Your search keyword '"serviceability"' showing total 1,250 results

1. Residual Life Estimation for Flexible Pavements Using Serviceability Index

Author

Kumar, Saurabh, Saha, Gourab, Ferrara, Liberato, editor, Muciaccia, Giovanni, editor, and di Summa, Davide, editor

Published

2025

2. Influence of the Ground Reaction Force Prediction on the Human Structure Interaction Phenomenon: An Application of a Bipedal Model

Author

da Silva, Rafaela, Pimentel, Roberto, Pavic, Aleksandar, Hawryszków, Paweł, Zimmerman, Kristin B., Series Editor, Whelan, Matthew, editor, Harvey, P. Scott, editor, and Moreu, Fernando, editor

Published

2025

3. Inspection, Appraisal, and Rehabilitation Plan for the Main Shaft Tower at a Gold Mine

Author

Li, Sen, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, and Strauss, Eric, editor

Published

2025

4. Effective Moment of Inertia of Reinforced Concrete and Reinforced Steel Fiber-Reinforced Concrete One-Way Slabs.

Author

Jung Lee, Kyungchan Kim, Chadon Lee, and Songhee Lee

Subjects

CONSTRUCTION slabs, FIBER-reinforced concrete, REINFORCED concrete, MOMENTS of inertia, CONCRETE slabs, STEEL

Abstract

An effective moment of inertia (y unified for reinforced concrete (RC) and reinforced steel fibrous concrete (RSFC) one-way slabs was presented. Two model parameters for the degree of tension stiffening and plasticization of concrete in compression (PZC), where the relationships of concrete stresses and strains deviate from its linear elastic stage, were calibrated using 26 test results of RC and RSFC slabs, including eight slabs tested in this study for three different reinforcement ratios (p) and fiber contents (Wf). Comparisons with test results revealed that underestimated deflections were predicted with the Ie currently adopted as basic formats in different codes, for RC slabs having relatively lower or higher p values and RSFC slabs with wide ranges of p typical to one-way slabs. However, regardless of the magnitudes of p and Wf, reasonable deflections were predicted with the unified Ie, which was constituted with linearized weightfunctions of the ratio of cracking moment to moment in service and modified to include the effects of p, PZC, and Wf. [ABSTRACT FROM AUTHOR]

Published

2024

5. Ductility and strength of reinforced concrete beams strengthened with aluminum CNC waste.

Author

Almeshal, Ibrahim, Özkılıç, Yasin Onuralp, Aksoylu, Ceyhun, Karalar, Memduh, and Alharthai, Mohammad

Subjects

*CONCRETE beams, *INDUSTRIAL wastes, *REINFORCED concrete, *CONCRETE mixing, *CONCRETE industry

Abstract

The sustainable utility of industrial waste and by‐products is crucial to reduce environmental impact. Particularly relevant for the cement and concrete industry, where recycling and utilization of industrial waste can help to replace normal concrete and promote stable growth. One such waste material is aluminum computer numerical control waste (ALCNCW). This study investigated the performance of reinforced concrete beams incorporated with ALCNCW. It was decided to use the effects of the ALCNCW ratio and the proportion of longitudinal reinforcement as parameters. A total of 12 reinforced concrete beams were cast and tested with varying levels of lower reinforcement ratios (0.0125, 0.0074, and 0.0032) and ALCNCW ratios (1%, 2%, and 3% by weight), in addition to a control beam. The load‐carrying capacity, failure mode, crack patterns, ductility, and serviceability were analyzed. The findings of the experiments demonstrated that the cracking and bending effects of reinforced concrete beams were different depending on the quantity of tension reinforcement and ALCNCW that was used. The results indicate that adding 1% or 2% of ALCNCW to concrete beams has a negligible effect on the load capacity. However, the ductility of the beams was adversely affected. Nevertheless, adding ALCNCW to the concrete mix can still be implemented with a specific ratio. Finally, all 12 beams met the serviceability limit state requirements. [ABSTRACT FROM AUTHOR]

Published

2024

6. Probabilistic framework for quantifying infrastructure systems' resilience against floods.

Author

Daneshifar, Asma and Kashani, Hamed

Subjects

INFRASTRUCTURE (Economics), MONTE Carlo method, COST benefit analysis, DEPRECIATION, FLOODS

Abstract

This manuscript proposes a probabilistic framework to quantitatively assess communities' resilience by simulating the state and serviceability of their infrastructure systems from the onset of a flood until the end of recovery. It comprises multiple interconnected models. Hazard model characterizes flood parameters (e.g., depth and velocity). Depth-damage curves estimate the damage to infrastructure systems' components. The HEC-FIA mortality model characterizes the flood-induced casualties. Serviceability models determine the ability of interdependent infrastructure systems to meet the demand during the recovery process. The recovery models estimate the recovery duration and cost of damaged components probabilistically. The Monte Carlo analysis is employed to consider multiple relevant uncertainties, generating distributions of the flood-induced losses under various scenarios. The ratio of total losses to the gross regional product characterizes the community's resilience. This framework facilitates the assessment of the impact of various resilience enhancement measures, guiding the selection of appropriate measures through a cost-benefit analysis. [ABSTRACT FROM AUTHOR]

Published

2024

7. Strength Evaluation of CFRP-Strengthened RC Slab-Beams System by Load Test to Satisfy the Safety Requirements: A Case Study.

Author

Hanoon, Ammar N., Abdulhameed, Ali A., Al‐Zuhairi, Alaa Hussein, Ansari, Mohammad, Al Zand, Ahmed W., Banyhussan, Qais S., and Abdulhameed, Haider A.

