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Field test and numerical studies of the scissors-AVLB type bridge

Krason W., Malachowski J.

Bulletin of the Polish Academy of Sciences. Technical Sciences

2014

Vol. 62, nr 1

103--112

Scissor bridges are characterized by high mobility and modular structure. A single module-span consists of two spanning parts of the bridge; two main trucks and the support structure. Pin joints are used between modules of the single bridge span. Some aspects of the experimental test and numerical analysis of the scissor-AVLB type bridge operation are presented in this paper. Numerical analyses, presented here, were carried out for the scissors-type BLG bridge with treadways extended as compared to the classical bridge operated up to the present in the Armed Forces of the Republic of Poland. A structural modification of this kind considerably affects any changes in the effort of the force transmitting structure of the bridge. These changes may prove to be disadvantageous to the whole structure because of torsional moments that additionally load the treadways. Giving careful consideration to such operational instances has been highly appreciated because of the possibility of using this kind of bridges while organizing the crossing for vehicles featured with various wheel/track spaces (different from those used previously). The BLG bridge was numerically analysed to assess displacements and distributions of stresses throughout the bridge structure in different loading modes. Because of the complexity of the structure in question and simplifications assumed at the stage of constructing geometric and discrete models, the deformable 3D model of the scissors-type bridge needs verification. Verification of the reliability of models was performed by comparing deflections obtained in the different load modes that corresponded with tests performed on the test stand. It has been shown that the examined changes in conditions of loading the treadways of the bridge are of the greatest effect to the effort of the area of the joint which is attached to the girder bottom. Stress concentrations determined in the analysis are not hazardous to safe operation of the structure.

Eksperymentalno-numeryczne badania modernizowanego mostu towarzyszącego BLG-67M

Dacko M., Krasoń W., Filiks Ł.

Biuletyn Wojskowej Akademii Technicznej

2011

Vol. 60, nr 1

289-307

Przedmiotem badań przedstawionych w pracy jest modernizowany most towarzyszący. Most taki charakteryzuje się wysoką mobilnością i modułową budową. Pojedynczy moduł–przęsło składa się z dwóch dźwigarów - kolein z jezdniami i konstrukcjami wsporczymi połączonych złączami sworzniowymi. Przęsło mostu jest rozkładane automatycznie za pomocą mechanicznego układacza transportowanego razem z mostem na podwoziu gąsienicowym. Omówiono wybrane problemy badań eksperymentalnych pojedynczego przęsła mostu nożycowego BLG (oznaczenie producenta). Podczas testu na stanowisku zarejestrowano przemieszczenia i odkształcenia w wybranych przekrojach konstrukcji odpowiadające różnym wariantom obciążeń. Próby obciążeniowe zrealizowano na zmodernizowanym moście BLG. Ich wyniki umożliwiły zweryfikowanie poprawności modeli numerycznych MES, które będą zastosowane do oceny rozkładów naprężeń w analizowanej konstrukcji.

Modernized AVLB scissor-type bridge is a subject of studies presented in a paper. This bridge is characterized by high mobility and modular structure. Single module-span consists of two spanning parts of the bridge - two main trucks and support structure joined with a coupling pin. The bridge span is extended automatically by means of a mechanical bridge-laying gear carried together with bridge sections on a self-propelled chassis. Some aspects of an experimental test of the single-span scissors-type BLG (a manufacturer's designation) bridge were discussed. Displacements and strains in particular sections of the structure were measured during field tests with different load modes. Load tests performed on a modernized BLG bridge structure made it possible to verify the correctness of numerical FE models, which will be used for assessing stress distribution in the analyzed structure.