Advances in Novel Precast Concrete Structures

With the growing global demand for construction, precast concrete structures have gained prominence due to their advantages in building quality, time and labor savings, cost efficiency, and environmental friendliness. A variety of precast systems have been developed, including emulative, pretensioni...

Celý popis

Uloženo v:
Podrobná bibliografie
Médium: Online
Jazyk:angličtina
Vydáno: MDPI - Multidisciplinary Digital Publishing Institute 2026
Témata:
On-line přístup:ONIX_20260416T142754_9783725858996_18
Tagy: Přidat tag
Žádné tagy, Buďte první, kdo vytvoří štítek k tomuto záznamu!
_version_ 1869521592648728576
collection Directory of Open Access Books
description With the growing global demand for construction, precast concrete structures have gained prominence due to their advantages in building quality, time and labor savings, cost efficiency, and environmental friendliness. A variety of precast systems have been developed, including emulative, pretensioning, rocking, and modular systems, while integration with emerging civil engineering technologies—such as novel energy-dissipators and advanced materials (e.g., FRP, UHPC, ECC)—and alignment with modern construction concepts (e.g., building industrialization, smart/intelligent construction) further underscore their significance as an active and prosperous research area in civil engineering. It presents high-quality research on the development and study of novel precast concrete structures, focusing on state-of-the-art progress, advancements, and emerging trends. The published articles cover (but are not limited to) topics such as high-efficiency emulative precast systems; the application of high-performance concrete in precast structures; novel precast structures with energy-dissipators; precast steel–concrete composite structures; precast underground concrete structures; modular concrete structures; the static and seismic performance of prefabricated element connections; analytical and design methods for precast structures; reliability and probabilistic safety assessment of precast structures; and the long-term performance and life-cycle cost analysis of precast structures.
format Online
id doab-20.500.12854ir-175013
institution Directory of Open Access Books
language eng
publishDate 2026
publishDateRange 2026
publishDateSort 2026
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-1750132026-04-16T18:19:06Z Advances in Novel Precast Concrete Structures Guan, Dong-Zhi Zhu, Zhangfeng Sun, Jian Song, Lianglong Yang, Sen Precast concrete Shear wall Longitudinal elongation Vertical connection Multiple hardening Conceptual analysis Headed shear studs Steel–concrete composite structures Machine learning (ML) Isolation forest Partial dependence plot Prefabricated subway stations Monotone static test Entrance frame Development of cracks Stress distribution Reinforced concrete beam Shear crack Stiffness model Shear deformation Strut angle Variable angle truss model Precast concrete wall Vertical joint Dry joint Shear performance Seismic performance Prefabricated monolithic Reinforced concrete Composite wall panels Quasi-static test Epoxy resin concrete Interface Experiment Finite element High-strength bolts Prefabricated H-shaped steel Bolt hole types Three-point bending load Flexural strength Numerical simulation Prefabricated shear wall Horizontal joint Shear resistance Finite element analysis Sandwich wall panels Steel-glass FRP composite connector Bending capacity Composite performance Theoretical calculation Assembled integral structure Two-way multi-ribbed composite floor Vibration mode shapes Natural frequencies Acceleration–time history curve Theoretical formula Precast composite structure Eccentrically braced frame Energy balance Seismic response Additional influence Multi-stage energy dissipation thema EDItEUR::A The Arts thema EDItEUR::A The Arts::AM Architecture With the growing global demand for construction, precast concrete structures have gained prominence due to their advantages in building quality, time and labor savings, cost efficiency, and environmental friendliness. A variety of precast systems have been developed, including emulative, pretensioning, rocking, and modular systems, while integration with emerging civil engineering technologies—such as novel energy-dissipators and advanced materials (e.g., FRP, UHPC, ECC)—and alignment with modern construction concepts (e.g., building industrialization, smart/intelligent construction) further underscore their significance as an active and prosperous research area in civil engineering. It presents high-quality research on the development and study of novel precast concrete structures, focusing on state-of-the-art progress, advancements, and emerging trends. The published articles cover (but are not limited to) topics such as high-efficiency emulative precast systems; the application of high-performance concrete in precast structures; novel precast structures with energy-dissipators; precast steel–concrete composite structures; precast underground concrete structures; modular concrete structures; the static and seismic performance of prefabricated element connections; analytical and design methods for precast structures; reliability and probabilistic safety assessment of precast structures; and the long-term performance and life-cycle cost analysis of precast structures. 2026-04-16T18:18:53Z 2026-04-16T18:18:53Z 2025 book ONIX_20260416T142754_9783725858996_18 9783725858996 9783725859009 https://directory.doabooks.org/handle/20.500.12854/175013 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/ https://mdpi.com/books/pdfview/book/11913 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-5900-9 10.3390/books978-3-7258-5900-9 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725858996 9783725859009 264 CH open access
