6 results on '"Chougan, Mehdi"'
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2. Development of lightweight 3D printed concrete wall system
- Author
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Sikora, Pawel, Cuevas, Karla, Strzałkowski, Jarosław, Kim, Ji-Su, Chougan, Mehdi, Ghaffar, Seyed Hamidreza, Chung, Sang-Yeop, Abd Elrahman, Mohamed, Lootens, Didier, and Stephan, Dietmar
- Subjects
Marie Curie Alumni Association ,Engineering ,lightweight concrete ,3D printing ,Poster ,additive manufacturing - Abstract
Poster presented at the Annual Conference of the Marie Curie Alumni Association (MCAA Annual Conference), Online event, 5-7 March 2021 (Session Poster Session).
- Published
- 2021
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3. Effect of natural and calcined halloysite clay minerals as low-cost additives on the performance of 3D-printed alkali-activated materials.
- Author
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Chougan, Mehdi, Hamidreza Ghaffar, Seyed, Nematollahi, Behzad, Sikora, Pawel, Dorn, Tobias, Stephan, Dietmar, Albar, Abdulrahman, and Al-Kheetan, Mazen J
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CLAY minerals , *HALLOYSITE , *THREE-dimensional printing , *ADDITIVES , *PRINT materials , *COMPRESSIVE strength - Abstract
[Display omitted] • Natural and calcined Halloysite clay additives were characterised. • Halloysite clay additives were incorporated to modify AAMs' printing properties. • Enhanced compatibility of calcined Halloysite clay additives in the AAMs was verified. • Buildability and mechanical properties were improved in CH-modified AAMs. This study investigates the effects of natural and calcined halloysite clay minerals ("NH" and "CH", respectively) on the performance of 3D printed alkali-activated materials (AAMs). Halloysite clay minerals are selected as they are low-cost and abundantly available. At first, different characterisation techniques were employed to characterise the NH and CH additives. Mechanical performance, extrusion window, and shape stability of several AAM formulations containing various dosages (0.5 wt% to 5 wt%) of the NH and CH additives were evaluated. The best-performing mixtures in terms of fresh and hardened properties namely, NH-1.5 and CH-1.5 mixtures (containing 1.5 wt% of NH and CH additives, respectively) were then selected for 3D printing. The results showed that the CH-1.5 mixture exhibited enhanced shape stability, buildability, and mechanical properties as compared to the control mixture. The flexural and compressive strengths of 3D printed CH-1.5 samples were 88% and 40%, respectively higher than those of the printed control samples. Using the CH-1.5 mixture, a twisted column with an intricate shape was printed to verify the suitability of the developed CH-modified AAM for the construction of complex structures. This study establishes the use of halloysite clay minerals as low-cost additives for enhancing the mechanical properties and printing performance of AAMs. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
4. Investigation of additive incorporation on rheological, microstructural and mechanical properties of 3D printable alkali-activated materials.
- Author
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Chougan, Mehdi, Ghaffar, Seyed Hamidreza, Sikora, Pawel, Chung, Sang-Yeop, Rucinska, Teresa, Stephan, Dietmar, Albar, Abdulrahman, and Swash, Mohammad Rafiq
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FULLER'S earth , *THREE-dimensional printing , *COMPRESSIVE strength , *CONCRETE mixing , *ADDITIVES , *SELF-consolidating concrete - Abstract
This study investigates the addition of Poly-vinyl Alcohol (PVA) fibres and attapulgite nanoclay to alkali-activated materials (AAMs) with the aim of enhancing the mechanical performance and optimizing the printability and buildability of AAMs. The fresh properties of six mix formulations, including flowability, slump values, rheology, shape retention, and extrusion window, were evaluated. The best performing mixes, that exhibited optimal fresh properties, were 3D printed, and their mechanical performance, microstructure, and buildability were investigated. The addition of 1 wt.-% attapulgite nanoclay (i.e. A-1) showed the desirable fresh properties required for 3D printing, as well as providing sufficient mechanical reinforcement to the samples. The 3D printed A-1 samples showed an improved flexural and compressive strength by 43% and 20%, respectively, compared to both the casted and printed control mixes. Moreover, microstructure analysis, including SEM, Rapidair measurement, and micro-CT, provided evidence of the compatibility by showing the lowest pores anisotropy and mixture homogeneity, between attapulgite and AAMs. [Display omitted] • Poly-vinyl alcohol fibres and attapulgite nanoclay as additives for 3D printable alkali-activated materials • P0.25 and A-1alkali-activated composites were found to be the best performing sample for 3D printability and mechanical performance • The microstructure analysis showed the effectiveness of attapulgite and PVA fibres incorporation in filling the voids and crack bridging mechanisms [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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5. The influence of nano-additives in strengthening mechanical performance of 3D printed multi-binder geopolymer composites.