Subjects

REINFORCED concrete testing, CARBON fiber-reinforced plastics, CRACKING of concrete, FINITE element method, FIRE testing

Abstract

The primary goal of in-situ load testing is to evaluate the safety and performance of a structural system under particular loading conditions. Advancements in building techniques, analytical tools, and monitoring instruments are prompting the evaluation of the appropriate loading value, loading process, and examination criteria. The procedure for testing reinforced concrete (RC) structures on-site, as outlined in the ACI Building Code, involves conducting a 24-h load test and applying specific evaluation criteria. This article detailed a retrofitting project for an RC slab-beams system by utilizing carbon fiber-reinforced polymer (CFRP) sheets to strengthen the structure following a fire incident. The RC structure showed indicators of deterioration, including deflections, concrete cracking, and concrete spalling in some zones. Whereas, a detailed presentation of the strengthening procedure as well as its evaluation, rationale for the loading procedure, instrumentation needs, assessment criteria, and outcomes of the field testing. The study concentrated on assessing the structure of the RC slab-beam system with widespread cracking in both the positive and negative moment areas. The finite element model was created and examined to help with the load test design, and it confirmed the field findings considerably. The proposed finite element (FE) model demonstrated a reduced estimation of net deflection value in comparison to the corresponding actual values. It maintained a highly acceptable mean value of 0.843 and a small deviation limit of 6.8%. [ABSTRACT FROM AUTHOR]

Published

2024

8. Relationship between Foreign Object Debris, Roughness, and Friction.

Author

Parsons, Timothy A. and Murrell, Scott D.

Subjects

*FOREIGN bodies, *MATHEMATICAL simplification, *FRICTION, *SPACE debris, *MATHEMATICAL forms, *PAVEMENTS, *LATENT variables

Abstract

The Federal Aviation Administration (FAA) is developing new design procedures to extend airport pavement life beyond 20 years based on the concept of serviceability: the measure of how well a pavement fulfills user expectations. A key element is a new distress megaindex called serviceability level (SL) whose components represent independent aspects of airport pavement serviceability: low foreign object damage (FOD) potential, low skid potential, and smoothness. This research validates the assumption of independence previously used to develop a probability-based form for SL. Independence greatly simplifies the mathematics of the new form, in particular, the ability to decompose a pavement condition model into multiple relatively simple submodels. Friction is shown to not correlate to the other two components. FOD and roughness are conditionally independent with a latent variable of crack and spall density. Conditional independence means the proposed SL formulation is generally valid but requires that FOD and roughness measurements or predictions be made at the same time using the same assumptions. [ABSTRACT FROM AUTHOR]

Published

2024

9. Parametric Analysis of Moment-Resisting Timber Frames Combined with Cross Laminated Timber Walls and Prediction Models Using Nonlinear Regression and Artificial Neural Networks.

Author

Hegeir, Osama Abdelfattah, Stamatopoulos, Haris, and Malo, Kjell Arne

Subjects

ARTIFICIAL neural networks, FINITE element method, MODE shapes, NONLINEAR regression, WIND pressure

Abstract

The light weight and moderate stiffness of multistorey timber buildings make them susceptible to increased lateral displacements and accelerations under service-level wind loading. Therefore, the fulfilment of serviceability requirements is a major challenge. In this study, linear elastic finite element analysis was used to perform a parametric study of moment-resisting timber frames combined with cross laminated timber walls. In the parametric study, various mechanical and geometrical parameters were varied within practical ranges. The results of the parametric study were used to derive simplified analytical expressions and to train artificial neural networks which can be used to estimate fundamental frequency, mode shape, top floor displacement, maximum inter-storey drift, and wind-induced acceleration. The analytical expressions and the artificial neural networks can be used for the preliminary assessment of serviceability performance of moment-resisting timber frames with and without cross laminated timber walls, under service-level wind loading. [ABSTRACT FROM AUTHOR]

Published

2024

10. Analysis of Seismic Responses and Vibration Serviceability in a High-Rise Timber–Concrete Hybrid Building.

Author

Zong, Chao, Zhai, Jiajun, Sun, Xiaoluan, Liu, Xingxing, Cheng, Xiaowu, and Wang, Shenshan

Subjects

VIBRATION (Mechanics), VIBRATION of buildings, WOOD floors, SEISMIC response, WOODEN-frame buildings, WOODEN beams

Abstract

Timber–concrete hybrid structures are commonly employed in multi-story timber buildings; however, further research is necessary to fully understand the seismic performance of these structures as well as the dynamic properties of the floor. The two dynamic concerns, seismic effects and the vibration of floors in hybrid structures, are key issues, in view of which this study aimed to investigate the small-seismic-response spectra and elastic time histories in a high-rise timber hybrid building, specifically the medical technology building of Jiangsu Provincial Rehabilitation Hospital in China. The dynamic characteristics of a localized cross-laminated timber (CLT) floor were tested in situ, and the impacts of human-induced vibration were quantified. Comprehensive theoretical analysis results reveal that the basic vibration pattern of the structure was mainly translational in nature and that the period ratio, inter-story displacement angle, and shear-to-weight ratio all met the demands of the Chinese timber building design code. The experimental test results show that the vertical natural frequency of the CLT floor was about 15.96 Hz and thus met appropriate requirements with respect to natural frequency. However, peak floor acceleration was found to be high under the conditions of a single person walking quickly, a single person trotting, and multiple persons walking randomly. In light of these findings, the floor should be paved with a fine-grained concrete building surface, according to design requirements, so that its serviceability might be improved. Overall, the relevant analytical methods presented in this paper provide guidance and practical reference for the seismic analysis of timber hybrid structures, as well as vibration serviceability analysis for CLT floors. [ABSTRACT FROM AUTHOR]

Published

2024

11. Prestress loss in unbonded prestressed concrete beams based on the strain reduction coefficient.

Author

Páez, Pablo M. and Sensale-Cozzano, Berardi

Abstract

Based on the strain reduction coefficient methodology, which enables an analysis of a beam with external or internal unbonded tendons as a beam with bonded tendons, and using the age-adjusted effective modulus method for time analyses of prestressed concrete members under long-term loads, this paper proposes an equation for the calculation of prestress loss in simply supported beams with internal unbonded tendons. The proposed equation takes into account the effects of concrete creep, concrete shrinkage, relaxation of the prestressing steel, and the presence of a bonded, non-prestressed reinforcement. The main goal of this study is to reduce a relatively complex problem, in which it is necessary to analyse the member as a whole, to one of sectional analysis. As our main conclusion, we find that the loss of prestress obtained by applying the proposed equation has an accuracy that is comparable with the results of previous studies and with the application of existing formulations. [ABSTRACT FROM AUTHOR]

Published

2024

12. Quantifying the serviceability flexural benefits of using UHPFRC in profiled slabs.

Author

Chen, S., Visintin, P., Sturm, A. B., and Oehlers, D. J.

