Daniele Lai scite author profile

Daniele Lai

4Publications

1Citation Statement Received

28Citation Statements Given

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Affiliations

University of Cagliari

Publications

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Numerical analysis of the interaction between high-pressure resin spray and wood chips in a vapour stream

Milani

Montorsi

Lai³

et al. 2016

Advances in Mechanical Engineering

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This article investigates the interaction between the resin spray and the wood chips in a vapour stream using a multi-phase multi-component computational fluid dynamics approach. The interaction between the spray and the chips is one of the main issues in the industrial process for manufacturing medium density fibre boards. Thus, the optimization of this process can lead to important benefits, such as the reduction in the emission of formaldehyde-based toxic chemicals, the reduction in energy consumption in the blending process and energy saving in the fibreboard drying process. First step of the study is the numerical analysis of the resin injector in order to extend the experimental measurements carried out with water to the resin spray. The effects of the injector's geometrical features on the spray formation are highlighted under different injection pressure values and needle displacements. Afterwards, the results obtained in the analysis of the single injector are used for the complete simulation of multi-injector rail where the mixing of the resin spray and wood chips takes place. The influence of the main operating conditions, such as the vapour and the wood chip flow rates, on the resin distribution is addressed in order to optimize the resination process

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On the Miura Ori Modal Response: A Look Throughout the Experimental Side

Baldi

Santucci

Carta

et al. 2023

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The Miura Ori Geometry: From Brilliant Theory to Surprising Auxetic Properties

Baldi

Santucci

Carta

et al. 2023

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Bonding of similar AA3105 aluminum alloy by Accumulative Roll Bonding process

Mehtedi¹,

Lai²,

Almehtedi³

et al. 2021

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Accumulative roll-bonding (ARB) is a novel plastic straining process aimed at bonding of similar and dissimilar metal combinations. Moreover, it is used recently to produce ultrafine grain materials and metal matrix reinforced composites to enhance mechanical, electrical, and corrosion resistance properties. This work presents an experimental study of roll bonding and accumulative roll bonding of similar AA3105 aluminum alloy at 300°C with a final thickness of 1.2 mm, focusing especially on bond strength evaluation and layers continuities. Tensile tests and three-points bending were performed to mechanical characterize the produced sheets in the various steps and based on the number of the cycles. The maximum strength was reached after 3 ARB cycles. After 4 cycles, the bonding interfaces have a uniform distribution through the sheet thickness, it is possible to distinguish only the interface formed in the last pass in the fracture surface, and no significant enhancement in strength was observed. Starting from 2 ARB cycles, micro-cracks were observed at the outer surface for bending angles greater than 90 deg, and at 180 deg all ARBed samples except A1 were failed.

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Daniele Lai

Numerical analysis of the interaction between high-pressure resin spray and wood chips in a vapour stream

On the Miura Ori Modal Response: A Look Throughout the Experimental Side

The Miura Ori Geometry: From Brilliant Theory to Surprising Auxetic Properties

Bonding of similar AA3105 aluminum alloy by Accumulative Roll Bonding process

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