, self-consolidating concrete used in repair (French text)
42. Effect of self consolidating concrete (SCC) mix proportioning on transfer and development length of prestressing strands
43. Lightweight self-consolidating concrete: Statistical modelling, mixture design and performance evaluation
44. Investigating the bond of prestressing strands in lightweight self-consolidating concrete
45. Prestress losses in lightweight self-consolidating concrete
46. Developing fresh concrete specifications for self-consolidating concrete mixtures
47. Formwork pressure of self-consolidating concrete: Influence of thixotropy
48. Effect of mix parameters on restrained shrinkage behavior of self consolidating concrete
49. Performance of prestressed double-tee beams cast with lightweight self-consolidating concrete
50. Development of statistical models to simulate and optimize self-consolidating concrete mixes incorporating high volumes of fly ash
51. Self-consolidating concrete: Rheology, fresh properties and structural behaviour
52. Study of Fresh, Mechanical and Durability Characteristics of Self-Consolidating Concrete Containing Recycled Asphalt Pavement with Supplementary Cementitious Materials
53. Testing segregation and other rheological properties of self-consolidating concrete (SCC)
54. Behavior and Temporal-Based Effects of Sustainable Self-Consolidating Concrete in Bridge Structure
55. Proportioning and performance evaluation of self-consolidating concrete
56. Influence of limestone powder content and size on transport properties of self-consolidating concrete
57. Fresh, Mechanical, and Durability Characteristics of Self-Consolidating Concrete Incorporating Recycled Concrete Aggregate
58. Investigation of Self Consolidating Concrete Containing High Volume of Supplementary Cementitious Materials and Recycled Asphalt Pavement Aggregates
59. Dynamic properties and application of steel fiber reinforced self-consolidating concrete to segmental bridge columns in moderate-to-high seismic regions
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