Subjects

*CONCRETE, *FIBERS, *DURABILITY, *CONCRETE slabs, *DESIGN

Abstract

Using ultra‐high‐performance fiber‐reinforced concrete (UHPFRC) in profiled slabs, as opposed to normal strength concrete without fibers, has been shown experimentally to significantly increase both the bond between the profiled sheet and the concrete, and the tensile forces across cracked concrete. The consequence of these fiber benefits is to substantially increase the flexural rigidity leading to reduced deflections and also to substantially reduced crack widths leading to improved behavior under serviceability loads and to improved durability. To quantify these benefits so that they can be used in design, a rational partial‐interaction numerical model has been developed that can incorporate the material properties of any type of UHPFRC including time‐effects. This modeling should help in the development of simplified design rules for specific fiber types. [ABSTRACT FROM AUTHOR]

Published

2024

13. Parameter Optimization of High-Frequency Floor Based on Semirigid Boundary Conditions and Its Effect on the Serviceability of Human-Induced Vibration.

Author

Pu, Xinglong, He, Tianhu, and Zhu, Qiankun

Subjects

*VIBRATION (Mechanics), *MODE shapes, *SPLINES, *RANDOM walks, *MODAL analysis, *RESEARCH personnel

Abstract

The accurate representation of real floor behavior is crucial for assessing human-induced vibration serviceability. Many researchers focus on developing computational models and field testing to reflect actual serviceability conditions. Although traditional boundary conditions are commonly used, limited attention has been given to optimizing these conditions. To begin with, this paper introduced semirigid boundary conditions into a finite-element model of the floor and optimized physical parameters and boundary constraint stiffness using the simulated annealing-particle swarm optimization (SA-PSO) method, resulting in a more realistic computational model. Subsequently, a random crowd load model was established by combining the social force model (SFM) and the pedestrian load model, and a random crowd-floor mutual coupling calculation model was established based on the improved pedestrian biomechanical model. In addition, the mode shape functions of the floor with semirigid boundary conditions were obtained by extracting the optimized mode shape vector of the floor and using cubic spline interpolation. The dynamic response of the floor was computed using the modal analysis method, and the accuracy of the suggested method and model was verified by experiment. Furthermore, the effect on the vibration serviceability of the floor was analyzed under crowd walks randomly on the floor with different boundary conditions both before and after optimization. This study revealed: (1) achieving a computational model consistent with real floors requires optimization of relevant parameters and boundary conditions, reducing the error in floor frequency from 39.48% to 5.44% compared to measured results. (2) The human-induced vibration serviceability for existing floors may be misjudged by using traditional boundary conditions. The mean value of peak acceleration of floor with semirigid boundary conditions increased by 35.92%, with a 42% increase in the probability of serviceability problems compared to the SSCC boundary. (3) High-frequency floors also experience human-induced vibration serviceability issues. For a floor with a fundamental frequency of 10.3540 Hz, simulation and experimental results during five-person random walks indicate that peak acceleration at the middle position of the floor exceeds serviceability limits. [ABSTRACT FROM AUTHOR]

Published

2024

14. ЭКОСИСТЕМНЫЙ, ЦИФРОВОЙ И ЧЕЛОВЕКОЦЕНТРИЧНЫЙ ПОДХОД НА ГОСУДАРСТВЕННОЙ СЛУЖБЕ: МЕЖДУНАРОДНЫЙ ОПЫТ И ВОЗМОЖНОСТИ ДЛЯ КАЗАХСТАНА

Author

ИСКЕНДИРОВА, Сауле, ДАУЕШОВА, Алия, and АМИРОВА, Айгерим

Abstract

Copyright of Public Administration & Civil Service / Memlekettìk Basķaru Ža̋ne Memlekettìk Ķyzmet is the property of Academy of Public Administration under the President of the Republic of Kazakhstan / Akademiya Gosun and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. MULTI-OBJECTIVE GREEN DESIGN MODEL BASED ON COSTS, CO2 EMISSIONS AND SERVICEABILITY FOR HIGH-RISE BUILDINGS WITH A MEGA-STRUCTURE SYSTEM.

Author

CHOI, Jewoo, LEE, Seung Hyeong, HONG, Taehoon, LEE, Dong-Eun, and PARK, Hyo Seon

Subjects

*SUSTAINABLE building design & construction, *SKYSCRAPERS, *MAINTAINABILITY (Engineering), *STRUCTURAL optimization, *CLIMATE change mitigation

Abstract

In light of growing environmental concerns, the reduction of CO2 emissions is increasingly vital. Particularly in the construction industry, a major contributor to global carbon emissions, addressing this issue is critical for environmental sustainability and mitigating the accelerating impacts of climate change. This study proposes the Optimal Green Design Model for Mega Structures (OGDMM) to optimise CO2 emissions, cost-effectiveness, and serviceability in highrise buildings with mega structures. The OGDMM examines the impact of each material and structural design of main members on these three critical aspects. Analytical results for high-rise buildings (120-200 m, slenderness ratio: 2.0-8.0) demonstrate that OGDMM can reduce CO2 emissions and costs by an average of 4.67% and 3.97%, respectively, without compromising serviceability. To ensure comprehensive evaluation, this study introduces five new evaluation indicators encompassing environmental, economic, and serviceability performances of high-rise buildings. Based on these criteria, optimised structural designs for high-rise buildings are classified into four categories according to slenderness ratio, leading to the formulation of corresponding design guidelines. The model's applicability is further validated through its application to a 270-m-tall high-rise building in Korea, showing reductions in CO2 emissions and costs by 8.99% and 18.50%, respectively, while maintaining structural serviceability. [ABSTRACT FROM AUTHOR]

Published

2024

16. Analysis of Structural Safety of Structures when Accounting Processes of Progressive Destruction.

Author

Mamatov, Zh. Y., Abdykalykov, A. A., and Shamshiev, N. U.

