Bond Life of Structural Epoxy-concrete Systems Under Accelerated Hygrothermal Aging PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Bond Life of Structural Epoxy-concrete Systems Under Accelerated Hygrothermal Aging PDF full book. Access full book title Bond Life of Structural Epoxy-concrete Systems Under Accelerated Hygrothermal Aging by Philip Wallace Hopkins. Download full books in PDF and EPUB format.
Author: Philip Wallace Hopkins Publisher: ISBN: Category : Hygrothermoelasticity Languages : en Pages : 202
Book Description
A laboratory study was conducted to investigate possible quantitative and qualitative methods for determining the bond life of structural epoxies externally bonded to concrete substrates. Three concrete mixtures, two surface preparation methods, and three structural epoxies were used creating eighteen combinations of bonded systems. Direct tension (pull-off) specimens were prepared from which a subset was submerged in heated water per a prescribed accelerated aging protocol for up to 200 days. A novel test fixture was designed to facilitate controlled-rate testing of the pull-off specimens. A total of 324 specimens were intermittently removed from submersion exposure and tested without replacement. An additional 12 concrete prisms were used to determine the direct tensile strength of the various substrates. Additional characterization testing was conducted for use in determining the significant factors contributing to changes in bond strength. These tests included concrete compressive strength and concrete surface profilometry. Bulk epoxy and concrete moisture uptake data was also generated for future use. Plots of the raw data imply bond strength decreases at a relatively rapid rate during early aging then slows with longer exposure periods. Analysis of variance testing was conducted as part of a multiple regression analysis which found that square root of concrete strength, square root of aging time, mean peak height, and matrix tensile strength were significant in explaining variations in bond strength. A numerical model was produced based on raw data from the significant factors. The raw data did exhibit instances of high variability (>10%). The fitted model was shown with a coefficient of determination of 63% but implied rapid initial decreasing strength which agreed with apparent trends in the plotted raw data. Bond life was calculated for each study combination as the point in aging time where bond strength decreases beneath the substrate tensile strength. Methods for transforming data points in order to lower variability were investigated but were shown to be inaccurate and impractical. To provide a direct comparison of bond strength values, isolation of bond strength in mixed-mode specimens was attempted but was determined to not be possible without impractical, complex methods. This conclusion implies that chemical bond and mechanical interlock may not readily be decoupled without similar intensive methods. A secondary objective was to determine bond life through a failure mode analysis approach. An alternative set of pull-off failure modes was first proposed to facilitate further discussion. Inconsistencies in mixed-mode specimen surfaces were noted by the author in previous studies that warranted the secondary investigation. New bi-directional fracture path behavior is conceptually posed which is preliminarily confirmed. This finding implies that the A6 failure mode may be used as an early indicator of impending termination of bond life. Collectively, conclusions from this study indicate key factors that affect bond strength, provide insight into bond degradation behavior under accelerated hygrothermal conditions, present a means for conducting controlled rate bond testing, and offer a quick and robust method for determining the onset of bond life in epoxy-concrete systems without the need for complex analyses or additional characterization testing.
