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1,188 results on '"Coutellier, A."'

1. Investigation of printing turn angle effects on structural deformation and stress in selective laser melting

Author

Ruqing Bai, Shengbo Shi, Jingzhe Wang, Jun Luo, Huayan Pu, Wenhan Lyu, Hakim Naceur, Daniel Coutellier, Li Wang, and Yangkun Du

Subjects
Additive manufacturing, Printing path, Printing turn angle, Composite function, Cubic porous structure, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Additive manufacturing (AM) technology facilitates the creation of complex structures, where the printing path significantly impacts thermal distribution, subsequently influencing stress distribution and structural deformation. The primary challenge in path planning is to determine a printing turn angle that ensures uniform thermal distribution, thereby minimizing structural deformation while maintaining printing efficiency. To address this issue, we propose a composite function, which comprehensively characterizes the effects of the printing turn angle and the length of the printing path on the printing results. Combining a specific cubic porous structure, we calculate the maximum (Pmax) and minimum (Pmin) values of the composite function P, and compare the structural deformation and stress of the Pmax and Pmin paths with those of the typical Pzigzag path. Finite element method (FEM) simulation and experimental validation show that the Pmax path achieves significantly lower structural deformation and residual stress compared to the Pzigzag path and Pmin path.

Published
2024
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6. Optimizing additive manufacturing path pattern for Ti-6Al-4V thin rods using a combinatorial radial basis function surrogate-assisted genetic algorithm

Author

Ruqing Bai, Guan Liang, Hao Cheng, Hakim Naceur, Daniel Coutellier, Jinglei Zhao, Jun Luo, Huayan Pu, and Jin Yi

Subjects
Additive manufacturing, Path pattern, Combinatorial radial basis function, Genetic algorithm, Ti-6Al-4V thin rod, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Path pattern is one of the most significant parameters in the additive manufacturing (AM) process because it influences the specimen's final shape and residual stress distribution. Generally, the optimal path pattern is a computationally expensive, high-dimensional, and black-box permutation optimization problem. In this paper, we propose a combinatorial radial basis function surrogate-assisted genetic algorithm (CRBF-GA) to effectively generate the optimal path pattern by integrating the combinatorial radial basis function surrogate model (CRBF) with the genetic algorithm (GA). To demonstrate the effectiveness of the proposed CRBF-GA, a Ti-6Al-4V thin rod, a component of lattice, is chosen as the research object. Through numerical simulation, experimental verification, and error comparison analysis, the RBF-GA pattern is demonstrated to be the best path pattern among the random forest-assisted evolutionary algorithm (RF-EA), GA, spiral, and zigzag patterns, and it excels in achieving a more precise rod shape compared to the other patterns examined.

Published
2023
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8. Economics of energy demand : evaluation of smart meter policies, technologies and consumption behaviour in the domestic sector in the UK

Author

Coutellier, Quentin, Muûls, Mirabelle, and Martin, Ralf

Abstract

The purpose of this thesis is to develop a deeper understanding of the socioeconomic benefits of implementing smart metering infrastructure to monitor energy consumption in the domestic sector. Throughout a series of Randomised Control Trials (RCTs) in chapters 2 and 3, and a natural experiment in chapter 4, I bring empirical evidence of the opportunities granular energy smart meter data can offer when framing information back to consumers to foster pro-environmental behaviours. In the second chapter, I compare various forms of energy consumption feedback facilitated by smart meters and smart phone apps through a large-scale RCT among 40,000 customers of a large energy retailer in the UK. Following the 2016 smart meter derogation in the UK, I investigate whether and how more advanced feedback involving peer group comparisons as well as disaggregation of total energy consumption can generate greater reduction in energy usage than basic feedback apps used in conjunction with in-home displays. In the third chapter, I analyse residential energy demand flexibility through a series of field experiments on adoption and usage of WiFi-enabled smart plugs to overcome the limited attention or rebound effects associated with demand shifting. With 146 active participants, I study the adoption and user interaction of devices for automated dynamic energy demand-side management. This difference-in-difference design allows me to explore whether and how devices and incentive systems may be designed and deployed to improve load balancing in the centralised energy grid. In the fourth chapter, I explore the impact of changes in teleworking and commuting habits during the 2020 spring lockdown on the domestic energy demand in the UK and the associated effect on households' carbon footprint. Alongside a customer survey, electricity and gas consumption data from around 1,164 participating households, including 452 survey respondents, is collected for 2019 and 2020. The last chapter concludes.