Published

2024

17. Laboratory Facilities as Predictors of Academic Performance among Maritime Students.

Author

BERRO, ERNESTO, CALONIA, ROMEO, ALASTRA, JAO L., ASIS, JUSTINE D., CAYAO, AHLECKZ S., RENDON, RUEL P., and SOZALO, JUDIE T.

Subjects

TEACHING methods, LABORATORY equipment & supplies, RESEARCH personnel, ACADEMIC achievement, SAFETY standards

Abstract

This study investigates the influence of laboratory facilities on maritime students' learning and extent of delivery of instruction at the Merchant Marine Academy of Caraga Inc. It emphasizes the need for improvements to align with industry requirements and prepare students for future challenges. The research examines the impact of specific facilities like the seamanship lab, bridge simulator, and chart room. The researchers used a quantitative approach to gather data from maritime students and instructors through surveys. The analysis focused on the serviceability of the labs in terms of equipment availability, maintenance, and safety standards. The justification for the research is further supported by the findings, which indicate that most facilities are in good working order, with serviceability ranging from 77% to 87%. Interestingly, the study highlights that instructor expertise is just as important as the facilities themselves. It emphasizes that instructor experience and teaching methods significantly impact student learning, suggesting a need for investment in instructor development alongside improvements to the laboratories. In conclusion, the abstract justifies the research by demonstrating that laboratory facilities are important for maritime student learning and that there is a need for improvement in order to prepare students for the challenges of the maritime industry. The abstract outlines a methodology to investigate this and presents preliminary findings that justify further research. [ABSTRACT FROM AUTHOR]

Published

2024

18. Structural Vibration Comfort: A Review of Recent Developments.

Author

Xie, Weiping and Hua, Yumeng

Subjects

STRUCTURAL dynamics, VIBRATION of buildings, STANDARD of living, NONPROFIT sector, SKYSCRAPERS, IMPACT loads, TALL buildings, BRIDGE vibration

Abstract

With continuous improvements in the social economy and living standards of individuals, the vibration comfort of building structures has gradually been emphasized by academic and engineering communities, such as vehicle-induced vibrations in buildings near traffic, human-induced vibrations in large-span structures, wind-induced vibrations in super-high-rise buildings, and machinery-induced structural vibrations. Comfort-based structural analysis is distinct from traditional safety-based structural analysis, and its theoretical systems and unified guidelines have not yet been established. This paper reviews recent research on structural vibration comfort, including major load categories and their impacts, comfort-based structural analysis, evaluation methods, and vibration-mitigation measures. By presenting the shortcomings of the existing research, potential topics for future study are suggested. [ABSTRACT FROM AUTHOR]

Published

2024

19. Flexural and Serviceability Behavior of Steel, GFRP, and Steel-GFRP Hybrid Reinforced Beams

Author

Ibrahim, Mostafa, Asadian, Alireza, Galal, Khaled, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Desjardins, Serge, editor, Poitras, Gérard J., editor, El Damatty, Ashraf, editor, and Elshaer, Ahmed, editor

Published

2024

20. Analysis of Case Studies on Landfill Failures—Lessons Learnt

Author

Rambabu, S., Jannepally, Sai Sampreeth Reddy, Bonagiri, Varsha, Ashok Kumar, M., Moghal, Arif Ali Baig, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Jose, Babu T., editor, Sahoo, Dipak Kumar, editor, Shukla, Sanjay Kumar, editor, Krishna, A. Murali, editor, Thomas, Jimmy, editor, and Veena, V., editor

Published

2024

21. The Role of Sustainability in Target Reliability Assessment

Author

Chaitezvi, Lloyd, McLeod, Christina, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Matos, José C., editor, Lourenço, Paulo B., editor, Oliveira, Daniel V., editor, Branco, Jorge, editor, Proske, Dirk, editor, Silva, Rui A., editor, and Sousa, Hélder S., editor

Published

2024

22. Transportation Infrastructures Exposed to Seismic Risk: Evaluation of Social Costs for Resilience Design

Author

D’Apuzzo, Mauro, Evangelisti, Azzurra, Cappelli, Giuseppe, Nicolosi, Vittorio, Spacagna, Rose-Line, Paolella, Luca, Wu, Wei, Series Editor, and Rotaru, Ancuța, editor

Published

2024

23. Should EBFs Be Preferred Over CBFs in EQRD?

Author

Panda, P. N., Selot, R., Chakrabarti, A., Prakash, V., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Goel, Manmohan Dass, editor, Kumar, Ratnesh, editor, and Gadve, Sangeeta S., editor

Published

2024

24. Serviceability Assessment of FRP-Reinforced Concrete Beams Using Parametrized Tensile Stress Block

Author

Ng, P. L., Kaklauskas, G., Lam, J. Y. K., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Barros, Joaquim A. O., editor, Kaklauskas, Gintaris, editor, and Zavadskas, Edmundas K., editor

Published

2024

25. Footbridge Vibration Predictions and Interaction with Walking Load Model Decisions

Author

Pedersen, Lars, Frier, Christian, Zimmerman, Kristin B., Series Editor, Platz, Roland, editor, Flynn, Garrison, editor, Neal, Kyle, editor, and Ouellette, Scott, editor

Published

2024

26. Serviceability assessment of lively skywalk footbridge under dynamic loadings of human motions in the vadodara metropolitan area

Author

Tank, Yati R. and Vesmawala, G. R.

