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Statements

Subject Item
n2:RIV%2F00216305%3A26210%2F13%3APU103241%21RIV14-MSM-26210___
rdf:type
n10:Vysledek skos:Concept
rdfs:seeAlso
http://onlinelibrary.wiley.com/doi/10.1002/srin.201200148/full
dcterms:description
Work rolls in hot rolling mills are thermally and mechanically loaded; both of these loading aspects are difficult to measure. Laboratory tests can be used for the specification of the thermal load in the cooling area; however a thermal load in a roll gap is still difficult to measure. The paper describes an experimental technique developed for monitoring the work roll surface temperature by sensors embedded in the work roll. Continuous hot rolling pilot line trials were performed for different process conditions. One parameter, e.g. roll cooling, rolling velocity, reduction or skin cooling, can easily be changed during the trials, and the effect on the thermal cycle of the work roll can be directly measured. These thermal measurements give very detailed information about the temperature field. An inverse heat-conduction model has been developed to compute the surface boundary condition from the measured temperatures. The heat flux and heat transfer coefficient distribution along the roll circumferenc Work rolls in hot rolling mills are thermally and mechanically loaded; both of these loading aspects are difficult to measure. Laboratory tests can be used for the specification of the thermal load in the cooling area; however a thermal load in a roll gap is still difficult to measure. The paper describes an experimental technique developed for monitoring the work roll surface temperature by sensors embedded in the work roll. Continuous hot rolling pilot line trials were performed for different process conditions. One parameter, e.g. roll cooling, rolling velocity, reduction or skin cooling, can easily be changed during the trials, and the effect on the thermal cycle of the work roll can be directly measured. These thermal measurements give very detailed information about the temperature field. An inverse heat-conduction model has been developed to compute the surface boundary condition from the measured temperatures. The heat flux and heat transfer coefficient distribution along the roll circumferenc
dcterms:title
Measurement of Thermal Load on Working Rolls during Hot Rolling Measurement of Thermal Load on Working Rolls during Hot Rolling
skos:prefLabel
Measurement of Thermal Load on Working Rolls during Hot Rolling Measurement of Thermal Load on Working Rolls during Hot Rolling
skos:notation
RIV/00216305:26210/13:PU103241!RIV14-MSM-26210___
n10:predkladatel
n11:orjk%3A26210
n3:aktivita
n7:P
n3:aktivity
P(7C08085)
n3:cisloPeriodika
3
n3:dodaniDat
n14:2014
n3:domaciTvurceVysledku
n9:5828627 n9:8752338
n3:druhVysledku
n21:J
n3:duvernostUdaju
n18:S
n3:entitaPredkladatele
n16:predkladatel
n3:idSjednocenehoVysledku
86845
n3:idVysledku
RIV/00216305:26210/13:PU103241
n3:jazykVysledku
n13:eng
n3:klicovaSlova
hot rolling,thermal load,roll cooling,heat transfer coefficient
n3:klicoveSlovo
n6:hot%20rolling n6:thermal%20load n6:heat%20transfer%20coefficient n6:roll%20cooling
n3:kodStatuVydavatele
DE - Spolková republika Německo
n3:kontrolniKodProRIV
[AE1B9A978B6D]
n3:nazevZdroje
steel research international (Online)
n3:obor
n19:JP
n3:pocetDomacichTvurcuVysledku
2
n3:pocetTvurcuVysledku
4
n3:projekt
n17:7C08085
n3:rokUplatneniVysledku
n14:2013
n3:svazekPeriodika
84
n3:tvurceVysledku
Ondroušková, Jana Horský, Jaroslav Raudenský, Miroslav Vervaet, Bart
n3:wos
000315822700009
s:issn
1869-344X
s:numberOfPages
7
n20:doi
10.1002/srin.201200148
n12:organizacniJednotka
26210