Author: Philip Wallace Hopkins Publisher: ISBN: Category : Hygrothermoelasticity Languages : en Pages : 202
Book Description
A laboratory study was conducted to investigate possible quantitative and qualitative methods for determining the bond life of structural epoxies externally bonded to concrete substrates. Three concrete mixtures, two surface preparation methods, and three structural epoxies were used creating eighteen combinations of bonded systems. Direct tension (pull-off) specimens were prepared from which a subset was submerged in heated water per a prescribed accelerated aging protocol for up to 200 days. A novel test fixture was designed to facilitate controlled-rate testing of the pull-off specimens. A total of 324 specimens were intermittently removed from submersion exposure and tested without replacement. An additional 12 concrete prisms were used to determine the direct tensile strength of the various substrates. Additional characterization testing was conducted for use in determining the significant factors contributing to changes in bond strength. These tests included concrete compressive strength and concrete surface profilometry. Bulk epoxy and concrete moisture uptake data was also generated for future use. Plots of the raw data imply bond strength decreases at a relatively rapid rate during early aging then slows with longer exposure periods. Analysis of variance testing was conducted as part of a multiple regression analysis which found that square root of concrete strength, square root of aging time, mean peak height, and matrix tensile strength were significant in explaining variations in bond strength. A numerical model was produced based on raw data from the significant factors. The raw data did exhibit instances of high variability (>10%). The fitted model was shown with a coefficient of determination of 63% but implied rapid initial decreasing strength which agreed with apparent trends in the plotted raw data. Bond life was calculated for each study combination as the point in aging time where bond strength decreases beneath the substrate tensile strength. Methods for transforming data points in order to lower variability were investigated but were shown to be inaccurate and impractical. To provide a direct comparison of bond strength values, isolation of bond strength in mixed-mode specimens was attempted but was determined to not be possible without impractical, complex methods. This conclusion implies that chemical bond and mechanical interlock may not readily be decoupled without similar intensive methods. A secondary objective was to determine bond life through a failure mode analysis approach. An alternative set of pull-off failure modes was first proposed to facilitate further discussion. Inconsistencies in mixed-mode specimen surfaces were noted by the author in previous studies that warranted the secondary investigation. New bi-directional fracture path behavior is conceptually posed which is preliminarily confirmed. This finding implies that the A6 failure mode may be used as an early indicator of impending termination of bond life. Collectively, conclusions from this study indicate key factors that affect bond strength, provide insight into bond degradation behavior under accelerated hygrothermal conditions, present a means for conducting controlled rate bond testing, and offer a quick and robust method for determining the onset of bond life in epoxy-concrete systems without the need for complex analyses or additional characterization testing.
Author: Claudio Modena Publisher: CRC Press ISBN: 1315342669 Category : Technology & Engineering Languages : en Pages : 4087
Book Description
Brick and Block Masonry - Trends, Innovations and Challenges contains the lectures and regular papers presented at the 16th International Brick and Block Masonry Conference (Padova, Italy, 26-30 June 2016). The contributions cover major topics: - Analysis of masonry structures - Bond of composites to masonry - Building physics and durability - Case studies - Codes and standards - Conservation of historic buildings - Earthen constructions - Eco-materials and sustainability - Fire resistance, blasts, and impacts - Masonry bridges, arches and vaults - Masonry infill walls and RC frames - Masonry materials and testing - Masonry repair and strengthening - New construction techniques and technologies - Reinforced and confined masonry - Seismic performance and vulnerability assessment In an ever-changing world, in which innovations are rapidly implemented but soon surpassed, the challenge for masonry, the oldest and most traditional building material, is that it can address the increasingly pressing requirements of quality of living, safety, and sustainability. This abstracts volume and full paper USB device, focusing on challenges, innovations, trends and ideas related to masonry, in both research and building practice, will proof to be a valuable source of information for researchers and practitioners, masonry industries and building management authorities, construction professionals and educators.
Author: Hota V.S. GangaRao Publisher: CRC Press ISBN: 1420020196 Category : Technology & Engineering Languages : en Pages : 400
Book Description
Although the use of composites has increased in many industrial, commercial, medical, and defense applications, there is a lack of technical literature that examines composites in conjunction with concrete construction. Fulfilling the need for a comprehensive, explicit guide, Reinforced Concrete Design with FRP Composites presents specific informat
Author: Rod Martin Publisher: Elsevier ISBN: 1845694937 Category : Technology & Engineering Languages : en Pages : 543
Book Description
Ageing of composites is a highly topical subject given the increasing use of composites in structural applications in many industries. Ageing of composites addresses many of the uncertainties about the long-term performance of composites and how they age under conditions encountered in service.The first part of the book reviews processes and modelling of composite ageing including physical and chemical ageing of polymeric composites, ageing of glass-ceramic matrix composites, chemical ageing mechanisms, stress corrosion cracking, thermo-oxidative ageing, spectroscopy of ageing composites, modelling physical and accelerated ageing and ageing of silicon carbide composites. Part two examines ageing of composites in transport applications including aircraft, vehicles and ships. Part three reviews ageing of composites in non-transport applications such as implants in medical devices, oil and gas refining, construction, chemical processing and underwater applications.With its distinguished editor and international team of contributors, Ageing of composites is a valuable reference guide for composite manufacturers and developers. It also serves as a source of information for material scientists, designers and engineers in industries that use composites, including transport, chemical processing and medical engineering. Addresses many of the uncertainties about the long-term performance of composites and how they age under conditions encountered in service Reviews processes and modelling of composite ageing including chemical ageing mechanisms and stress corrosion cracking Discusses ageing of composites in both transport and non-transport applications ranging from aircraft to implants in medical devices
Author: Ian Flood Publisher: ASCE Publications ISBN: 9780784474464 Category : Technology & Engineering Languages : en Pages : 300
Book Description
Sponsored by the Committee on Expert Systems and Artificial Intelligence of the Technical Council on Computer Practices of ASCE. This report illustrates advanced methods and new developments in the application of artificial neural networks to solve problems in civil engineering.Ø Topics include: Øevaluating new construction technologies; Øusing multi-layeredØartificial neural networkØarchitecture to overcome problems with conventional traffic signal control systems; Øincreasing the computational efficiency of an optimization model; Øpredicting carbonation depth in concrete structures; Ødetecting defects in concrete piles; Øanalyzing pavement systems; Øusing neural network hybrids to select the most appropriate bidders for a construction project; and Øpredicting the Energy Performance Index of residential buildings. ØMany of the ideas and techniques discussed in this book cross across disciplinary boundaries and, therefore, should be of interest to all civil engineers.