Published

2024

27. Glass serviceability limits: new evidence from human-centred studies

Author

Hassen, Mohammed, de la Barra, Pedro, Oke, Sagar, Overend, Mauro, Bilow, Marcel, and Luna-Navarro, Alessandra

Published

2024

28. A critical state-based thermo-elasto-viscoplastic constitutive model for thermal creep deformation of frozen soils.

Author

Amini, Dana, Maghoul, Pooneh, Holländer, Hartmut, and Bilodeau, Jean-Pascal

Subjects

*FROZEN ground, *SOIL creep, *SOIL mechanics, *GLOBAL warming, *FLUID pressure, *HEAT resistant steel

Abstract

In northern regions, the long-term serviceability of infrastructure founded on frozen ground is adversely affected by climate warming. Rates of change in temperature, which are not identical spatially and temporally, can remarkably dictate the magnitude and evolution of permafrost degradation. Investigating such impacts requires a non-isothermal rate-dependent geomechanical constitutive model for ice-contained geomaterials. In this paper, a critical-state thermo-elasto-viscoplastic (TEVP) constitutive model is developed for modeling time- and temperature-dependent behavior of frozen soils using the concepts of thermo-elasticity and thermo-viscoplasticity. Solid phase stress (defined as the excess of total stress over fluid pressure), in addition to the cryogenic suction, are considered as the two independent stress state variables to establish the model. The proposed model is able to satisfactorily capture the rate-dependent behavior of frozen soils observed in the experimental tests reported in the literature. [ABSTRACT FROM AUTHOR]

Published

2024

29. Design Tool for Finding Minimum Heights of Reinforced Concrete Beams and One-Way Slabs.

Author

Sanabra-Loewe, Marc, Garcia, David, Tošić, Nikola, and de la Fuente, Albert

Subjects

CONCRETE beams, CONCRETE slabs, CONSTRUCTION slabs, REINFORCED concrete, MOMENTS of inertia, COMPRESSIVE strength

Abstract

Finding the minimum height of reinforced concrete (RC) slabs and beams at the early stages of design is critical for efficient material use. Hence, methods are needed for determining the maximum slenderness, L/h, that are both easy to use and able to consider as many influencing factors as possible, given that deflection typically controls the design of this kind of structure. One such method is the "long method of Rangan-Scanlon," with recent advances in new closed-form solutions enabling direct calculation. This study builds on those advances, presenting a parametric study for RC beams and one-way slabs to determine the effect of key factors (compressive strength of concrete, reinforcement cover, span, tributary width, load, and boundary conditions) on the effective moment of inertia factor α and slenderness L/h. The results provide practical design tools for determining the maximum slenderness of RC one-way slabs by previously finding the α factor and directly determining the maximum slenderness for RC beams. [ABSTRACT FROM AUTHOR]

Published

2024

30. Shrinkage cracking in restrained FRC members containing conventional reinforcement.

Author

Tang, Porsiem, Amin, Ali, Gilbert, R. Ian, and Kaufmann, Walter

Subjects

*FIBER-reinforced concrete, *CRACKING of concrete, *CRACKS in reinforced concrete, *REINFORCED concrete

Abstract

This paper presents a rational approach for describing the cracking behavior of fully‐ and partially restrained fiber reinforced concrete members co‐reinforced with conventional reinforcement subjected to an axial force imparted by shrinkage. The proposed analytical model extends the approach developed by Gilbert for fully restrained reinforced concrete members to account for the post‐cracking strength offered by the fibers at each of the cracks as the concrete ages and dries. The effects of partial end‐restraint are also studied to gain a clearer understanding of the mechanism of direct tension cracking caused by restrained shrinkage and the factors affecting it. [ABSTRACT FROM AUTHOR]

Published

2024

31. Serviceability Limit State Assessment of Semi-Submersible Floating Wind Turbines.

Author

Shuaishuai Wang and Moan, Torgeir

Subjects

*WIND pressure, *PRODUCTIVE life span, *OFFSHORE structures

Abstract

The design of a floating wind turbine (FWT) should satisfy the serviceability limit state (SLS) requirement for an efficient and safe operation throughout the entire work life. The SLS requirements are introduced by the owner/developer of the wind turbine facility to achieve serviceability (production of power) or an efficient operation of the facility or a "first step" towards ensuring safety. Currently, there is limited information about SLS requirements in design standards. This study deals with an assessment of current methods, criteria, and procedure for the SLS design check with an emphasis on tilt/pitch and nacelle accelerations in view of power production and its fluctuations. Moreover, other criteria, on the borderline between serviceability and safety criteria, e.g., relating to clearance, are briefly discussed. The criteria relating to power production are illustrated in a case study with a 10-MW semi-submersible FWT considered for an offshore site in the Northern North Sea. Simplified static/dynamic analysis methods for use in the global design phase and high fidelity integrated, dynamic analysis methods for detailed design in terms of serviceability are presented, discussed, and applied in the case study. A good understanding of wind turbine dynamic performance associated with serviceability is essential to facilitate design decision-making. The relative contribution of wind and wave loads to the different SLS criteria is investigated. Finally, the main conclusions are summarized. In lieu of the current state of the art regarding SLS requirements for FWTs, we hope that this study provides a basis for improving design standards and guiding research and engineering practice for the semi-submersible floater design of FWTs. [ABSTRACT FROM AUTHOR]

Published

2024

32. PCI-Express: Evolution of a Ubiquitous Load-Store Interconnect Over Two Decades and the Path Forward for the Next Two Decades.

Author

Sharma, Debendra Das

Abstract

The Peripheral Component Interconnect Express (PCI-Express or PCle) architecture has been the ubiquitous backbone interconnect in the evolving computing landscape for more than two decades. This paper delves into the multiple innovations driving the backward-compatible evolution of PCle for seven generations, doubling bandwidth every generation, while delivering power-efficient and cost-effective performance. Compute Express Link (CXL) overlays coherency and memory protocols on top of PCle for heterogeneous computing, addressing the memory wall, resource pooling and sharing across servers, and distributed computing using load-store based messaging. The die-todie industry-standard, Universal Chiplet Interconnect Express $^{TM}$ (UCle), offers orders of magnitude improvement in bandwidth density, power efficiency, and latency for PCle and CXL protocols on-package and pod-level connectivity with co-packaged optics. We foresee PCle will continue to evolve over the next few decades to serve future computing needs. It will do so by embracing alternate media while backward-compatible frequency scaling with copper will continue and protocol enhancements will enable non-tree fabric topologies. [ABSTRACT FROM AUTHOR]

Published

2024

33. Gender Equality Barriers among Maritime Students: Basis for Gender and Development Program.

Author

SOTES, ALEXANDER, AGAD, ORZON, UNDAP, RODULFO, ACHICOSO, JUMAREY E., GUIRAL, JASPER JOHN D., IGNACIO, MILES HUMPHREY M., GERALD, RENZ, MALAKI, PETER J., and TORRALBA, ABRAN KENT V.

