LEADER 00000nam a2200517 i 4500 
001    978-3-030-30803-2 
003    DE-He213 
005    20200221145106.0 
006    m     o  d         
007    cr nn 008maaau 
008    190910s2020    sz      s         0 eng d 
020    9783030308032|q(electronic bk.) 
020    9783030308025|q(paper) 
024 7  10.1007/978-3-030-30803-2|2doi 
040    GP|cGP|erda 
041 0  eng 
050  4 QC173.4.I57 
082 04 530.417|223 
100 1  Delgado, Joao M. P. Q.,|eauthor 
245 10 Interface influence on moisture transport in building 
       components :|bthe wetting process /|cby Joao M. P. Q. 
       Delgado, Antonio C. Azevedo, Ana S. Guimaraes 
264  1 Cham :|bSpringer International Publishing :|bImprint: 
       Springer,|c2020 
300    1 online resource (viii, 62 pages) :|billustrations, 
       digital ;|c24 cm 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
347    text file|bPDF|2rda 
490 1  SpringerBriefs in applied sciences and technology,|x2191-
       530X 
505 0  Introduction -- State-of-the-Art -- Moisture Content 
       Determination -- Interface Influence during the Wetting 
       Process -- Conclusions 
520    The knowledge of moisture migration inside building 
       materials and construction building components is decisive
       for the way they behave when in use. The durability, 
       waterproofing, degrading aspect and thermal behaviour of 
       these materials are strongly influenced by the existence 
       of moisture within their interior, which provoke changes 
       in their normal performance, something that is normally 
       hard to predict. Due to the awareness of this problem, the
       scientific community have per-formed various studies about
       the existence of moisture inside porous materials. The 
       complex aspects of moisture migration phenomenon tended to
       encompass monolithic building elements, since the 
       existence of joints or layers contributes to the change of
       moisture transfer along the respective building element 
       that contribute to the change of mass transfer law. The 
       presentation of an experimental analyses concerning 
       moisture transfer in the interface of material that makes 
       up masonry is described in such a way as to evaluate the 
       durability and/or avoid building damages. In this work it 
       was analysed, during the wetting process, the influence of
       different types of interface, commonly observed in masonry,
       such as: perfect con-tact, joints of cement mortar, lime 
       mortar, and the air space interface. The results allow the
       calculation of the hygric resistance. With these results, 
       it is possible to use any advanced hygrothermal simulation
       program to study the water transport in building elements,
       considering different interfaces and their hygric 
       resistance 
650  0 Interfaces (Physical sciences) 
650 14 Structural Materials 
650 24 Characterization and Evaluation of Materials 
650 24 Building Materials 
650 24 Materials Engineering 
700 1  Azevedo, Antonio C.,|eauthor 
700 1  Guimaraes, Ana S.,|eauthor 
710 2  SpringerLink (Online service) 
773 0  |tSpringer eBooks 
830  0 SpringerBriefs in applied sciences and technology 
856 40 |uhttps://doi.org/10.1007/978-3-030-30803-2