Applications of Viscoelasticity

175,00 €*

Nach dem Kauf zum Download bereit Ein Downloadlink ist wenige Minuten nach dem Kauf im eigenen Benutzerprofil verfügbar.

ISBN/EAN: 9780128212110
Applications of Viscoelasticity: Bituminous Materials Characterization and Modeling starts with an introduction to the theory of viscoelasticity, emphasizing its importance to various applications in material characterization and modeling. It next looks at constitutive viscoelastic functions, outlines basic equations for different loading conditions, and introduces the Boltzmann superposition principle, relaxation modulus, and creep compliance. Mechanical models, including integer-order and fractional-order are studied next, featuring real experimentation data alongside the benefits and drawbacks of using each model in various real-world scenarios. The book then covers the correspondence principle, followed by time-temperature superposition, featuring a simple procedure to construct a real master curve and challenges that might be encountered. The concluding chapters cover the Hopkins and Hamming, Park and Kim, and General Power law methods for interconversion of constitutive viscoelastic functions, applications of viscoelasticity for experimental tests, and incremental form of viscoelastic relations for numerical modeling. The book also includes supplementary codes that users can duplicate and use in their own work. - Takes an applied approach to material viscoelasticity, explaining complicated viscoelastic equations and principles - Presents examples of those equations and principles being applied to common problems in realworld settings - Covers constitutive viscoelastic functions, including relaxation modulus and creep compliance - Outlines the construction of a master curve of viscoelastic material considering time-temperature superposition - Couples the correspondence principle with common viscoelastic experiments, such as threepoint bending beam, axial and torsional bar, and dynamic shear rheometer - Provides supplementary codes

Drr. Pouria Hajikarimi is an Assistant Professor and Director of the Advanced Pavement Laboratory in the Department of Civil and Environmental Engineering at Amirkabir University of Technology (Tehran Polytechnic). His primary research interests include both experimental and numerical investigations of homogeneous and heterogeneous viscoelastic materials. Additionally, he focuses on the utilization of bio-based and waste substances in various construction materials such as asphalt mixtures, cementitious concrete, and geopolymers. Dr. Hajikarimi has authored two textbooks, namely 'Applications of viscoelasticity: Bituminous materials characterization and modeling” and 'Constructional Viscoelastic Composite Materials: Theory and Application,” both published by Elsevier and Springer, respectively. With a publication record exceeding 80 high-quality journal papers, his contributions span diverse topics related to flexible and rigid pavements. He has also been engaged in various industrial projects and research initiatives in fields such as the production of rejuvenators for use in recycled asphalt mixtures, strategies for utilizing RAP to promote sustainable development and reduce carbon dioxide emissions, laboratory and numerical modeling of recycled asphalt mixtures with an environmental approach, and the utilization of wastewater treatment plant sludge for brick production. Some of these projects, in addition to resulting in scholarly publications, have led to patent registration and technological advancements in specific domains.

0 von 0 Bewertungen

Geben Sie eine Bewertung ab!

Teilen Sie Ihre Erfahrungen mit dem Produkt mit anderen Kunden.


shop display image

Möchten Sie lieber vor Ort einkaufen?

Haben Sie weiterführende Fragen zu diesem Buch oder anderen Produkten? Oder möchten Sie einfach doch lieber in der Buchhandlung stöbern? Wir sind gern persönlich für Sie da und beraten Sie auch telefonisch.

Buchhandlung Nettesheim GmbH
Hauptstraße 17
42349 Wuppertal
Telefon: 0202/472870

Mo – Fr09:30 – 18:00 UhrSa09:00 – 13:00 Uhr