Subjects

*WOMEN in development, *MARITIME shipping, *MARITIME piracy, *GENDER inequality, *MARINE engineering, *ETHNICITY, *HIGHER education, *SOCIAL perception, *MENTORING

Abstract

This study investigates the gender equality barriers among maritime students in the Philippines, focusing on the influence of ethnicity and age on perceptions of these barriers. Utilizing a descriptive correlational method, the research involved 554 student respondents from the Merchant Marine Academy of Caraga, Inc. (MMACI). The study employed a questionnaire adapted from Fidan et al. (2020) to assess perceptions of structural and social barriers. The findings reveal significant gender disparities in the maritime education sector, with males dominating both BS Marine Engineering (BSMarE) and BS Marine Transportation (BSMT) programs. The study also highlights the interconnected nature of structural and social barriers, emphasizing the need for comprehensive interventions to promote inclusivity and equity. Additionally, the research identifies variations in perceptions of gender equality barriers based on ethnicity, particularly among BSMarE students. The study concludes by proposing an action plan to promote gender and development programs in the College of Maritime Education, emphasizing awareness, policy revisions, training, mentorship, and industry collaboration. [ABSTRACT FROM AUTHOR]

Published

2024

34. Structural safety and usability evaluation of one way voided slab with Formwork

Author

Moowon Hur, Hyun-Ho Lee, and Taewon Park

Subjects

hollow slab, serviceability, long-term deflection, mock-up test, usability, Architecture, NA1-9428, Building construction, TH1-9745

Abstract

This study proposed a formwork-integrated hollow slab with an improved shape made of a hollow material. The performance of the proposed formwork-integrated hollow slab was evaluated through flexural and shear tests. The results of the VPS flexural performance test showed that, for both FPS-01-1 and FPS-01-2, the yield load value was approximately 94 to 101% compared to that of FPS-00, with an average value of 97.5%. FNS-01-1 and FNS-01-2 showed about 99.4% of the yield load of the FNS-00 specimen, while FNS-02-1 and FNS-02-2 showed approximately 95.2% of the flexural performance of the FNS-00 specimen. As a result of the shear performance test of the integrated formwork hollow slab, in the case of SPS-01, the yield load value was about 92.4% compared to that of SS-00, which was slightly less than that of SS-00. This is believed to be due to the fact that the concrete cross-section is missing when using the hollow material. Also, this study also evaluated the proposed slab’s safety against immediate deflection and long-term deflection. After measuring long-term deflection for three months, the deflection value presented in the ACI 318–19 standard was found to be satisfied. This is because the hydration of concrete was stabilizing to some extent, and the causes of deflection were changing from external load factors to deflection due to drying shrinkage and creep acting inside the concrete

Published

2024

35. Parametric Analysis of Moment-Resisting Timber Frames Combined with Cross Laminated Timber Walls and Prediction Models Using Nonlinear Regression and Artificial Neural Networks

Author

Osama Abdelfattah Hegeir, Haris Stamatopoulos, and Kjell Arne Malo

Subjects

moment-resisting timber frame, CLT wall, multistorey timber building, wind-induced acceleration, serviceability, artificial neural network, Building construction, TH1-9745

Abstract

The light weight and moderate stiffness of multistorey timber buildings make them susceptible to increased lateral displacements and accelerations under service-level wind loading. Therefore, the fulfilment of serviceability requirements is a major challenge. In this study, linear elastic finite element analysis was used to perform a parametric study of moment-resisting timber frames combined with cross laminated timber walls. In the parametric study, various mechanical and geometrical parameters were varied within practical ranges. The results of the parametric study were used to derive simplified analytical expressions and to train artificial neural networks which can be used to estimate fundamental frequency, mode shape, top floor displacement, maximum inter-storey drift, and wind-induced acceleration. The analytical expressions and the artificial neural networks can be used for the preliminary assessment of serviceability performance of moment-resisting timber frames with and without cross laminated timber walls, under service-level wind loading.

Published

2024

36. Flexural improvement of reinforced concrete beams strengthened with self-prestressing shape memory alloys.

Author

Alkhairo, Ahmed, Oukaili, Nazar, and Al-Mahaidi, Riadh

Subjects

*CONCRETE beams, *PRESTRESSED concrete, *REINFORCING bars, *DEAD loads (Mechanics), *SHAPE memory alloys, *REINFORCED concrete, *NONLINEAR analysis

Abstract

The study reported here aims to investigate the application of shape memory alloys (SMAs) in the form of strips for strengthening cracked reinforced concrete (RC) beams. The study proposes an innovative technique for prestressing RC beams by utilizing the shape recovery property of the alloy. Nine full-scale RC beams with a length of 3.75 m and a cross-section of 200 mm × 300 mm were categorized into three groups based on the steel reinforcement ratio, and tested under static loading. Three RC beams were used as control specimens and the other six were retrofitted with either one layer or two layers of SMA strips. The beams to be strengthened were exposed to an initial applied load before the installation of the SMA strip to simulate the deterioration scenario. SMA strips were retrofitted on the soffits of the deteriorated beams and activated by applying temperature from an external heat source while the temperature-deflection-strain measurements were monitored. Specimens were tested again up to failure to evaluate the strength improvement of the retrofitted specimens. Beams retrofitted with one layer of SMA experienced a deflection recovery up to 2.3 mm upon activation and an additional service load of up to 62%, whereas beams retrofitted with two layers experienced a deflection recovery up to 2.8 mm and an additional service load of up to 95%. In general, the deflection recovery was proportional to the ratio of the total reinforcement ratio after strengthening to the initial reinforcement ratio before strengthening. Therefore, tested specimens with two SMA layers experienced less improvement than specimens with one SMA layer. Finally, the experimental results were evaluated with two analytical methods: ACI method and the non-linear sectional analysis proposed by Oukaili. [ABSTRACT FROM AUTHOR]

Published

2024

37. CASE STUDY ON RELIABILITY AND MAINTENANCE ANALYSIS OF MACHINERY IN AN INDUSTRIAL CONTEXT.

Author

GOLOȘIE, Grațian-Daniel, BECA, Andrada-Denisa, and CAZACU, Claudia-Irina

Subjects

*MEAN time between failure, *COST functions, *INDUSTRIAL costs, *INDUSTRIAL management, *INDUSTRIAL equipment

