-
Something wrong with this record ?
Determine the compressive strength of calcium silicate bricks by combined nondestructive method
J. Brozovsky,
Language English Country United States
Document type Journal Article, Research Support, Non-U.S. Gov't
NLK
Directory of Open Access Journals
from 2001
Free Medical Journals
from 2000
PubMed Central
from 2000
Europe PubMed Central
from 2000
ProQuest Central
from 2012-01-01
Open Access Digital Library
from 2001-01-01
Open Access Digital Library
from 2011-01-01
Open Access Digital Library
from 2012-01-03
Medline Complete (EBSCOhost)
from 2012-01-01
Health & Medicine (ProQuest)
from 2012-01-01
Wiley-Blackwell Open Access Titles
from 2000
ROAD: Directory of Open Access Scholarly Resources
from 2001
PubMed
25276864
DOI
10.1155/2014/829794
Knihovny.cz E-resources
- MeSH
- Algorithms MeSH
- Models, Chemical MeSH
- Calibration MeSH
- Construction Materials standards MeSH
- Compressive Strength * MeSH
- Computer Simulation MeSH
- Reproducibility of Results MeSH
- Silicates chemistry MeSH
- Calcium Compounds chemistry MeSH
- Materials Testing methods MeSH
- Ultrasonics MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
The paper deals with the application of combined nondestructive method for assessment of compressive strength of calcium silicate bricks. In this case, it is a combination of the rebound hammer method and ultrasonic pulse method. Calibration relationships for determining compressive strength of calcium silicate bricks obtained from nondestructive parameter testing for the combined method as well as for the L-type Schmidt rebound hammer and ultrasonic pulse method are quoted here. Calibration relationships are known for their close correlation and are applicable in practice. The highest correlation between parameters from nondestructive measurement and predicted compressive strength is obtained using the SonReb combined nondestructive method. Combined nondestructive SonReb method was proved applicable for determination of compressive strength of calcium silicate bricks at checking tests in a production plant and for evaluation of bricks built in existing masonry structures.
References provided by Crossref.org
- 000
- 00000naa a2200000 a 4500
- 001
- bmc15022985
- 003
- CZ-PrNML
- 005
- 20150709122701.0
- 007
- ta
- 008
- 150709s2014 xxu f 000 0|eng||
- 009
- AR
- 024 7_
- $a 10.1155/2014/829794 $2 doi
- 035 __
- $a (PubMed)25276864
- 040 __
- $a ABA008 $b cze $d ABA008 $e AACR2
- 041 0_
- $a eng
- 044 __
- $a xxu
- 100 1_
- $a Brozovsky, Jiri $u Faculty of Civil Engineering, Brno University of Technology, Institute of Technology of Building Materials and Components, Veveri 331/95, 60200 Brno, Czech Republic.
- 245 10
- $a Determine the compressive strength of calcium silicate bricks by combined nondestructive method / $c J. Brozovsky,
- 520 9_
- $a The paper deals with the application of combined nondestructive method for assessment of compressive strength of calcium silicate bricks. In this case, it is a combination of the rebound hammer method and ultrasonic pulse method. Calibration relationships for determining compressive strength of calcium silicate bricks obtained from nondestructive parameter testing for the combined method as well as for the L-type Schmidt rebound hammer and ultrasonic pulse method are quoted here. Calibration relationships are known for their close correlation and are applicable in practice. The highest correlation between parameters from nondestructive measurement and predicted compressive strength is obtained using the SonReb combined nondestructive method. Combined nondestructive SonReb method was proved applicable for determination of compressive strength of calcium silicate bricks at checking tests in a production plant and for evaluation of bricks built in existing masonry structures.
- 650 _2
- $a algoritmy $7 D000465
- 650 _2
- $a sloučeniny vápníku $x chemie $7 D017610
- 650 _2
- $a kalibrace $7 D002138
- 650 12
- $a pevnost v tlaku $7 D019245
- 650 _2
- $a počítačová simulace $7 D003198
- 650 _2
- $a konstrukční materiály $x normy $7 D003252
- 650 _2
- $a testování materiálů $x metody $7 D008422
- 650 _2
- $a chemické modely $7 D008956
- 650 _2
- $a reprodukovatelnost výsledků $7 D015203
- 650 _2
- $a silikáty $x chemie $7 D017640
- 650 _2
- $a ultrazvuk $7 D014465
- 655 _2
- $a časopisecké články $7 D016428
- 655 _2
- $a práce podpořená grantem $7 D013485
- 773 0_
- $w MED00181094 $t TheScientificWorldJournal $x 1537-744X $g Roč. 2014, č. - (2014), s. 829794
- 856 41
- $u https://pubmed.ncbi.nlm.nih.gov/25276864 $y Pubmed
- 910 __
- $a ABA008 $b sig $c sign $y a $z 0
- 990 __
- $a 20150709 $b ABA008
- 991 __
- $a 20150709122721 $b ABA008
- 999 __
- $a ok $b bmc $g 1083324 $s 905978
- BAS __
- $a 3
- BAS __
- $a PreBMC
- BMC __
- $a 2014 $b 2014 $c - $d 829794 $i 1537-744X $m TheScientificWorldJournal $n ScientificWorldJournal $x MED00181094
- LZP __
- $a Pubmed-20150709