SPP projects
Bletzinger (TU München)
Nonlinear optimization of geometrical defined joints for spatial curved precast concrete components considering different load cases and the influence of material and structural behavior aspects using isogeometric techniques
Budelmann/Kloft (TU Braunschweig)
Development of novel connections for geometrically complex surface and framework elements from UHPC (1st phase) | From joints to lightweight structures: Hybrid, dry-jointed bar, plane and three-dimensional structures made of UHPFRC (2nd phase)
Chudoba/Hegger (RWTH Aachen University)
Folded plate structures made of cementitious composites
Curbach 1D (TU Dresden)
Cross sectional adaption for rod-shaped elements in compression
Curbach 2D (TU Dresden)
Lightweight ceiling structures made of layered high-perfomance concrete
Dröder/Kloft (TU Brauschweig)
Non-Waste-Wax-Formwork: Novel precise formwork-technology on basis of 100% recyclable industrial wax for the fabrication of geometrically complex concrete elements
Empelmann (TU Brauschweig)
Ultra-light, thin-walled hollow concrete members (1st phase) | Ultra-light, thin-walled hollow concrete members under shear and torsion (2nd phase)
Fischer (TU München)
Shape optimized filigree rods made of UHPC and non-corrosive CFRP-reinforcement for variable three-dimensional trusses (1st phase) | Joining and design principles for two- and three-dimensional filigree trusses constructed of formoptimized UHPC rod members and corrosion-free CFRP-reinforcement (2nd phase)
Garrecht/Sawodny/Sobek (Universität Stuttgart)
Efficient automated Production of multifunctional graded components with mineral hollow bodies
Gehlen (TU München)
Functional grading, formwork and manufacturing technology with consideration of
segment topology
Gehlen/Winter (TU München)
Additive manufacturing of free formed reinforced concrete elements by selective binding with calcium silicate cements
Graubner/Knaack (TU Darmstadt)
Fundamental research towards an adaptive formwork system development for freeform concrete building components
Hegger (RWTH Aachen University)
Sandwich constructions with thin folded and curved concrete layers
Jäger (TU Dresden)
Research into the load bearing behaviour of light construction concrete slabs made by using crosschannel technology
Kohlmeyer/Andrä (TU Kaiserslautern/ITWM Kaiserslautern)
Construction and optimization of adhesive joints for plate and plane construction elements composed of high performance concrete
Kroll/Gelbrich (1) (TU Chemnitz)
Flexible multilayer GRP formworks for the production of double-curved lightweight concrete elements with stabilized spacer fabrics
Kroll/Gelbrich (2) (TU Chemnitz)
Design and production of double-curved lightweight concrete structures with bionic inspired force transmission elements by the use of flexible GFRP-formworks
Lohaus (Leibniz Universität Hannover)
Wrapped hybrid tubes
Lordick/Schlaich (TU Dresden/TU Berlin)
Methods and tools for design and fabrication of shell-like and thin-walled concrete structures with line geometry. Short title: Thin-walled concrete structures with line geometry
Lordick/Weiß (TU Dresden)
Force-adaptive discretisation of lightweight concrete components by means of line geometric modelling
Mark/Schnell (Ruhr-Universität Bochum/TU Kaiserslautern)
Light, microreinforced UHPC shell structures optimised to deformations using the example of parabolic trough collectors in concentrating solar power plants
Reese (RWTH Aachen University)
Model reduction and substructure technique – application to modular shell structures made of ultrahigh performance concrete
Schnellenbach-Held (Universität Duisburg-Essen)
Lightweight concrete slabs with biaxial load-bearing as bionic structures
Sobek (Universität Stuttgart)
Automated adaptive formwork for the production of concrete elements with curved surfaces
Sobek/Sawodny/Reinhardt (Universität Stuttgart)
Optimal structures made of functional graded concrete – design, dimensioning and automated production