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| Author | : Ercan Özgan |
| Publisher | : |
| Total Pages | : |
| Release | : 2015-08-13 |
| Genre | : Technology & Engineering |
| ISBN | : 9781632780508 |
| Author | : Pierre-Claude Aïtcin |
| Publisher | : CRC Press |
| Total Pages | : 529 |
| Release | : 2007-08-07 |
| Genre | : Technology & Engineering |
| ISBN | : 0203940482 |
Linking theory to practice, this book provides a better fundamental understanding of Portland cement and hydraulic binders which is necessary to make better concrete. It has been clearly demonstrated that concrete durability is closely linked to its water/binder ratio and proper curing during the first week after casting. In this rigorously presented work, Pierre-Claude Aïtcin explains the complexity of the hydration reaction and how to make, use and cure durable and sustainable concrete. This book also details the problems with Portland cement composition at present and outlines the concept of an ideal hydraulic binder which is technically and ecologically efficient, as well as being long-lasting and robust. Binders for Durable and Sustainable Concrete is a practical and innovative reference text which will be particularly relevant to engineers and chemists working in the Portland cement, concrete and admixture industries. This book will also be of interest to academics and graduate-level students in Civil Engineering departments who specialize in Portland cement and concrete technology.
| Author | : Kenneth R. Wardlaw |
| Publisher | : ASTM International |
| Total Pages | : 368 |
| Release | : 1992 |
| Genre | : Asphalt |
| ISBN | : 0803114133 |
"ASTM Publication Code Number (PCN) 04-011080-08. - "Sponsored by ASTM Committee D-4 on Road and Paving Materials."-- Foreword. - Includes bibliographical references and indexes. - Electronic reproduction; W. Conshohocken, Pa; ASTM International; 2011; Mode of access: World Wide Web; System requirements: Web browser; Access may be restricted to users at subscribing institutions.
| Author | : Francesco Canestrari |
| Publisher | : Springer |
| Total Pages | : 1024 |
| Release | : 2015-09-24 |
| Genre | : Technology & Engineering |
| ISBN | : 9401773424 |
This work presents the results of RILEM TC 237-SIB (Testing and characterization of sustainable innovative bituminous materials and systems). The papers have been selected for publication after a rigorous peer review process and will be an invaluable source to outline and clarify the main directions of present and future research and standardization for bituminous materials and pavements. The following topics are covered: - Characterization of binder-aggregate interaction - Innovative testing of bituminous binders, additives and modifiers - Durability and aging of asphalt pavements - Mixture design and compaction analysis - Environmentally sustainable materials and technologies - Advances in laboratory characterization of bituminous materials - Modeling of road materials and pavement performance prediction - Field measurement and in-situ characterization - Innovative materials for reinforcement and interlayer systems - Cracking and damage characterization of asphalt pavements - Recycling and re-use in road pavements This is the proceedings of the RILEM SIB2015 Symposium (Ancona, Italy, October 7-9, 2015).
| Author | : John C. Hardin |
| Publisher | : ASTM International |
| Total Pages | : 237 |
| Release | : 1995 |
| Genre | : Asphalt cement |
| ISBN | : 0803119887 |
A dozen papers from a December 1993 symposium in Dallas/Fort Worth, Texas. Among the topics are why the new proposed rheological properties of asphalt binders are required and how they compare to conventional properties, the development and use of the SHRP direct tension specification test, oxidatio
| Author | : |
| Publisher | : |
| Total Pages | : 75 |
| Release | : 2012 |
| Genre | : Electronic book |
| ISBN | : |
| Author | : Luís Picado Santos |
| Publisher | : |
| Total Pages | : 198 |
| Release | : 2020-09-18 |
| Genre | : |
| ISBN | : 9783039367108 |
This book is dedicated to the use of nanomaterials for the modification of asphalt binders, and to investigate whether or not the use of nanomaterials for asphalt mixtures fabrication achieves more effective asphalt pavement layers. A total of 10 contributions are included. Four are related to "Binder's modification" and five to "Asphalt mixtures' modification". The remaining contribution is a review of the effects of the modifications on nanomaterials, particularly nanosilica, nanoclays and nanoiron, on the performance of asphalt mixtures. The published group of papers fosters awareness about the use of nanomaterials to modify asphalt mixtures to obtain more performant and durable flexible road pavements.