Author: Lieping Ye Publisher: Springer Science & Business Media ISBN: 3642174876 Category : Technology & Engineering Languages : en Pages : 956
Book Description
"Advances in FRP Composites in Civil Engineering" contains the papers presented at the 5th International Conference on Fiber Reinforced Polymer (FRP) Composites in Civil Engineering in 2010, which is an official conference of the International Institute for FRP in Construction (IIFC). The book includes 7 keynote papers which are presented by top professors and engineers in the world and 203 papers covering a wide spectrum of topics. These important papers not only demonstrate the recent advances in the application of FRP composites in civil engineering, but also point to future research endeavors in this exciting area. Researchers and professionals in the field of civil engineering will find this book is exceedingly valuable. Prof. Lieping Ye and Dr. Peng Feng both work at the Department of Civil Engineering, Tsinghua University, China. Qingrui Yue is a Professor at China Metallurgical Group Corporation.
Author: Welchy Leite Cavalcanti Publisher: Springer ISBN: 9783319928098 Category : Technology & Engineering Languages : en Pages : 350
Book Description
This book is open access under a CC BY 4.0 license. It presents the results of the ComBoNDT European project, which aimed at the development of more secure, time- and cost-saving extended non-destructive inspection tools for carbon fiber reinforced plastics, adhered surfaces and bonded joints. The book reports the optimal use of composite materials to allow weight savings, reduction in fuel consumptions, savings during production and higher cost efficiency for ground operations.
Author: Geoffrey Mays Publisher: Cambridge University Press ISBN: 052132677X Category : Technology & Engineering Languages : en Pages : 350
Book Description
This book provides a complete and clear introduction to the use of adhesives to form load-bearing joints in bridges, civil engineering and building structures.
Author: Jan Wastiels Publisher: MDPI ISBN: 3039283308 Category : Technology & Engineering Languages : en Pages : 284
Book Description
This Special Issue presents the latest advances in the field of Textile-Reinforced Cement Composites, including Textile-Reinforced Concrete (TRC), Textile-Reinforced Mortar (TRM), Fabric-Reinforced Cementitious Matrix (FRCM), etc. These composite materials distinguish themselves from other fibre-reinforced concrete materials by their strain-hardening behaviour under tensile loading. This Special Issue is composed of 14 papers covering new insights in structural and material engineering. The papers include investigations on the level of the fibre reinforcement system as well as on the level of the composites, investigating their impact and fatigue behaviour, durability and fire behaviour. Both the strengthening of existing structures and the development of new structural systems such as lightweight sandwich systems are presented, and analysis and design methods are discussed. This Special Issue demonstrates the broadness and intensity of the ongoing advancements in the field of Textile-Reinforced Cement composites and the importance of several future research directions.
Author: Philip Wallace Hopkins
Author: Philip Wallace Hopkins
Author: Claudio Modena
Author: Hota V.S. GangaRao
Author: ACI Committee 440
Author: Rod Martin
Author: Ian Flood
Author: Lieping Ye
Author: Welchy Leite Cavalcanti
Author: Geoffrey Mays
Author: Jan Wastiels