- Author
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Chougan, Mehdi, Hamidreza Ghaffar, Seyed, Jahanzat, Mohammad, Albar, Abdulrahman, Mujaddedi, Nahzatullah, and Swash, Rafiq
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CEMENT composites , *COMPOSITE structures , *FLEXURAL strength , *COMPRESSIVE strength , *ADDITIVES , *BINDING agents - Abstract
• Development of novel 3D printable geopolymer. • Nano-additives improved the mechanical performance of 3D printed structures. • The microstructural analysis revealed the micro-crack arresting effect of nano additives. • The shape retention and buildability of geopolymer was improved with incorporation of nano additives. • Rheology measurements play a crucial role in the selection of printable feedstock. The weak mechanical properties the 3D printed parts can limit the competence of this technology when compared to conventionally cast-in-mold cementitious composites structures. However, experimental results in this study showed that the incorporation of nano additives could improve the mechanical property of printed structures. Six geopolymeric mixtures were designed and tested for their flow-ability, shape stability, buildability and mechanical performance. Different dosage of nano graphite platelets (NGPs) ranging from 0.1% to 1%, by the weight of geopolymer, were incorporated to the best performing geopolymer. The 3D printed geopolymer with 1% of NGPs increased the flexural strength by 89% and 46% compared to the same 3D printed and casted geopolymer without any NGPs, respectively. The same increase for compressive strength was 28% and 12%. Moreover, the geopolymer mix containing 1% of NGPs demonstrated the best shape retention and buildability. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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6. Development of 3D printed heavyweight concrete (3DPHWC) containing magnetite aggregate.
- Author
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Federowicz, Karol, Techman, Mateusz, Skibicki, Szymon, Chougan, Mehdi, El-Khayatt, Ahmed M., Saudi, H.A., Błyszko, Jarosław, Abd Elrahman, Mohamed, Chung, Sang-Yeop, and Sikora, Pawel
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MAGNETITE , *ATTENUATION coefficients , *RADIATION shielding , *X-ray computed microtomography , *THREE-dimensional printing , *THERMAL neutrons , *SELF-consolidating concrete - Abstract
[Display omitted] • Printable heavyweight mixes with maximum dry density of 3500 kg/m3 were developed. • Mix containing 60% of magnetite aggregate exhibited the highest green strength. • Mixes containing MA displayed an adequate fresh property performances for medium scale printing. • The incorporation of MA gradually increases the flexural and compressive strengths of both cast and printed samples. • A substantial improvement in gamma-ray and neutron shielding was reported in mixes incorporating MA. The main objective of this study is to develop 3D printed heavyweight concrete (3DPHWC) to produce elements with a dry density of up to 3500 kg/m3 by replacing natural aggregate (SA) with magnetite aggregate (MA) up to 100%. A comprehensive systematic study was conducted to thoroughly assess mixtures' mechanical properties, physical proficiency, fresh properties, and printing qualities. The inclusion of MA exhibited the desired fresh properties required for 3D printing and promising physical and mechanical properties. Evaluation of the mechanical properties of designed 3DPHWC indicates that replacing SA with MA increases both cast and printed samples' strengths. The 3D printed M100 sample achieved higher 28 days flexural and compressive strengths by 18 % and 20 %, respectively, compared to printed control mix (M0). Micro-CT study correspondingly demonstrated improvements in the composites' porosity, pore size, and pore morphologies. The linear attenuation coefficients (LACs) and half-value layer (HVLs) for slow neutron and gamma-ray were measured to assess radiation shielding characteristics. A significant performance improvement was obtained for slow neutrons by introducing the magnetite aggregate. Unlike slow neutrons, no significant difference was observed between cast and printed samples against γ-rays. Moreover, the effect of porosity on the shielding performance was discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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