Abstract

The reliability and maintenance of machinery are essential aspects in modern industry, significantly impacting operational efficiency and production costs. This paper presents two practical case studies, addressing specific aspects of reliability and maintenance in an industrial context. The first part of the case study focuses on evaluating the reliability and maintenance of machinery in a production facility, using empirical data to calculate parameters such as mean time between failures (MTBF) and mean time to repair (MTR). The second part of the case study investigates the behavior of another set of machinery over ten operating cycles, analyzing the total cost of maintenance and the economic impact of production interruptions. By integrating empirical data with theoretical concepts in the field of reliability and maintenance, the paper provides a detailed perspective on the efficient management of machinery in the industrial environment. The findings contribute to the development of optimal strategies and practices in the field of reliability and maintenance, with significant implications for industry efficiency and competitiveness. [ABSTRACT FROM AUTHOR]

Published

2024

38. SUBSTANTIATION OF EXPEDIENCY OF USE OF TOOL HIGH-SPEED CUTTING STEELS AS COATINGS IN FRICTION UNITS.

Author

TAMARGAZIN, O., PRYIMAK, L., and MORSHCH, I.

Subjects

SURFACE coatings, TOOL-steel, COMPOSITE materials, CUTTING tools, TUNGSTEN carbide, ELECTRON beam furnaces

Abstract

The analysis of modern researches in the field of composite materials on the basis of tungsten carbide used as surfacing materials is carried out. In particular, the influence of morphology of carbide phase on wear resistance of materials is analyzed. Particular attention is paid to the analysis of conducted studies of ultrafine and nanograined composite materials, their comparative analysis with conventional micrograin coatings. The expediency of research of application of tool high-speed steels as coatings, applied by vacuum electron-beam processing method, which allows to organize micro-metallurgical process with minimal impact on the base metal and possibility to form hardened layer, the thickness of which is adjustable within wide limits, is substantiated. [ABSTRACT FROM AUTHOR]

Published

2024

39. Experimental investigation on the flexural behaviour of stainless steel reinforced concrete beams.

Author

Rabi, Musab, Shamass, Rabee, and Cashell, Katherine A.

Subjects

*REINFORCED concrete, *STAINLESS steel, *CONCRETE beams, *REINFORCED concrete corrosion, *DETERIORATION of concrete, *REINFORCING bars, *CONCRETE durability, *STEEL bars

Abstract

The durability of reinforced concrete (RC) structures and infrastructure has been the subject of significant attention from the engineering research community in recent years, mainly owing to the deterioration of RC elements due to corrosion of the embedded steel reinforcement. In this context, stainless steel reinforcement can provide an efficient solution to enhance the expected lifetime of concrete structures, reducing the damage due to corrosion of the reinforcement and carbonation and deterioration of the concrete. However, current international design standards for reinforced concrete structures do not include appropriate guidance for stainless steel reinforced concrete (SSRC). In order to investigate the behaviour of stainless steel RC beams, a series of six beam tests was conducted and is discussed herein. The key performance measures for RC beams such as load-deflection response, cracking behaviour and deflections at service load are assessed. The validity and applicability of existing design rules, which were developed for carbon steel RC, are also examined for stainless steel reinforced concrete members. Other recently developed design procedures, based on the Continuous Strength Method and including an accurate material model for the stainless steel bars, are also examined. [ABSTRACT FROM AUTHOR]

Published

2023

40. Formulation of multi-hazard damage prediction (MhDP) model for tunnelling projects in earthquake and landslide-prone regions: A novel approach with artificial neural networking (ANN).

Author

Ansari, Abdullah, Rao, K S, Jain, A K, and Ansari, Anas

Subjects

*EARTHQUAKES, *LANDSLIDES, *NATURAL disasters, *INFRASTRUCTURE (Economics)

Abstract

The two most common natural disasters in the Himalayas are earthquakes and landslides. Disaster-proof auditing is required for ongoing transportation infrastructure projects in this region. The Artificial Neural Networking (ANN) approach is used in the present study to train neural networks with input layers in terms of disaster parameters, structural configuration, and confining medium characteristics. This model will aid in predicting tunnel failure damage states during earthquake and landslide events. The proposed damage indices for various damage states of the portal and lining can be applied to define the co-seismic demand for individual structural elements. Co-seismic design recommendations will be useful in determining transportation infrastructure serviceability in post-disaster conditions. [ABSTRACT FROM AUTHOR]

Published

2023

41. Multi-objective green design model based on costs, CO2 emissions and serviceability for high-rise buildings with a mega-structure system

Author

Jewoo Choi, Seung Hyeong Lee, Taehoon Hong, Dong-Eun Lee, and Hyo Seon Park

Subjects

structural optimisation, green design, high-rise building, mega-structure system, serviceability, Building construction, TH1-9745

Abstract

In light of growing environmental concerns, the reduction of CO2 emissions is increasingly vital. Particularly in the construction industry, a major contributor to global carbon emissions, addressing this issue is critical for environmental sustainability and mitigating the accelerating impacts of climate change. This study proposes the Optimal Green Design Model for Mega Structures (OGDMM) to optimise CO2 emissions, cost-effectiveness, and serviceability in highrise buildings with mega structures. The OGDMM examines the impact of each material and structural design of main members on these three critical aspects. Analytical results for high-rise buildings (120–200 m, slenderness ratio: 2.0–8.0) demonstrate that OGDMM can reduce CO2 emissions and costs by an average of 4.67% and 3.97%, respectively, without compromising serviceability. To ensure comprehensive evaluation, this study introduces five new evaluation indicators encompassing environmental, economic, and serviceability performances of high-rise buildings. Based on these criteria, optimised structural designs for high-rise buildings are classified into four categories according to slenderness ratio, leading to the formulation of corresponding design guidelines. The model’s applicability is further validated through its application to a 270-m-tall high-rise building in Korea, showing reductions in CO2 emissions and costs by 8.99% and 18.50%, respectively, while maintaining structural serviceability.

