Larbi Boukezzi scite author profile

This communication describes work and gives results focused on the application of Differential Scanning Calorimetry (DSC) to reveal the effect of thermal aging on the crystallinity variation of XLPE insulation cables. The changes in the crystalline phase of XLPE during aging at four different temperatures have been analyzed. This study shows also the effect of aging on the melting peak temperature Tm and melting enthalpy AHHm. The obtained results pointed out that thermal aging at temperatures above the melting temperature of XLPE have a great effect on the crystallinity variations.

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Dielectric and mechanical behavior of cross-linked polyethylene under thermal aging

Mecheri

Boukezzi²,

Boubakeur³

et al.

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Prediction of mechanical properties of XLPE cable insulation under thermal aging: neural network approach

Boukezzi

Boubakeur

2013

IEEE Trans. Dielect. Electr. Insul.

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Degradation Behavior of Scalable Nonfullerene Organic Solar Cells Assessed by Outdoor and Indoor ISOS Stability Protocols

et al. 2020

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The development of nonfullerene acceptors (NFAs) has led to dramatic improvements in the device efficiencies of organic photovoltaic (OPV) cells. To date it is, however, still unclear how those laboratory‐scale efficiencies transfer to commercial modules, and how stable these devices will be when processed via industrially compatible methods. Herein, the degradation behavior of lab‐scale and scalable OPV devices using similar nonfullerene‐based active layers is assessed. It is demonstrated that the scalable NFA OPV exhibits completely reversible degradation when assessed in ISOS‐O‐1 outdoor conditions, which is in contrast to the laboratory‐scale devices assessed via the indoor ISOS‐L‐2 protocol. Results from transient photovoltage (TPV) indicate the presence of charge trap formation, and a number of potential mechanisms are proposed for the selective occurrence of this in laboratory‐scale devices tested in ISOS‐L laboratory conditions—ultimately concluding that it has its origins in the different device architectures used. The study points at the risk of assessing active layer stability from laboratory‐scale devices and degradation studies alone and highlights the importance of using a diverse range of testing conditions and ISOS protocols for such assessment.

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Modelling by design of experiments method of the AC breakdown voltage of transformer oil point–plane gaps with insulating barrier

Zitouni

Guerbas

Boukezzi

et al. 2016

IET Generation, Transmission & Distribution

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Larbi Boukezzi

DSC Study of Artificial Thermal Aging of XLPE Insulation Cables

Dielectric and mechanical behavior of cross-linked polyethylene under thermal aging

Prediction of mechanical properties of XLPE cable insulation under thermal aging: neural network approach

Degradation Behavior of Scalable Nonfullerene Organic Solar Cells Assessed by Outdoor and Indoor ISOS Stability Protocols

Modelling by design of experiments method of the AC breakdown voltage of transformer oil point–plane gaps with insulating barrier

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