SEILER, P. H.EAGON, C.ONG, F. S.FARRINGTON, S. A.BUI, V.2023-08-262023-08-262017-10-02SEILER, P. H.; EAGON, C.; ONG, F. S.; FARRINGTON, S. A.; BUI, V. A new generation of micro-particulate-based admixtures for concrete. American Concrete Institute, ACI Special Publication, v. 2017-January,. n. SP 320, p. 257-271, oct. 2017.0193-2527https://repositorio.fei.edu.br/handle/FEI/4899© 2017 American Concrete Institute. All rights reserved.In recent years, there has been significant research and product development in the field of nanotechnology - using particles of approximately 1 and 100 nm in size. From medicines, to electronics and coatings, the answers to 'big problems' are being provided by 'tiny solutions.' In the cement and concrete field, nano-structural models of Calcium Silicate Hydrate (C-S-H), have allowed researchers to develop particles to improve and increase C-S-H formation. Additionally, micro particles have the ability to address durability issues that have plagued concrete for decades. The practical challenge continues to be how to introduce these micro- and nanoscale particles into the concrete matrix. A logical option is in the form of a liquid admixture added to the concrete mixture during batching. This paper will focus on the current and emerging micro- and nanoscale particulate-based admixture technologies for concrete and their effects on the hydration process and long-term durability of concrete. The information to be presented will show that the use of these particulate-based liquid admixtures offer different options for modifying and improving the fresh, hardened and durability properties of concrete.Acesso RestritoArtigo de eventoDurabilityFreeze and thawMicrospheresNanoparticlesPerformanceStrength enhancement