Chiara Moletti scite author profile

Chiara Moletti

5Publications

12Citation Statements Received

35Citation Statements Given

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160

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Politecnico di Milano

Publications

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Mechanical and Microstructural Characterization of Rammed Earth Stabilized with Five Biopolymers

et al. 2022

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This study aims to check the compatibility of a selection of waste and recycled biopolymers for rammed earth applications in order to replace the more common cement-based stabilization. Five formulations of stabilized rammed earth were prepared with different biopolymers: lignin sulfonate, tannin, sheep wool fibers, citrus pomace and grape-seed flour. The microstructure of the different formulations was characterized by investigating the interactions between earth and stabilizers through mercury intrusion porosimetry (MIP), nitrogen soprtion isotherm, powder X-ray diffraction (XRD) and scanning electron microscopy (SEM). The unconfined compressive strength (UCS) was also evaluated for all stabilized specimens. Three out of five biopolymers were considered suitable as rammed earth stabilizers. The use of wool increased the UCS by 6%, probably thanks to the combined effect of the length of the fibers and the roughness of their surfaces, which gives a contribution in binding clay particles higher than citrus and grape-seed flour. Lignin sulfonate and tannin increased the UCS by 38% and 13%, respectively, suggesting the additives’ ability to fill pores, coat soil grains and form aggregates; this capability is confirmed by the reduction in the specific surface area and the pore volume in the nano- and micropore zones.

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Compositional characterization of Etruscan earthen architecture and ceramic production

et al. 2020

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This study presents the results of new research into Etruscan technology for earthen architecture as well as ceramic production in the upper Tiber Valley in central Italy, using as a case study the Etruscan settlement of Col di Marzo (Perugia). It determines the compositional differences of the raw material employed as building material and for ceramic production by X‐ray powder diffraction (XRD), thermogravimetric analysis and differential thermal analysis (TG‐DTG), Fourier‐transform infrared analysis (FTIR) and geotechnical analyses. The research also advances the knowledge of ceramic manufacturing technology, with a focus on impasto production, at Col di Marzo between the fifth and mid‐third centuries bce and the surrounding territory on the left bank of the River Tiber. The compositional analysis of building material compared with the ceramics provides answers to questions related to their sourcing and deepens the understanding of the exploitation of natural resources.

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Hygrothermal behaviour of hemp-lime walls: the effect of binder carbonation over time

Moletti

Aversa

Losini

et al. 2023

Building and Environment

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Hemp-lime buildings: thermo-hygrometric behaviour of two case studies in North and South Italy

Aversa

Marzo

Tripepi

et al. 2021

Energy and Buildings

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Life Cycle Assessment of a Wall Made of Prefabricated Hempcrete Blocks

Arosio

Moletti

Dotelli

2022

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Hempcrete is a natural building material obtained mixing hemp shives (i.e., the woody core of the hemp plant) with a lime-based binder and water. Hempcrete as construction material is gaining increasing interest as the EU aims to achieve net zero emissions by 2050. This material has, in fact, the ability to uptake carbon dioxide from air (i.e., via carbonation) and to store carbon for long time. The goal of the present work is to deeper analyze the environmental profile of hempcrete, in order to assess its potentials in reducing emissions of construction sector. Specifically, Life Cycle Assessment (LCA) of a non-load-bearing wall made of hempcrete blocks is carried on. The analysis encompasses the whole life cycle from the extraction of raw materials to the end of the service life. The analyzed blocks are produced by an Italian company. Only aerial lime is used as binder, microorganisms are added to the blocks to accelerate carbonation. The impact on climate change is assessed through the GWP 100 method proposed by IPCC. Preliminary results reveal a nearly neutral carbon budget.

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Chiara Moletti

Mechanical and Microstructural Characterization of Rammed Earth Stabilized with Five Biopolymers

Compositional characterization of Etruscan earthen architecture and ceramic production

Hygrothermal behaviour of hemp-lime walls: the effect of binder carbonation over time

Hemp-lime buildings: thermo-hygrometric behaviour of two case studies in North and South Italy

Life Cycle Assessment of a Wall Made of Prefabricated Hempcrete Blocks

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