Title:
Brick and mortar research
Publication Information:
Hauppauge, N.Y. : Nova Science Publishers, c2012
Physical Description:
xii, 339 p. : ill. ; 27 cm.
ISBN:
9781619429277
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
---|---|---|---|---|---|
Searching... | 30000010306050 | TA432 B75 2012 | Open Access Book | Book | Searching... |
On Order
Summary
Summary
This book is a study of brick and mortar research technologies. Topics include the corrosion and environmental aspects of cements and reinforced concrete; in-plane behaviour of CRFP retrofitted masonry; high temperature effects on masonry materials; raman spectroscopic characterization of brick and mortars; preparation of coloured facing brick from low melting clay under a water vapor atmosphere; negative effects of the use of white portland cement as an additive to aerial lime mortars; the anti-corrosive behaviour of four different types of organic coatings; the modelling of brick-mortar interface; and ultrasonic characterization of mortar using micromechanical and multiple scattering models.
Table of Contents
Preface |
Corrosion & Environmental Aspects of Cements & Reinforced Concrete |
Innovative Use of Unfired Brick & Clay Products as Sustainable Building Solutions |
In-Plane Behavior of CFRP Retrofitted Masonry: Experimental & Numerical Assessment |
High Temperature Effects on Masonry Materials |
Dating Bricks & Mortars of Ancient & Historical Buildings |
Raman Spectroscopic Characterization of Brick & Mortars: The Advantages of the Non- Destructive & in situ Analysis |
Preparation of Coloured Facing Brick from Low Melting Clay under a Water Vapour Atmosphere |
Negative Effects of the Use of White Portland Cement as Additive to Aerial Lime Mortars Set at Atmospheric Conditions: A Chemical, Mineralogical & Physical-Mechanical Investigation |
Industrial Coatings for High Performance Application: Physicochemical Characteristics & Anti-Corrosive Behavior |
On the Modeling of Brick-Mortar Interface |
Ultrasonic Characterization of Mortar using Micromechanical & Multiple Scattering Models |
Index |