The Concept of Hybrid Construction Technology : State of the Art and Future Prospects

Belabid, Abderrahim; Elminor, Hassan; Akhzouz, Hajar

doi:10.5334/fce.159

Cited by 6 publications

(8 citation statements)

References 55 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…To combine the advantages of these two construction methods: the modern one with its better mechanical performance and economic efficiency, and the traditional one with its insulating power, ecological and bioclimatic aspects, it is proposed to investigate the aspects of the concept "hybrid building technology" which is less polluting, competitive and capable of reducing the impact of the construction on the environment by Belabid et al, [3], according to An Xu, Shumin Li et al, [1] frame structure optimization is a design problem posed to find an optimized structural member layout and the most suitable cross-sectional size according to the design requirements. Hybrid materials use a combination of wood, concrete and steel to provide a cost-effective and sustainable solution to building structures as well as options to improve building performance and design.…”

Section: Hybrid Systemmentioning

confidence: 99%

Hybrid System Methods in Industrialised Building Systems (IBS): A Structural Compatibility Study

Izzati Azmin,

Umar Kassim,

Sinar Arzuria Adnan

et al. 2024

ARASET

View full text Add to dashboard Cite

Hybrid System in Industrialised Building System (IBS) is combining IBS components with conventional method. Delay has become a familiar issue in construction field. The issues pertaining structure stability when using this combination method leads to delay while installing these two different method components. The combination also could cause a defect jointing. In Industrialised Building System (IBS), even though it is one of the technology methods that can save times, cost, and reduce labour in construction, but there still have constraints such as design issues, lack of experienced worker, and internal and external issues that can affect cost problems. In this study, the suitability structure based on combination method is investigated to discover the affected factors of suitability structure by using Hybrid System which is the aim of this study. The data analysis from quantitative survey shows that the top three affecting the building structure are: 1) weather effects with highest mean of 6.25 followed by 2) delay of jointing process at 6.03 and 3) defects from monolithic jointing at 5.93. Therefore, the amount of average data obtained shows that the most affected structure is the Hybrid System.

show abstract

Section: Hybrid Systemmentioning

confidence: 99%

Hybrid System Methods in Industrialised Building Systems (IBS): A Structural Compatibility Study

Izzati Azmin,

Umar Kassim,

Sinar Arzuria Adnan

et al. 2024

ARASET

View full text Add to dashboard Cite

show abstract

“…(2) Delve into the "Reduction of material and energy consumption" (RMEC) by reviewing the current state of the use of CO 2 in construction materials from the perspective of scientific research and commercial applications [64,65]. (3) Evaluate the usefulness of the concept of hybrid construction, as well as the set of techniques and technologies that are derived from it using measurable quantitative parameters [66]. (4) Define eco-innovation as a strategy for processing products, marketing, and organizational innovation applied to city issues, adjusting criteria to GRI [66].…”

Section: Phase 4: Selection Of the Best Model Foundedmentioning

confidence: 99%

“…(3) Evaluate the usefulness of the concept of hybrid construction, as well as the set of techniques and technologies that are derived from it using measurable quantitative parameters [66]. (4) Define eco-innovation as a strategy for processing products, marketing, and organizational innovation applied to city issues, adjusting criteria to GRI [66].…”

Section: Phase 4: Selection Of the Best Model Foundedmentioning

confidence: 99%

Sustainable Built Environments: Building Information Modeling, Biomaterials, and Regenerative Practices in Mexico

Colmenero Fonseca,

Rodríguez Pérez,

Perlaza Rodríguez

et al. 2024

Buildings

View full text Add to dashboard Cite

This article explores how the construction sector can significantly contribute to minimizing its environmental impact through reuse and recycling practices, in rehabilitation or new construction projects. This research focuses on implementing BIM methodology alongside biomaterials, 3D modeling, and digitization in compliance with the Green Building Code. Two case studies located in Jalisco and Querétaro (Mexico) are examined through a comparative analysis. The simulations are carried out in different geographical areas with two construction systems that allow us to see the output similarities. The results show the clear advantages of biomaterials over traditional materials such as concrete. The construction materials are shown to determine their operational energy consumption. From an economic point of view, this study supports data regarding lower energy costs, and a significant reduction in CO2 emissions is observed. In conclusion, both the models and simulations, along with the Toolkit, highlight the benefits of biomaterials over conventional industrial materials.

show abstract

“…The original occupants used this mortar admixture specifically to cover areas in contact with water. It consists substantially of lime, water, black cleaner, and several colorings [7].…”

Section: Hydraulic Limementioning

confidence: 99%

Physico-Chemical and Mechanical Characteristics of Traditional Marrakech Lime

AQELMOUN

2024

Mediterranean Architectural Heritage

View full text Add to dashboard Cite

Abstract. To tackle the problem of construction-related pollution, especially the greenhouse effects mainly caused by carbon dioxide emissions, governments have begun to encourage the use of traditional building materials and techniques characterized by their low carbon impact. Among these alternatives is Marrakech lime, produced using traditional processes. Historically, it has been used to produce a special mortar known as Tadlakt, an ancestral Amazigh skill used to waterproof parts in contact with water. In order to identify other ways of adding value to Marrakech lime, a literature search was launched. Physico-chemical and mechanical characterization was also carried out on samples of traditional lime concrete sold in the Moroccan market under the name ''Jer de Gram''. Morphological and mineralogical analyses were examined using scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), and X-ray diffraction (XRD). The results showed that the lime examined is slightly hydraulic of varied forms, it is mainly composed of calcite, belite, calcium oxides, silicon, and carbons. Crushing tests show a low compressive strength of traditional lime concrete, not exceeding 1 MPa in the best cases, an unexpected result that contradicts the literature. The reason lies in the sandy nature of the aggregates and the traditional lime production process, which does not allow for effective quality control of the final product.

show abstract

The Concept of Hybrid Construction Technology : State of the Art and Future Prospects

Cited by 6 publications

References 55 publications

Hybrid System Methods in Industrialised Building Systems (IBS): A Structural Compatibility Study

Hybrid System Methods in Industrialised Building Systems (IBS): A Structural Compatibility Study

Sustainable Built Environments: Building Information Modeling, Biomaterials, and Regenerative Practices in Mexico

Physico-Chemical and Mechanical Characteristics of Traditional Marrakech Lime

Contact Info

Product

Resources

About