spellingShingle Precast concrete
Shear wall
Longitudinal elongation
Vertical connection
Multiple hardening
Conceptual analysis
Headed shear studs
Steel–concrete composite structures
Machine learning (ML)
Isolation forest
Partial dependence plot
Prefabricated subway stations
Monotone static test
Entrance frame
Development of cracks
Stress distribution
Reinforced concrete beam
Shear crack
Stiffness model
Shear deformation
Strut angle
Variable angle truss model
Precast concrete wall
Vertical joint
Dry joint
Shear performance
Seismic performance
Prefabricated monolithic
Reinforced concrete
Composite wall panels
Quasi-static test
Epoxy resin concrete
Interface
Experiment
Finite element
High-strength bolts
Prefabricated
H-shaped steel
Bolt hole types
Three-point bending load
Flexural strength
Numerical simulation
Prefabricated shear wall
Horizontal joint
Shear resistance
Finite element analysis
Sandwich wall panels
Steel-glass FRP composite connector
Bending capacity
Composite performance
Theoretical calculation
Assembled integral structure
Two-way multi-ribbed composite floor
Vibration mode shapes
Natural frequencies
Acceleration–time history curve
Theoretical formula
Precast composite structure
Eccentrically braced frame
Energy balance
Seismic response
Additional influence
Multi-stage energy dissipation
thema EDItEUR::A The Arts
thema EDItEUR::A The Arts::AM Architecture
Advances in Novel Precast Concrete Structures
title Advances in Novel Precast Concrete Structures
title_full Advances in Novel Precast Concrete Structures
title_fullStr Advances in Novel Precast Concrete Structures
title_full_unstemmed Advances in Novel Precast Concrete Structures
title_short Advances in Novel Precast Concrete Structures
title_sort advances in novel precast concrete structures
topic Precast concrete
Shear wall
Longitudinal elongation
Vertical connection
Multiple hardening
Conceptual analysis
Headed shear studs
Steel–concrete composite structures
Machine learning (ML)
Isolation forest
Partial dependence plot
Prefabricated subway stations
Monotone static test
Entrance frame
Development of cracks
Stress distribution
Reinforced concrete beam
Shear crack
Stiffness model
Shear deformation
Strut angle
Variable angle truss model
Precast concrete wall
Vertical joint
Dry joint
Shear performance
Seismic performance
Prefabricated monolithic
Reinforced concrete
Composite wall panels
Quasi-static test
Epoxy resin concrete
Interface
Experiment
Finite element
High-strength bolts
Prefabricated
H-shaped steel
Bolt hole types
Three-point bending load
Flexural strength
Numerical simulation
Prefabricated shear wall
Horizontal joint
Shear resistance
Finite element analysis
Sandwich wall panels
Steel-glass FRP composite connector
Bending capacity
Composite performance
Theoretical calculation
Assembled integral structure
Two-way multi-ribbed composite floor
Vibration mode shapes
Natural frequencies
Acceleration–time history curve
Theoretical formula
Precast composite structure
Eccentrically braced frame
Energy balance
Seismic response
Additional influence
Multi-stage energy dissipation
thema EDItEUR::A The Arts
thema EDItEUR::A The Arts::AM Architecture
topic_facet Precast concrete
Shear wall
Longitudinal elongation
Vertical connection
Multiple hardening
Conceptual analysis
Headed shear studs
Steel–concrete composite structures
Machine learning (ML)
Isolation forest
Partial dependence plot
Prefabricated subway stations
Monotone static test
Entrance frame
Development of cracks
Stress distribution
Reinforced concrete beam
Shear crack
Stiffness model
Shear deformation
Strut angle
Variable angle truss model
Precast concrete wall
Vertical joint
Dry joint
Shear performance
Seismic performance
Prefabricated monolithic
Reinforced concrete
Composite wall panels
Quasi-static test
Epoxy resin concrete
Interface
Experiment
Finite element
High-strength bolts
Prefabricated
H-shaped steel
Bolt hole types
Three-point bending load
Flexural strength
Numerical simulation
Prefabricated shear wall
Horizontal joint
Shear resistance
Finite element analysis
Sandwich wall panels
Steel-glass FRP composite connector
Bending capacity
Composite performance
Theoretical calculation
Assembled integral structure
Two-way multi-ribbed composite floor
Vibration mode shapes
Natural frequencies
Acceleration–time history curve
Theoretical formula
Precast composite structure
Eccentrically braced frame
Energy balance
Seismic response
Additional influence
Multi-stage energy dissipation
thema EDItEUR::A The Arts
thema EDItEUR::A The Arts::AM Architecture
url ONIX_20260416T142754_9783725858996_18