Problems of Cold-Bent Notched C-Shaped Profile Members

Nikolay Vatin; Tatiana Nazmeeva; Roman Guslinscky

doi:10.4028/www.scientific.net/AMR.941-944.1871

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 941-944Problems of Cold-Bent Notched C-Shaped Profile...

Problems of Cold-Bent Notched C-Shaped Profile Members

Abstract:

Nowadays cold bent steel thermal сold-bent С-profile is widely used in building construction but we still have some little studied questions in the fields of thermal conductivity, air permeability, resistibility and corrosion behavior of the profile. Cold-bent notched С-profile is used for interior exterior panel members. Lengthwise notches made chequerwise in the profile walls increase the distance of heat flow and decrease heat conductivity and eliminate cold bridges that is why the profile is called “thermal profile”. Cold-bent profile made by cold bending requires alternate approach when engineering structures are designed and maintained. The approach means thin walls’ and the profile special form’ impact on the bearing capacity and stability of the structures should be taken into account. In spite of the wide use of cold-bent notched C-profile in building frameworks, we see lack of information on how the notches influence the bearing capacity and stability of structures. There are no official normative documents on calculation and designing of cold-bent notched profile structures. We carry out theoretical and experimental investigations on global buckling and bearing capacity of steel members of C-shaped notched profiles of different cross-sections area. We carry out theoretical and experimental investigations on heat current passing through the thermal profile structure is held with the use of testing bed.

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Periodical:

Advanced Materials Research (Volumes 941-944)

Pages:

1871-1875

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.941-944.1871

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Online since:

June 2014

Authors:

Nikolay Vatin, Tatiana Nazmeeva, Roman Guslinscky

Keywords:

Air Permeability, Bearing Capacity, Cold-Bent Profile, Local Buckling, Numerical Simulation, Thin-Walled Members

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