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Vplyv aktivity myši domovej na tepelné izolácie používané v drevených konštrukciách
SYS 0075541 LBL 00000naa^^22^^^^^^^^450 005 20190402085914.5 100 $a 20141103d m y0sloc0103 ba 101 0-
$a slo $d eng 102 $a SK 200 1-
$a Vplyv aktivity myši domovej na tepelné izolácie používané v drevených konštrukciách $d Impact of house mouse activity on thermal insulations used in wooden structures $f Ladislav Reinprecht, Marián Kováčik, Marie Pospíšilová 215 $c Obr., tab. 320 $a Lit. 330 $a Damaging of thermal insulations in wooden structures by mechanical, physical, chemical or biological factors leads to impair of their efficiency in a connection with energy and economy losses. Paper discusses resistance of selected synthetic-organic (expanded polystyrene, extruded polystyrene and polyurethane), natural-organic (cellulose, straw, hemp, granulated cork, fleece) and inorganic (rockwool, glass wool) heat-insulation materials against the house mouse (Mus musculus) – var. albino laboratory mouse. The experiments have been based on a new methodology modified from the methodology of prof. Wasserbauer, Czech Republic. The thermal insulations with dimensions of 100 mm × 175 mm × 410 mm (thickness × width × height) were situated in glass containers 555 mm × 545 mm × 410 mm divided with two glasses on three 179 mm wide subsections, and then exposed to 24 hour‘s activity of mouse males and females which food used as bait (mixture of fruits, chesses, chocolates, sausages and breeding granulated food) was located on the other side of insulations. The highest resistance against destruction activity of the house mouse showed the polyurethane foam (Puren MV PUR-PIR) and the extruded polystyrene (Austrotherm XPS TOP; Styrodur 2800 C). On the other hand, the lowest resistance against mouse activity showed all natural-organic insulations, i.e. cellulose (Tempelan), straw, hemp (Q-Flex), cork (Expanded granulated cork), and fleece (NaturWool). Resistance of the expanded polystyrene (EPS 70 F WhiteFacade; Isover EPS GreyWall), the rockwool (Nobasil FKD; Isover TF), and the glass wool (Isover Multimax) against the mouse destruction activities was a partly better, but not sufficient in terms of practice. 330 $a Cieľom predloženej práce bolo preskúmať odolnosť niekoľkých typov komerčných tepelných izolácií organického a anorganického pôvodu proti ataku myšou domovou – var. biela laboratórna myš, použijúc k tomu novo navrhnutú metodiku. 463 -1
$1 001 sldk_un_cat*0075362 $1 011 $a 1336-3824 $1 200 1 $a Acta Facultatis Xylologiae Zvolen $e vedecký časopis Drevárskej fakulty $v Roč. 56, č. 2 (2014), s. 105-112 $1 210 $a Zvolen $c Technická univerzita vo Zvolene $d 2014 610 1-
$9 sldk_un_auth*h001288 $a drevené konštrukcie $X timber structures 610 1-
$9 sldk_un_auth*h000161 $a tepelné izolácie $X thermal insulations 610 1-
$9 sldk_un_auth*h003147 $a poškodenie $X damage 610 1-
$9 sldk_un_auth*0037901 $a myš domová $X house mouse 675 $a 694.3/.5 $v 1. stred. $z slo 675 $a 699.86 $v 1. stred. $z slo 700 -1
$3 sldk_un_auth*p0028092 $a Reinprecht $b Ladislav $f 1953- $p TUZDFDT $4 070 $T Katedra drevárskych technológií 701 -1
$3 sldk_un_auth*0025624 $a Kováčik $b Marián $4 070 701 -1
$3 sldk_un_auth*0025636 $a Pospíšilová $b Marie $4 070 801 -0
$a SK $b ZV001 $c 20141103 $g AACR2 856 4-
$u https://df.tuzvo.sk/sites/default/files/12-2-14-reinprecht-kovacik-pospisilova_1.pdf
Počet záznamov: 1