1.
|
In parallel with a wide scale program undertaken at University of Mons in collaboration with the Restoration Directorate of Public Service of Wallonia (SPW) concerning th [...]
|
2.
|
In parallel with a wide scale program undertaken at University of Mons in collaboration with the Restoration Directorate of Public Service of Wallonia (SPW) concerning th [...]
|
3.
|
Limestone calcination and the technology of quicklime production has an influence on the slaking reactivity of lime. The slaking consequently can be an indicator of the q [...]
|
4.
|
Studies of historic mortars show that the way lime is burned and processed affects the mortar product in its final properties, appearance and performance. A variety of ki [...]
|
5.
|
A small scale lime kiln was designed and built in order to evaluate production of historic lime binders. The kiln does not copy any specific historic model. It is designe [...]
|
6.
|
In southern Portugal over one hundred Roman villae have been identified; such villae are examples of typical Roman rural construction and have led to the characterisation [...]
|
7.
|
Bulk samples of mortars were collected from Hellenistic, Roman, and Byzantine historic constructions. The main scope of this work is to investigate the technological tran [...]
|
8.
|
The long passage in Vitruvius’ De architectura concerning the methods and materials for building concrete harbour structures in the sea (5.12.2-5) is unique in ancient [...]
|
9.
|
Vitruvius Pollio treated in ten volumes the whole system of Roman architecture and engineering, but technical terminology, the specificity of his subjects and his concise [...]
|
10.
|
The contribution focuses on microscopic techniques for use in the identification and characterisation of historic mortars, with the assumption that the key information to [...]
|
11.
|
Zacharopoulou, G.
The impact of the control of key parameters during the production chain (calcination, slaking, maturation) of a lime based binder was experimentally investigated under a [...]
|
12.
|
Zacharopoulou, G.
Within the general framework of study on high calcium building limes (CL) suitable for conservation purposes, selected results of research are presented and discussed in [...]
|
13.
|
Natural or Roman cements were the first modern cements to be industrially produced at the beginning of the 19th century in Europe. Used equally by engineers for their hyd [...]
|
14.
|
Natural cement was patented in 1796 but it didn’t arrive in Spain until 1835. No one knows exactly where the production started in Spain, because it emerged independent [...]
|
15.
|
Natural cement was patented in 1796 but it didn’t arrive in Spain until 1835. No one knows exactly where the production started in Spain, because it emerged independent [...]
|
16.
|
Roman cement was extensively used to decorate facades during the nineteenth and beginning of twentieth Century. The interest of this material has been revisited recently [...]
|
17.
|
Roman cement was patented in 1796 and used extensively throughout European architecture of the 19th and early 20th centuries before the domination of Portland cement and [...]
|