| Author | : A.F. Nikolaides |
| Publisher | : CRC Press |
| Total Pages | : 716 |
| Release | : 2019-05-24 |
| Genre | : Technology & Engineering |
| ISBN | : 1351063251 |
Highway engineers are facing the challenge not only to design and construct sustainable and safe pavements properly and economically. This implies a thorough understanding of materials behaviour, their appropriate use in the continuously changing environment, and implementation of constantly improved technologies and methodologies. Bituminous Mixtures and Pavements VII contains more than 100 contributions that were presented at the 7th International Conference ‘Bituminous Mixtures and Pavements’ (7ICONFBMP, Thessaloniki, Greece 12-14 June 2019). The papers cover a wide range of topics: - Bituminous binders - Aggregates, unbound layers and subgrade - Bituminous mixtures (Hot, Warm and Cold) - Pavements (Design, Construction, Maintenance, Sustainability, Energy and environment consideration) - Pavement management - Pavement recycling - Geosynthetics - Pavement assessment, surface characteristics and safety - Posters Bituminous Mixtures and Pavements VII reflects recent advances in highway materials technology and pavement engineering, and will be of interest to academics and professionals interested or involved in these areas.
| Author | : Saman Barzegari |
| Publisher | : |
| Total Pages | : |
| Release | : 2019 |
| Genre | : |
| ISBN | : |
Construction of asphalt pavements, which are the most common type of pavements in the world, is heavily reliant on various non-renewable resources such as aggregates and petroleum-based asphalt binders. A crucial step toward developing a sustainable transportation infrastructure is reducing this dependency and shrinking the environmental footprint of the industry by replacing asphalt binders with alternative sustainable materials. Production of asphalt binders is known as the most energy demanding process involved in asphalt pavement construction, consuming over 40% of the energy in the industry. This results in release of substantial quantities of greenhouse gases, the main contributor toward climate change. This, along with steady increase in the price of asphalt binder due to higher demand, lower production and diminishing resources, warranted various studies to find sustainable alternatives for asphalt binders. One potential group of materials for this purpose are bio-binders. Bio-binders are made through processing of bio-oils, which are produced through thermochemical liquefaction of various biomass feedstocks. Due to variability of the source biomass, these bio-binders have varying properties, and require in-depth investigations. Majority of studies in this field have reported that bio-binders and their blends with asphalt binders (bio-asphalts) suffer from severe aging, hence, recommended limiting the replacement ratio of these materials to minimize the impact of this problem.This study was aimed toward evaluating the possibility of replacing substantial quantities of asphalt binder with bio-binders, and involved conducting thorough physical, rheological, chemical and performance evaluation of bio-binders and bio-asphalts. Four different bio-binders sourced from switchgrass, oakwood, and two blends of pine wood were used in this study. Results confirmed that all bio-asphalts are experiencing severe aging, which results in deterioration of the low-temperature properties of bio-asphalts. Hence, a practical method was sought for improving the low-temperature properties of bio-asphalts. This method, which was based on adjusting the properties of the aged bio-asphalts to match with the properties of aged base asphalt binder, involved addition of small quantities of rejuvenator to the bio-asphalts, and was found to be able to successfully offset the changes in properties of the bio-asphalts due to severe aging of the bio-binders. While having comparable long-term aged properties, the rejuvenator-modified bio-asphalts were found to be significantly softer than the base binder, which could be translated to lower construction and compaction temperatures, further reducing the energy demand of the asphalt pavement construction.Chemical experiments revealed that the upgrading process reduced the water and light-weight components content of the bio-oil significantly. Bio-binders were found to have significantly different chemical composition compared with conventional asphalt binders, having high water, low weight and polar molecule content. This significant difference between the chemical properties resulted in lack of chemical interaction between the two materials, hence, bio-asphalts were found to be a two-phased material, consisting of small droplets of bio-binders physically dispersed within the asphalt binder medium.Existence of free bio-binder particles can be problematic, as the bio-binders and asphalt binders have significantly different aging susceptibility. As the aged bio-binders were found to have highly different properties compared with asphalt binders, these aged droplets of bio-binder can affect the performance of mixtures made with bio-asphalts. Hence, a comprehensive mixture study was conducted to evaluate the performance of bio-asphalts in mixtures. Results of the study showed that bio-asphalt mixtures were in general showing less desirable properties at the same temperatures compared with the mixture made with conventional asphalt binders. This inferior performance was partly due to the softer nature of bio-asphalts compared with the base asphalt binder at the same temperatures. The softer nature of the bio-asphalt was caused by inclusion of rejuvenator to enhance the low-temperature properties of bio-asphalts. However, it was found that the mixtures made with bio-asphalts with no rejuvenator were less flexible compared with the control mixtures. This loss of flexibility can be due to the presence of severely aged bio-binder droplets in bio-asphalts, weakening the bond between aggregates and the bio-asphalts.Additional steps are required to facilitate the chemical interaction between asphalt binder and bio-binders, to eliminate the two-phase nature of bio-asphalts, which in turn can result in bio-asphalts with higher resistance to aging and better mixture performance.
| Author | : |
| Publisher | : |
| Total Pages | : 140 |
| Release | : 1998 |
| Genre | : |
| ISBN | : |
