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Description Visualization, cross‐sections, micro mat (MM) reinforcement, and node details of the hybrid concrete‐steel (HCS) truss structure
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Formwork, assembly, and details of the hybrid concrete‐steel (HCS) truss structure
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Selected strain gauge data of the test specimens
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Crack patterns of the (a) RC beam, (b) RC truss structure, and (c) hybrid concrete‐steel (HCS) truss structure at failure
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Eccentricity/1st kernel ratio over load for the RC truss structure
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Load‐deflection curves of the test specimens
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Axial forces and bending moments (exemplarily for the RC truss structure), conceptual design with concrete (C) and steel (S) struts, respectively, node declaration: C, compression, T, tension, and...
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Test setup and positioning of linear variable displacement transducers (LVDT)
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Formwork and nodal reinforcement details of the RC truss structure
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description (a) Reference beam and reinforcement, (b) FE model of the initial design space, and (c) topology optimization result with structural steel (blue) and concrete (gray)
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Visualization, cross‐section dimensions, and reinforcement of the RC truss structure
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Utilization ratio of the optimized truss structures. hybrid concrete‐steel (HCS): a constant eccentricity of L/400 is assumed for each compressive strut when computing the stress ratio
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Mixture proportions and projected material parameters to design the test specimens
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Material parameters of the test specimens (N/mm2)
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Required height ratios h/h0 of material‐reduced cross‐sections for preserving the elastic bending stiffness at a residual volume ratio β
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete -
Description Simplified carbon footprint of the structures regarding the amount of cement and steel
Article Title: Downsizing weight while upsizing efficiency: An experimental approach to develop optimized ultra‐light UHPC hybrid beams
Publication Title: Structural Concrete