Published
2021
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13. Comparison of percutaneous cystolithotomy and open cystotomy for removal of urethral and bladder uroliths in dogs: Retrospective study of 81 cases (2014‐2018)

Author

Chloé Job, Julie Lecavalier, Marilyn Dunn, Matthieu Gatineau, Jérôme Planté, Jérôme Benamou, Martin Coutellier, and Romain Javard

Subjects
cats, cystotomy, dogs, PCCL, stone, Veterinary medicine, SF600-1100
Abstract

Abstract Objective Compare percutaneous cystolithotomy (PCCL) and open cystotomy (OC) for removal of bladder and urethral uroliths. Design Retrospective study. Animals Client‐owned dogs and cats that underwent PCCL (n = 41) or OC (n = 40) between January 1, 2014 and February 28, 2018 at a referral center. Methods Medical records of dogs and cats that underwent a PCCL or an OC were reviewed. History, signalment, physical examination, diagnostic tests, length of the procedure and anesthesia, complications, and duration of hospitalization were recorded. Results A total 17 cats (PCCL = 10; OC = 7) and 64 dogs (PCCL = 31; OC = 33) were included. There was no significant difference, regardless of species, in the mean surgical time (45 min [24‐160 min] and 48.5 min [15‐122 min] with P = .54 in dogs, P = .65 in cats) nor mean duration of anesthesia (90 min [50‐120 min] and 98 min [54‐223 min] with P = .87 in dogs, P = .08 in cats) in the PCCL and OC groups respectively. Number of uroliths did not affect duration of surgery in either group. Complete urolith removal was achieved in 98% of dogs and cats in both groups. The median hospitalization time was significantly shorter in the PCCL group for dogs (11.3 hours [range 4 to 51.3] in the PCCL vs 56.6 hours [range 7.3 to 96] in the OC group; P

Published
2022
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20. Exact forming for additive manufacturing using an irregular element-based compensating approach: Simulation, experiment, and detection.

Author

Bai, Ruqing, Pu, Huayan, Liang, Guan, Naceur, Hakim, Coutellier, Daniel, Du, Yangkun, Zhao, Jinglei, Yi, Jin, Li, Xueping, Yuan, Shujin, Luo, Jun, and Lin, Jun

Abstract

During the additive manufacturing, the shape of workpieces is influenced by printing parameters. To achieve the desired shape of the workpiece, an optimization algorithm is often used to determine an effective combination of printing parameters. Although multiparameter optimization can improve structure quality, they are very time-consuming. In this article, we propose a timesaving irregular element-based compensating approach, which allows a more precise fitting of the geometric boundaries without needing additional computing resources. Finally, we demonstrate that the proposed approach can accurately shape the workpiece to fulfill the expected computer-aided design geometry by experimental verification and error comparison analysis. HIGHLIGHTS: The compensating approach based on the irregular hexahedron instead of the conventional regular discretization is proposed. The proposed technique compensates the deformation in advance on the original geometric model and avoids searching for the optimal combination of printing parameters. The compensating approach is theoretically no longer constrained by input printing parameters, and this method is suitable for selective laser melting and electron beam melting techniques. Experimental verification and error comparison analysis confirm that the proposed technique can accurately shape the workpiece to the user-designed form. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Integrated Stopped-Flow Device for the Study of Porous Materials Using Hyperpolarized 129Xe NMR

Author

Li, Jing, Léonce, Estelle, Coutellier, Corentin, Boutin, Céline, Chighine, Kévin, Rivron, Charles, Davidson, Anne, and Berthault, Patrick

Abstract

A simple, low-cost, and efficient device is proposed for the study of porous materials via NMR using small gas probes. Mainly built through additive manufacturing and being equipped with a radiofrequency solenoid microcoil, it only requires tiny quantities of sample and/or gas and is particularly suited for hyperpolarized xenon. The performances of this device have been accessed on a commercial sample of MCM-41 exhibiting multiporosity. Both the delivery mode of hyperpolarized xenon and the stopped-flow system are judged as efficient according to 2D 129Xe self-diffusion and EXSY experiments.

