000002201 001__ 2201
000002201 005__ 20141118153438.0
000002201 04107 $$acze
000002201 046__ $$k2013-05-27
000002201 100__ $$aMIYAUCHI, Katsuyuki
000002201 24500 $$aON SUPERIORITY OF THE NEW PCM METHOD OF EXISTING RC PIERS IN ENVIRONMENT IMPACT

000002201 24630 $$n1.$$pProceedings of the First International Conference on Concrete Sustainability
000002201 260__ $$bJapan Concrete Institute, Tokyo
000002201 506__ $$arestricted
000002201 520__ $$2eng$$aThe new PCM Method had been developed. The major advantage of this method is that the strengthening thickness will be reduced to less than about 100 mm compared with a conventional RC jacketing in which the strengthening thickness is usually more than 250 mm. This advantage will be able to reduce the amount of the materials necessary to the strengthening dramatically. Therefore, it can be easily imagined that the new method has superiority over a RC jacketing in the point of environment impact. Then, the amount of CO2 exhaust was estimated for the case of the strengthening of an example bridge pier by the new method or a RC jacketing.

000002201 540__ $$aText je chráněný podle autorského zákona č. 121/2000 Sb.
000002201 653__ $$astrengthening, retrofit, global warming, environment impact assessment, greenhouse gas, CO2 emission

000002201 7112_ $$aFirst International Conference on Concrete Sustainability$$cTokyo (JP)$$d2013-05-27 / 2013-05-29$$gICCS13
000002201 720__ $$aMIYAUCHI, Katsuyuki$$iKUROISHI, Yoshitaka$$iSHIMOEDA, Hiroyuki
000002201 8560_ $$ffischerc@itam.cas.cz
000002201 8564_ $$s2013171$$uhttp://invenio.itam.cas.cz/record/2201/files/S3-6-3.pdf$$y
             Original version of the author's contribution as presented on CD, .
            
000002201 962__ $$r2053
000002201 980__ $$aPAPER