Published

2024

42. Reliability assessment for serviceability limit states of stiffened deep cement mixing column-supported embankments

Author

Chana Phutthananon, Pornkasem Jongpradist, Kangwan Kandavorawong, Daniel Dias, Xiangfeng Guo, and Pitthaya Jamsawang

Subjects

Reliability analysis, Column-supported embankment (CSE) Stiffened deep cement mixing column, Serviceability, Adaptive kriging Monte Carlo simulation, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

The reliability and deterministic analyses of wood-cored stiffened deep cement mixing and deep cement mixing column-supported embankments (referred to as WSCSE and DCSE, respectively) considering serviceability limit state requirements are presented in this paper. Random field theory was used to simulate the spatial variability of soil−cement mixing (SCM) material in which the adaptive Kriging Monte Carlo simulation was adopted to estimate the failure probability of a column−supported embankment (CSE) system. A new method for stochastically generating random values of unconfined compressive strength (qu) and the ratio (Ru) between the undrained elastic modulus and qu of SCM material based on statistical correlation data is proposed. Reliability performance of CSEs concerning changes in the mean (μ), coefficient of variation (CoV), and vertical spatial correlation length (θv) of qu and Ru are presented and discussed. The obtained results indicate that WSCSE can provide a significantly higher reliability level and can tolerate more SCM material spatial variability than DCSE. Some performance of DCSE and WSCSE, which can be considered satisfactory in a deterministic framework, cannot guarantee an acceptable reliability level from a probabilistic viewpoint. This highlights the importance and necessity of employing reliability analyses for the design of CSEs. Moreover, consideration of only μ and CoV of qu seems to be sufficient for reliability analysis of WSCSE while for DCSE, uncertainties regarding the Ru (i.e. both μ and CoV) and θv of qu cannot be ignored.

Published

2023

43. Analysis of Seismic Responses and Vibration Serviceability in a High-Rise Timber–Concrete Hybrid Building

Author

Chao Zong, Jiajun Zhai, Xiaoluan Sun, Xingxing Liu, Xiaowu Cheng, and Shenshan Wang

Subjects

high-rise timber hybrid building, seismic analysis, CLT floor, serviceability, human-induced vibration, Building construction, TH1-9745

Abstract

Timber–concrete hybrid structures are commonly employed in multi-story timber buildings; however, further research is necessary to fully understand the seismic performance of these structures as well as the dynamic properties of the floor. The two dynamic concerns, seismic effects and the vibration of floors in hybrid structures, are key issues, in view of which this study aimed to investigate the small-seismic-response spectra and elastic time histories in a high-rise timber hybrid building, specifically the medical technology building of Jiangsu Provincial Rehabilitation Hospital in China. The dynamic characteristics of a localized cross-laminated timber (CLT) floor were tested in situ, and the impacts of human-induced vibration were quantified. Comprehensive theoretical analysis results reveal that the basic vibration pattern of the structure was mainly translational in nature and that the period ratio, inter-story displacement angle, and shear-to-weight ratio all met the demands of the Chinese timber building design code. The experimental test results show that the vertical natural frequency of the CLT floor was about 15.96 Hz and thus met appropriate requirements with respect to natural frequency. However, peak floor acceleration was found to be high under the conditions of a single person walking quickly, a single person trotting, and multiple persons walking randomly. In light of these findings, the floor should be paved with a fine-grained concrete building surface, according to design requirements, so that its serviceability might be improved. Overall, the relevant analytical methods presented in this paper provide guidance and practical reference for the seismic analysis of timber hybrid structures, as well as vibration serviceability analysis for CLT floors.

Published

2024

44. Effects of Design Provisions on the Response of RC Frame Structures to Foundation Settlements

Author

El Naggar, Abdelmoneim, Youssef, Maged A., El Naggar, Hany, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Gupta, Rishi, editor, Sun, Min, editor, Brzev, Svetlana, editor, Alam, M. Shahria, editor, Ng, Kelvin Tsun Wai, editor, Li, Jianbing, editor, El Damatty, Ashraf, editor, and Lim, Clark, editor

Published

2023

45. Whither EBFs Instead of CBFs for EQRD?

Author

Panda, P. N., Prakash, V., Chakrabarti, A., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Shrikhande, Manish, editor, Agarwal, Pankaj, editor, and Kumar, P. C. Ashwin, editor

Published

2023

46. Transportation Infrastructures Exposed to Seismic Risk: Evaluation of Social Costs for Resilience Design

Author

D’Apuzzo, Mauro, Evangelisti, Azzurra, Cappelli, Giuseppe, Nicolosi, Vittorio, Spacagna, Rose-Line, Paolella, Luca, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Gervasi, Osvaldo, editor, Murgante, Beniamino, editor, Rocha, Ana Maria A. C., editor, Garau, Chiara, editor, Scorza, Francesco, editor, Karaca, Yeliz, editor, and Torre, Carmelo M., editor

Published

2023

47. A Simple, Closed-Form Method for Determining the Superelevation of Tall Reinforced Concrete Buildings

Author

Ruggiero, David, Miglietta, Paola Costanza, Boulanger, Benoit, Kokai, Tibor, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Ilki, Alper, editor, Çavunt, Derya, editor, and Çavunt, Yavuz Selim, editor

Published

2023

48. Chemically Stabilized Laterite Soil Using Rice Husk Ash

Author

Paul, Somnath, Sarkar, Dipankar, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Anjaneyulu, M. V. L. R., editor, Harikrishna, M., editor, Arkatkar, Shriniwas S., editor, and Veeraragavan, A., editor

Published

2023

49. Establishing an Optimum Maintenance Strategy for a National Highway Using HDM-4: A Case Study of NH 66 Section in Kerala, India

Author

Jayamohan, Sangeetha, Sanjay Kumar, V. S., Sreelatha, T., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Anjaneyulu, M. V. L. R., editor, Harikrishna, M., editor, Arkatkar, Shriniwas S., editor, and Veeraragavan, A., editor

Published

2023

50. Prediction of Footbridge Vibrations and Their Dependence on Pedestrian Loads

Author

Pedersen, Lars, Frier, Christian, and Mao, Zhu, editor

Published

2023