Published
2024
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25. Efficient thermomechanical analysis of functionally graded structures using the symmetric SPH method

Author

Jiao Li, Guangchun Wang, Shuai Liu, Jun Lin, Yanjin Guan, Guoqun Zhao, Hakim Naceur, Daniel Coutellier, and Tao Wu

Subjects
Thermoelastic analysis, Functionally graded materials, Meshless, Smoothed particle hydrodynamics, Symmetric SPH, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Tailoring the thermal and mechanical properties plays an important role in manufacturing and designing functionally graded material (FGM) which is often applied in high temperature gradient environment. The present investigation will address the basics of thermoelastic problem solved by means of a specific meshless smoothed particle hydrodynamics (SPH) method. The inconsistency of the conventional SPH method was improved by introducing the symmetric SPH (SSPH) technique, where function derivatives can be approximated by the function values in the support domain. Hence, the heat conduction and balance equations become a series of algebraic equations, which can be solved efficiently. The result accuracy achieved by the proposed approach was demonstrated in solving several numerical examples in comparison to available results in the literature. The effect of the gradation indexes on the thermoelastic behavior was also considered.

Published
2021
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27. Region-specific interneuron demyelination and heightened anxiety-like behavior induced by adolescent binge alcohol treatment

Author

James Rice, Laurence Coutellier, Jeffrey L. Weiner, and Chen Gu

Subjects
Adolescent binge ethanol treatment (ABET), Anxiety, Gray matter myelin, Hippocampus, Medial prefrontal cortex (mPFC), Parvalbumin-positive (PV+) GABAergic interneuron, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Adolescent binge drinking represents a major public health challenge and can lead to persistent neurological and mental conditions, but the underlying pathogenic mechanisms remain poorly understood. Using a mouse model of adolescent binge ethanol treatment (ABET), we found that this treatment induced behavioral changes associated with demyelination in different brain regions. After ABET, adolescent mice exhibited anxiogenic behaviors with no change in locomotion on the elevated plus maze, and impaired spatial memory indicated by a significant reduction in spontaneous alternation in the Y maze test. Both effects persisted into adulthood. Anatomical studies further showed that ABET induced a significant reduction of parvalbumin-positive (PV+) GABAergic interneurons and myelin density in the hippocampus and medial prefrontal cortex (mPFC). While these deficits in PV+ interneurons and myelin persisted into early adulthood in the hippocampus, the myelin density recovered in the mPFC. Moreover, whereas ABET mainly damaged myelin of PV+ axons in the hippocampus, it primarily damaged myelin of PV-negative axons in the mPFC. Thus, our findings reveal that an adolescent binge alcohol treatment regimen disrupts spatial working memory, increases anxiety-like behaviors, and exerts unique temporal and spatial patterns of gray matter demyelination in the hippocampus and mPFC.

Published
2019
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30. A Dramatic Increase of C1q Protein in the CNS during Normal Aging

Author

Stephan, Alexander H, Madison, Daniel V, Mateos, José María, Fraser, Deborah A, Lovelett, Emilie A, Coutellier, Laurence, Kim, Leo, Tsai, Hui-Hsin, Huang, Eric J, Rowitch, David H, Berns, Dominic S, Tenner, Andrea J, Shamloo, Mehrdad, and Barres, Ben A

Subjects
Acquired Cognitive Impairment, Brain Disorders, Behavioral and Social Science, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Alzheimer's Disease, Neurodegenerative, Aging, Basic Behavioral and Social Science, Dementia, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Aetiology, Underpinning research, Mental health, Neurological, Animals, Behavior, Animal, Blotting, Western, Brain, Complement C1q, Electrophysiology, Excitatory Postsynaptic Potentials, Humans, Immunohistochemistry, Mice, Mice, Inbred C57BL, Mice, Knockout, Microscopy, Immunoelectron, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery
Abstract

