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4. Bericht zum Forschungsvorhaben 1500 121 (siehe 90, 99, 127, 128 und 140), Ziel: Ermittlung der kinetischen Grenztragfähigkeit und des Energieaufnahmevermögens bei stoßartiger Belastung im Vergleich zu statischer sowie der Nachweis der Durchführbarkeit von weggeregelten Versuchen an Stahlbetonplatten mit einer in der BAM für diesen Zweck konzipierten servohydraulischen Versuchseinrichtung.
Es wurden die wesentlichen mechanischen Werkstoffeigenschaften des Betons und des Betonstahls qualitativ und quantitativ ermittelt. Ferner waren Versuche an Stahlbetonbauteilen erforderlich, deren Maßstab so zu wählen war, dass noch die " innere Struktur" des Stahlbetons wirklichkeitsnah abgebildet werden konnte.
1. Fachbericht des Forschungsvorhabens 150 460 (siehe 131 und 143). Darstellung von Untersuchungen zum mechanischen Verhalten unterschiedlicher Betonstähle bei Variation der Dehngeschwindigkeit in einem großen Bereich, die Veränderungen des mechanischen Verhaltens von Betonstahl, insbesondere die Veränderung der Kennwerte der Festigkeit und der Verformungsfähigkeit qualitativ und quantitativ zu bestimmen.
Bridge retrofitting of a section of the Berlin subway which is designed as railway on steel viaduct is presented. Fatigue damage in the superstructure of the over 70-years-old viaduct made an investigation of the damage causes necessary prior to the planning of retrofitting measures. The damage specifically occurred at the inverted arched steel plates of the ballast support elements. Those plates were provided for carrying the track ballast as well as the traffic load. For the retrofitting, the inverted arched plates were unloaded. The superstructure was redesigned into a fixed track system, which is able to transfer the traffic load directly into the substructure. The new rail fastening system made it necessary to verify the structural integrity of single elements as well as of the main system of the existing viaduct. The verification was based on several experimental investigations at BAM laboratory and on-site. Based on the evaluation of all test results the operation license could be issued.
100 Jahre U-Bahn in Deutschland - Zur Ermüdungssicherheit des Stahlviadukts der Linie 1 in Berlin
(2002)
Experimental verification of punching shear failure of RC slabs subjected to aircraft impact loads
(1985)
Ein Konzept zur Berechnung stoßbelasteter Stahlbetonbalken in Anbindung an Versuchsergebnisse
(1985)
Nichtlineare, zweidimensionale Finite-Element-Analyse von Stahlbetonbalken unter Stoßeinwirkung
(1985)
Following the long tradition of the Federal Institute for Materials Research and Testing (BAM) since Adolf Martens has created first routines in failure analysis (Ruske, 1971), BAM has been frequently called-in by the Berlin Traffic Association (BVG) to carry out root-cause analyses of the Berlin suburban train line (Frahm, 1902), reported in Helmerich and Herter (1999), Helmerich (2000), Nega and Winkler (1998), Helmerich et al. (2002) and Herter et al. (2002). This was also the case in the 1990s, when BVG-inspectors found cracks in hanging, barrel-like shaped ballast plates of the Berlin underground steel viaducts during regularly scheduled inspections. Cracks were located parallel to the riveted connection between the ballast plates and the upper chord of the viaduct cross girder steel profiles. For safety reasons, the operator BVG immediately stopped the cracks by means of drilling stop holes at the crack tips. As intermediate measures, longitudinal steel profiles were spanned below the rail axes between the cross girders affected to stabilize the track in longitudinal direction. The inspection period was shortened from years to few weeks. BAM was mandated to measure strains under regular train traffic to analyze the cause of the cracks. Strains were measured in identical connections as the damaged details, which did not suffer from cracks at the time of the measurement. The traffic-induced strain cycles and thus the resulting strain differences in the questionable cross sections were higher than expected and resulted in stresses of max. 85.8 MPa. Calculations showed that the credible remaining fatigue life for this particular structural detail was exceeded after 68 years according to nowadays standards. Extensive discussions, further field and laboratory tests followed to develop a rehabilitation plan for retrofitting the structure with minimum interference of the traffic. Finally, a method with minimum intervention to the structure was elaborated by a consortium of the operator BVG, BAM and producers based on further laboratory and field tests at BAM. Now, the viaduct is saved for the future.
Impact limiting components of packages for the transport of radioactivematerials are often designed as wood filled steel constructions. Wood absorbs major part of the impact energy in order to minimise the impact load acting upon the containment. Dynamic impact experiments with wood filled impact limiters showed different crushing mechanisms for axially loaded wood depending on their lateral constraint. Tests on spruce wood samples (Picea abies) were performed in order to clarify the influence of strain rate from static to 30 s-1 on a) compression strength, b) stress at a global strain level of 50%, and c) energy absorption capacity at 50% deformation, including statistical evaluation of the results. Results were as follows: strain rate increase led to significantly higher compression strength, stress and strain energy at a strain level of 50%. Lateral strain restriction had no effect on compression strength; it had a significant effect on stress and strain energy at strain level of 50%. Therefore, the definition of a general yield curve for wood under large deformations is not possible, the yield curve has to be chosen taking into account lateral constraints.