Plasticity in Reinforced Concrete

Plasticity in Reinforced Concrete

Author: Wai-Fah Chen

Publisher: J. Ross Publishing

Published: 2007

Total Pages: 500

ISBN-13: 9781932159745

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J. Ross Publishing Classics are world-renowned texts and monographs written bt preeminent scholars. These books are available to students, researchers, professionals, and libararies.


CEB-FIP Model Code 1990

CEB-FIP Model Code 1990

Author: FIB – International Federation for Structural Concrete

Publisher: fib Fédération internationale du béton

Published: 1993-01-01

Total Pages: 462

ISBN-13: 0727716964

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This design code for concrete structures is the result of a complete revision to the former Model Code 1978, which was produced jointly by CEB and FIP. The 1978 Model Code has had a considerable impact on the national design codes in many countries. In particular, it has been used extensively for the harmonisation of national design codes and as basic reference for Eurocode 2. The 1990 Model Code provides comprehensive guidance to the scientific and technical developments that have occurred over the past decade in the safety, analysis and design of concrete structures. It has already influenced the codification work that is being carried out both nationally and internationally and will continue so to do.


Report No. FHWA-RD.

Report No. FHWA-RD.

Author: United States. Federal Highway Administration. Offices of Research and Development

Publisher:

Published: 1977

Total Pages: 704

ISBN-13:

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Developments in the Formulation and Reinforcement of Concrete

Developments in the Formulation and Reinforcement of Concrete

Author: Sidney Mindess

Publisher: Woodhead Publishing

Published: 2019-06-14

Total Pages: 443

ISBN-13: 0128189282

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Developments in the Formulation and Reinforcement of Concrete, Second Edition, presents the latest developments on topics covered in the first edition. In addition, it includes new chapters on supplementary cementitious materials, mass concrete, the sustainably of concrete, service life prediction, limestone cements, the corrosion of steel in concrete, alkali-aggregate reactions, and concrete as a multiscale material. The book's chapters introduce the reader to some of the most important issues facing today's concrete industry. With its distinguished editor and international team of contributors, users will find this to be a must-have reference for civil and structural engineers. - Summarizes a wealth of recent research on structural concrete, including material microstructure, concrete types, and variation and construction techniques - Emphasizes concrete mixture design and applications in civil and structural engineering - Reviews modern concrete materials and novel construction systems, such as the precast industry and structures requiring high-performance concrete


Behavior of UHPC Structural Members subjected to Pure Torsion

Behavior of UHPC Structural Members subjected to Pure Torsion

Author: Mohammed Ismail

Publisher: kassel university press GmbH

Published: 2015-01-01

Total Pages: 287

ISBN-13: 3862199525

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Ultra High Performance Concrete (UHPC) is characterized by a very high compressive strength which may reach more than 200 MPa. The behavior of this material under tension and compression actions has been established to be very brittle in nature. Discontinuous fibers (normally steel fibers) are usually added to the UHPC mix to introduce ductility. In order to investigate the beneficial effects of using fiber reinforced UHPC in structural members subjected to torsion, a series of experimental tests on 17 UHPC beams subjected to pure torsion were carried out. The test beams consisted of plain UHPC beams, UHPC beams reinforced with steel fibers only, UHPC reinforced with steel fibers and different combinations of traditional longitudinal and transverse reinforcement. The plain UHPC beams showed very brittle behavior, whereas the UHPC beams with steel fibers only showed a post cracking ductile behavior. The addition of little steel fiber volume (e.g. 0.5 %) to the plain UHPC beams enhanced the ductility. The enhancement at the ultimate capacity amounts to about 20 %. Meanwhile, the steel fibers with 0.9 % by volume showed much enhanced ductility and a maximum enhancement of the torsional carrying capacity up to 32 %. The addition of moderate steel fiber volume (e.g. 0.9 %) to one type of traditional reinforcement (either longitudinal or transverse) accomplished an effective post cracking torsional carrying mechanism. The steel fibers shows a tendency to replace the missing type of traditional reinforcement, however this should be confirmed by more tests and by using higher steel fiber volumes. A series of experimental tests on fiber reinforced UHPC prisms to investigate the post cracking shear strength and stiffness of the used UHPC mix (e.g. M3Q) was conducted. The results of these tests revealed that this fine grained UHPC mix has a weak post cracking shear behavior. The results of these tests were used later in the Finite Element (F.E) model. An analytical model based on the well known thin-walled tube analogy was developed in order to estimate the torsional carrying capacity of beams under pure torsion having different combinations of steel fibers and traditional reinforcement. The comparison between the test and model results showed very good agreement for all cases. A finite element model based on calibrated small scale tests was developed using ATENA F.E. package to predict the full load-deformation behavior of the test beams. The predictions of the model show very good agreement with the test results.