The decline of cognitive function has emerged as one of the greatest health threats of old age. Age-related cognitive decline is caused by an impacted neuronal circuitry, yet the molecular mechanisms responsible are unknown. C1q, the initiating protein of the classical complement cascade and powerful effector of the peripheral immune response, mediates synapse elimination in the developing CNS. Here we show that C1q protein levels dramatically increase in the normal aging mouse and human brain, by as much as 300-fold. This increase was predominantly localized in close proximity to synapses and occurred earliest and most dramatically in certain regions of the brain, including some but not all regions known to be selectively vulnerable in neurodegenerative diseases, i.e., the hippocampus, substantia nigra, and piriform cortex. C1q-deficient mice exhibited enhanced synaptic plasticity in the adult and reorganization of the circuitry in the aging hippocampal dentate gyrus. Moreover, aged C1q-deficient mice exhibited significantly less cognitive and memory decline in certain hippocampus-dependent behavior tests compared with their wild-type littermates. Unlike in the developing CNS, the complement cascade effector C3 was only present at very low levels in the adult and aging brain. In addition, the aging-dependent effect of C1q on the hippocampal circuitry was independent of C3 and unaccompanied by detectable synapse loss, providing evidence for a novel, complement- and synapse elimination-independent role for C1q in CNS aging.

Published
2013

33. Sex Differences in the Sustained Effects of Ketamine on Resilience to Chronic Stress

Author

Tracy Okine, Ryan Shepard, Elise Lemanski, and Laurence Coutellier

Subjects
ketamine, stress resilience and vulnerability, prefrontal cortex, sex differences, chronic stress, parvalbumin, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Exposure to stress is recognized to be a triggering factor in several mood disorders, including depression and anxiety. There is very little understanding of why female subjects have a significantly higher risk for these conditions than males. Recent findings in male rodents indicated that prophylactic ketamine can prevent the development of a stress-induced depressive-like phenotype, providing a pharmacological tool to study the mechanisms underlying stress resilience. Unfortunately, none of these studies incorporated female subjects, nor did they provide a mechanistic understanding of the effects of ketamine on stress resilience. Our previous work identified the prefrontal glutamatergic and parvalbumin (PV) systems as potential molecular mechanisms underlying sex differences in susceptibility to stress-induced emotional deregulations. To further address this point, we treated male and female mice with a single dose of ketamine before exposure to a chronic stress paradigm to determine whether stress-resilience induced by a pre-exposure to ketamine is similar in males and females and whether modulation of the prefrontal glutamatergic and PV systems by ketamine is associated with these behavioral effects. Ketamine prevented chronic stress-induced changes in behaviors in males, which was associated with a reduction in expression of PV and the NMDA receptor NR1 subunit. Ketamine did not protect females against the effects of chronic stress and did not change significantly prefrontal gene expression. Our data highlight fundamental sex differences in the sustained effects of ketamine. They also further implicate prefrontal glutamatergic transmission and PV in resilience to chronic stress.

Published
2020
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34. Gas and seismicity within the Istanbul seismic gap

Author

L. Géli, P. Henry, C. Grall, J.-B. Tary, A. Lomax, E. Batsi, V. Riboulot, E. Cros, C. Gürbüz, S. E. Işık, A. M. C. Sengör, X. Le Pichon, L. Ruffine, S. Dupré, Y. Thomas, D. Kalafat, G. Bayrakci, Q. Coutellier, T. Regnier, G. Westbrook, H. Saritas, G. Çifçi, M. N. Çağatay, M. S. Özeren, N. Görür, M. Tryon, M. Bohnhoff, L. Gasperini, F. Klingelhoefer, C. Scalabrin, J.-M. Augustin, D. Embriaco, G. Marinaro, F. Frugoni, S. Monna, G. Etiope, P. Favali, and A. Bécel

