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Number of items: 17.
Article
ABUBAKRI, S., MANGAT, Pal, STARINIERI, V. and LOMBOY, G.R.
(2022).
Electric curing parameters of mortar and its mechanical properties in cold weather.
Construction and Building Materials, 314 (Part A).
[Article]
APOSTOLOPOULOS, Charalambos and PASIALIS, Vasileios
(2008).
Use of quality indices in comparison of corroded technical steel bars B500c and S500s on their mechanical performance basis.
Construction and Building Materials, 22 (12), 2325-2334.
[Article]
DANIELE, V., TAGLIERI, G., MACERA, L., ROSATELLI, G., OTERO, J. and CHAROLA, A.E.
(2018).
Green approach for an eco-compatible consolidation of the Agrigento biocalcarenites surface.
Construction and Building Materials, 186, 1188-1199.
[Article]
HEATON, T., SAMMON, Chris, AULT, J., BLACK, L. and FORTH, J.P.
(2014).
Masonry units bound with waste vegetable oil – Chemical analysis and evaluation of engineering properties.
Construction and Building Materials, 64, 460-472.
[Article]
HUGHES, D.C., ILLINGWORTH, J.M. and STARINIERI, Vincenzo
(2015).
Low energy pre-blended mortars: Part 2 – Production and characterisation of mortars using a novel lime drying technique.
Construction and Building Materials, 101 (1), 710-720.
[Article]
LAYCOCK, Elizabeth
(2002).
Ten years of frost testing at Sheffield Hallam University.
Construction and Building Materials, 16 (4), 195-205.
[Article]
LAYCOCK, Elizabeth, JEFFERSON, David, HETHERINGTON, Steven, CLEGG, Francis and WOOD, Christopher
(2017).
Revitalising Collyweston limestone slate production by artificial freeze/thaw splitting.
Construction and Building Materials, 159, 486-498.
[Article]
MANGAT, P. S. and LIMBACHIYA, M. K.
(1995).
Repair material properties which influence long-term performance of concrete structures.
Construction and Building Materials, 9 (2), 81-90.
[Article]
MANGAT, Pal, GRIGORIADIS, Konstantinos and ABUBAKRI, Shahriar
(2016).
Microwave curing parameters of in-situ concrete repairs.
Construction and Building Materials, 112, 856-866.
[Article]
MANGAT, Pal and OJEDOKUN, Olalekan
(2019).
Bound chloride ingress in alkali activated concrete.
Construction and Building Materials, 212, 375-387.
[Article]
MANGAT, Pal and OJEDOKUN, Olalekan
(2018).
Influence of curing on pore properties and strength of alkali activated mortars.
Construction and Building Materials, 188, 337-348.
[Article]
NGUYEN, C.V. and MANGAT, Pal
(2020).
Properties of rice straw reinforced alkali activated cementitious composites.
Construction and Building Materials, 261, p. 120536.
[Article]
OTERO, Jorge, STARINIERI, Vincenzo and CHAROLA, A. Elena
(2018).
Nanolime for the consolidation of lime mortars: a comparison of three available products.
Construction and Building Materials, 181, 394-407.
[Article]
OTERO, Jorge, STARINIERI, Vincenzo, CHAROLA, A.E. and TAGLIERI, Giuliana
(2019).
Influence of different types of solvent on the effectiveness of nanolime treatments on highly porous mortar substrates.
Construction and Building Materials, 230, p. 117112.
[Article]
OTERO, Jorge, STARINIERI, Vincenzo and CHAROLA, AE
(2019).
Influence of substrate pore structure and nanolime particle size on the effectiveness of nanolime treatments.
Construction and Building Materials, 209, 701-708.
[Article]
STARINIERI, V., HUGHES, D.C. and WILK, D.
(2013).
Influence of the combination of Roman cement and lime as the binder phase in render mortars for restoration.
Construction and Building Materials, 44, 192-199.
[Article]
STARINIERI, Vincenzo, HUGHES, David and WILK, Dariusz
(2015).
Influence of substrate and sand characteristics on Roman cement mortar performance.
Construction and Building Materials (91), 274-287.
[Article]