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Design of masonry window parapets considering flexural tensile strength Parapet masonry is often neglected in design. However, if verification is explicitly necessary, this is often economically feasible only on the basis of flexural tensile strength. For this application, two design methods are presented with which parapet masonry can be designed as a freestanding wall considering the flexural tensile strength. In addition to a general method based on linear‐elastic stress‐strain relationship of the masonry, which is applicable to both fully and partially supported slabs, a second approach is presented, which takes into account an existing slab edge shell and thus applies especially for parapet masonry with reduced bearing length. Both methods can also be used to design freestanding walls with minor adjustments. Finally, the permissible height of a parapet made of brickwork is determined exemplarily for various applications and indicated in tabular form depending on the acting wind load. 相似文献
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R. Padmanaban V. Balusamy R. Vaira Vignesh 《Materialwissenschaft und Werkstofftechnik》2020,51(1):17-27
This work investigates the influence of friction stir welding parameters on the mechanical properties of the dissimilar joint between AA2024-T3 and AA7075-T6. Experiments are conducted consistent with the three-level face-centered composite design. Response surface methodology is used to develop the regression model for predicting the tensile strength of the joints. The analysis of variance technique is used to access the adequacy of the developed model. The model is used to study the effect of key operating process parameters namely, tool rotation speed, welding speed and shoulder diameter on the tensile strength of the joints. The results indicate that friction stir welding of aluminum alloys at a tool rotation speed of 1050 min−1, welding speed of 40 mm/min and a shoulder diameter of 17.5 mm would produce defect less joint with high tensile strength. 相似文献
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L. Engelbrecht O. Meier A. Ostendorf H. Haferkamp 《Materialwissenschaft und Werkstofftechnik》2006,37(3):272-278
Influences on the Mechanical Properties of Laser Brazed Hybrid Joining of Steel and Aluminium Within the scope of a fundamental research project, a laser brazing process has been developed, enabling the joining of aluminium to steel sheet metal. By applying zinc‐based solders, melting the edges of the aluminium sheets can be reduced to a minimum compared to concurring joining processes. This leads to an excellent joining strength, with tearing in the aluminium base metal as shown by tensile tests. Moreover, the joined material can be formed into hollow parts, with few limitations. There is a great potential for applying this process, for example in car production, resulting from, among other things, high process automation possibilities. 相似文献
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The effect of ozone surface treatment of carbon fibers (CF) on the tensile strength and tribological properties of carbon fiber reinforced polyimide (CF/PI) composite was investigated. Experimental results revealed that the tensile strength of ozone and air oxidation treated CF reinforced PI composite was improved compared with that of untreated composite. Compared with the untreated and air‐oxidated CF/PI composite, the ozone treated composite had the lowest friction coefficient and specific wear rate under given applied load and reciprocating sliding frequency. Ozone treatment effectively improved the interfacial adhesion between CF and PI. The strong interfacial adhesion of the composite made CF not easy to detach from the PI matrix, and prevented the rubbing‐off of PI, accordingly improved the friction and wear properties of the composite. 相似文献
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B. Heider E. Scharifi T. Engler M. Oechsner K. Steinhoff 《Materialwissenschaft und Werkstofftechnik》2021,52(2):145-151
In this study forming tools temperated at 24 °C and 350 °C were used to systematically investigate the influence of different cooling rates on the mechanical and corrosion properties of a high strength aluminum alloy AA7075 within a novel thermo-mechanical process that combines forming and quenching simultaneously. The samples formed within heated tools reveal higher ductility and lower material strength compared to the parts processed in cold tools. In addition, the corrosion behavior changed between samples formed with 24 °C forming tools and 350 °C forming tools, respectively. Through cyclic polarization in chloride containing aqueous media a change in the hysteresis and shift of open circuit potential was observed. Metallographic investigation revealed that there was also a very different corrosion morphology for the samples formed within the heated tools. No change in average grain size could be detected but changes of the microstructure in subgrain scale that occur during the forming within the heated tools are responsible for this effect. In further research, the effect of various cooling rates on mechanical and corrosion behavior and the microstructure will be investigated by variation of the forming tool temperature. 相似文献
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Correlation between precipitate microstructure and mechanical properties in AA7075‐T6 aluminum alloy friction stir welded joints
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A. Farzadi 《Materialwissenschaft und Werkstofftechnik》2017,48(2):151-162
Microstructural evolution and mechanical properties of friction stir welded AA7075‐T6 aluminum alloy were examined. Grain structure and precipitate evolution in the stir zone and heat‐affected zone were evaluated using optical microscope and differential scanning calorimetry. A significant grain refinement and dissolution of η′ precipitates in the stir zone were found, but chromium‐bearing dispersoids remained nearly unchanged. The main particles in the stir zone and heat‐affected zone were η precipitates as well as Guinier‐Preston zones formed during post‐weld natural aging. The small recrystallized grains were observed in the thermo‐mechanically affected zone next to the stir zone. A W‐shaped hardness distribution where soft region was produced in the heat‐affected zone at a short distance from the stir zone were obtained. Hardness profiles of the welds were explained by precipitate distributions. Friction stir welding resulted in the reversion and coarsening of η′ precipitates. The formation of Guinier‐Preston zones in the stir zone and some parts of the heat‐affected zone during post‐weld natural aging increased the hardness. In transverse tensile specimens, fracture occurred in a location with the minimum hardness at either advancing or retreating side randomly. Further, influences of welding parameters on mechanical properties were investigated. 相似文献