Constitutive Equations for Engineering Materials

Constitutive Equations for Engineering Materials

Author: Wai-Fah Chen

Publisher: Elsevier

Published: 2013-10-22

Total Pages: 595

ISBN-13: 1483101967

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Constitutive Equations for Engineering Materials, Volume 1: Elasticity and Modeling, Revised Edition focuses on theories on elasticity and plasticity of engineering materials. The book first discusses vectors and tensors. Coordinate systems, vector algebra, scalar products, vector products, transformation of coordinates, indicial notation and summation convention, and triple products are then discussed. The text also ponders on analysis of stress and strain and presents numerical analysis. The book then discusses elastic stress-strain relations. Basic assumptions; need for elastic models; isotropic linear stress-strain relations; principle of virtual work; strain energy and complementary energy density in elastic solids; and incremental relations grounded on secant moduli are described. The text also explains linear elasticity and failure criteria for concrete and non-linear elasticity and hypoelastic models for concrete. The selection further tackles soil elasticity and failure criteria. Mechanical behavior of soils; failure criteria of soils; and incremental stress-strain models based on modification of the isotropic linear elastic formulation are considered. The text is a good source of data for readers interested in studying the elasticity and plasticity of engineering materials.


Intermediate GNVQ Construction and the Built Environment

Intermediate GNVQ Construction and the Built Environment

Author: Des Millward

Publisher: Routledge

Published: 2014-09-15

Total Pages: 639

ISBN-13: 1317883187

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GNVQ Construction and the Built Environment: Intermediate provides essential coverage of the general skills, knowledge and understanding required for the four mandatory units in the Intermediate GNVQ. The book covers all the underpinning knowledge the student needs to know to satisfy the evidence indicators of the course and this is reinforced by worked examples, short answer questions as well as some more detailed assignments. This second edition has been revised in line with the 1997 content revision. Each chapter is written around the specifications of one unit and includes: brief introduction key areas covered by the chapter list of key learning objectives, drawn from the performance criteria key terms picked out in bold type, and included in glossary student tasks interspersed throughout the text improved integration of key skills While the text is primarily designed to satisfy the requirements of the Intermediate GNVQ course, it can also be used as a reference source at Foundation level.


Development of Ultra-High Performance Concrete against Blasts

Development of Ultra-High Performance Concrete against Blasts

Author: Chengqing Wu

Publisher: Woodhead Publishing

Published: 2018-03-19

Total Pages: 424

ISBN-13: 0081024967

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Development of Ultra-High Performance Concrete against Blasts: From Materials to Structures presents a detailed overview of UHPC development and its related applications in an era of rising terrorism around the world. Chapters present case studies on the novel development of the new generation of UHPC with nano additives. Field blast test results on reinforced concrete columns made with UHPC and UHPC filled double-skin tubes columns are also presented and compiled, as is the residual load-carrying capacities of blast-damaged structural members and the exceptional performance of novel UHPC materials that illustrate its potential in protective structural design. As a notable representative, ultra-high performance concrete (UHPC) has now been widely investigated by government agencies and universities. UHPC inherits many positive aspects of ultra-high strength concrete (UHSC) and is equipped with improved ductility as a result of fiber addition. These features make it an ideal construction material for bridge decks, storage halls, thin-wall shell structures, and other infrastructure because of its protective properties against seismic, impact and blast loads. - Focuses on the principles behind UHPC production, properties, design and detailing aspects - Presents a series of case studies and filed blast tests on columns and slabs - Focuses on applications and future developments