Fourth RILEM International Conference on Concrete and Digital Fabrication
portes grátis
Fourth RILEM International Conference on Concrete and Digital Fabrication
Digital Concrete 2024
Lowke, Dirk; Boehler, David; Herding, Friedrich; Freund, Niklas
Springer International Publishing AG
09/2024
542
Dura
9783031700309
15 a 20 dias
Descrição não disponível.
.- PartI: Mixture Proportions.
.- 1: Development and characterization of a printable concrete made with construction and demolition waste aggregates.
.- Part II: Material Circularity and Sustainability.
.- 2: Sustainability Potential of Additive Manufactured Concrete Structures - Studies on the Life Cycle Assessment and Circularity of an Extruded Exterior Wall.
.- 3: Characterisation of the rheological behaviour of a resource-saving sustainable concrete in the context of 3D printing.
.- 4: The Second 3D-Printed Prefabricated Prefinished Volumetric Construction Building in Thailand: A New Sustainable and Efficient Approach for a Low-rise Prefab Modular Building.
.- 5: Low carbon footprint magnesium phosphate cement for 3D concrete printing.
.- 6: Quantifying 3D Concrete Printing Production Waste, etc.
.- 1: Development and characterization of a printable concrete made with construction and demolition waste aggregates.
.- Part II: Material Circularity and Sustainability.
.- 2: Sustainability Potential of Additive Manufactured Concrete Structures - Studies on the Life Cycle Assessment and Circularity of an Extruded Exterior Wall.
.- 3: Characterisation of the rheological behaviour of a resource-saving sustainable concrete in the context of 3D printing.
.- 4: The Second 3D-Printed Prefabricated Prefinished Volumetric Construction Building in Thailand: A New Sustainable and Efficient Approach for a Low-rise Prefab Modular Building.
.- 5: Low carbon footprint magnesium phosphate cement for 3D concrete printing.
.- 6: Quantifying 3D Concrete Printing Production Waste, etc.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
RILEM;Digital Concrete;3D Concrete Printing;cementitious materials;Smart Dynamic Casting;Shotcrete 3D Printing;Powder Bed Printing;Printing Technologies;Structural Engineering
.- PartI: Mixture Proportions.
.- 1: Development and characterization of a printable concrete made with construction and demolition waste aggregates.
.- Part II: Material Circularity and Sustainability.
.- 2: Sustainability Potential of Additive Manufactured Concrete Structures - Studies on the Life Cycle Assessment and Circularity of an Extruded Exterior Wall.
.- 3: Characterisation of the rheological behaviour of a resource-saving sustainable concrete in the context of 3D printing.
.- 4: The Second 3D-Printed Prefabricated Prefinished Volumetric Construction Building in Thailand: A New Sustainable and Efficient Approach for a Low-rise Prefab Modular Building.
.- 5: Low carbon footprint magnesium phosphate cement for 3D concrete printing.
.- 6: Quantifying 3D Concrete Printing Production Waste, etc.
.- 1: Development and characterization of a printable concrete made with construction and demolition waste aggregates.
.- Part II: Material Circularity and Sustainability.
.- 2: Sustainability Potential of Additive Manufactured Concrete Structures - Studies on the Life Cycle Assessment and Circularity of an Extruded Exterior Wall.
.- 3: Characterisation of the rheological behaviour of a resource-saving sustainable concrete in the context of 3D printing.
.- 4: The Second 3D-Printed Prefabricated Prefinished Volumetric Construction Building in Thailand: A New Sustainable and Efficient Approach for a Low-rise Prefab Modular Building.
.- 5: Low carbon footprint magnesium phosphate cement for 3D concrete printing.
.- 6: Quantifying 3D Concrete Printing Production Waste, etc.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.