Subjects
Medicine, Science
Abstract

Abstract Understanding micro-seismicity is a critical question for earthquake hazard assessment. Since the devastating earthquakes of Izmit and Duzce in 1999, the seismicity along the submerged section of North Anatolian Fault within the Sea of Marmara (comprising the “Istanbul seismic gap”) has been extensively studied in order to infer its mechanical behaviour (creeping vs locked). So far, the seismicity has been interpreted only in terms of being tectonic-driven, although the Main Marmara Fault (MMF) is known to strike across multiple hydrocarbon gas sources. Here, we show that a large number of the aftershocks that followed the M 5.1 earthquake of July, 25th 2011 in the western Sea of Marmara, occurred within a zone of gas overpressuring in the 1.5–5 km depth range, from where pressurized gas is expected to migrate along the MMF, up to the surface sediment layers. Hence, gas-related processes should also be considered for a complete interpretation of the micro-seismicity (~M

Published
2018
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35. Assessment of the acquisition of executive function during the transition from adolescence to adulthood in male and female mice

Author

Ryan Shepard, Emily Beckett, and Laurence Coutellier

Subjects
Neurophysiology and neuropsychology, QP351-495
Abstract

Executive functions (EF) reached full maturity during the transition from adolescence to adulthood. Human studies provide important information about adolescent developmental trajectories; however, little remains known about the neural circuits underlying the acquisition of mature EF. Ethical and technical considerations with human subjects limit opportunities to design experimental studies that allows for an in-depth understanding of developmental changes in neural circuits that regulate cognitive maturation. Preclinical models can offer solutions to this problem. Unfortunately, current rodent models of adolescent development have inherent flaws that limit their translational value. For instance, females are often omitted from studies, preventing the assessment of potential sex-specific developmental trajectories. Furthermore, it remains unclear whether cognitive developmental changes in rodents are similar to those observed in humans. Here, we tested adolescent and adult male and female mice in a neurocognitive battery of assays. Based on this approach, we assessed mice performances within distinct subdomains of EF, and observed similarities with human developmental trajectories. Furthermore, the sex-specific cognitive changes we observed were paralleled by molecular and neural activity changes demonstrating that our approach can be used in future research to assess the contribution of precise neural circuits to adolescent cognitive maturation. Keywords: Executive functions, Adolescence, Prefrontal cortex, Striatum, Mice

Published
2017
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37. Current Glutamatergic Treatments and Future Directions for Glutamate-Based Management of Chronic Stress and Stress-Related Disorders

Author

Pavlovic, ZM, Coutellier, L, Musazzi, L, Pavlovic, Z, Coutellier L. D., Musazzi L., Pavlovic Z. M., Pavlovic, ZM, Coutellier, L, Musazzi, L, Pavlovic, Z, Coutellier L. D., Musazzi L., and Pavlovic Z. M.

Abstract

The recent Food and Drug Administration and European Medicine Agency regulatory approval of intranasal (S)-Ketamine for the treatment-resistant depression in adults and its quick introduction in everyday psychiatric practice might be considered as a second revolution in the field of neuropsychopharmacology after the first one, which started over 50 years ago with the discovery of the monoaminergic antidepressants. This chapter will present the critical antidepressant features of Ketamine, including its putative mechanisms of action and other Ketamine-like glutamatergic drugs in development for the treatment of chronic stress-related psychiatric disorders. First, a detailed picture of NMDA-dependent and independent glutamatergic mechanisms mediating Ketamine effects will be given. The following section will be dedicated to an in-depth description of cellular and molecular mechanisms which have been suggested to underlie the fast antidepressant properties of Ketamine. Alternative investigational therapeutic uses of Ketamine (besides as an antidepressant) will then be presented, followed by the description of other glutamatergic drugs which received significant attention for their potential antidepressant effects. The following part will be dedicated to limitations related to Ketamine use. Finally, we will share our insights and provide recommendations on the future perspectives in the prevention and early management of chronic stress and stressrelated disorders, focusing on glutamate-based aspects of proposed interventions.

Published
2022

39. The transcription factor Npas4 contributes to adolescent development of prefrontal inhibitory circuits, and to cognitive and emotional functions: Implications for neuropsychiatric disorders

Author

Ryan Shepard, Kelsey Heslin, and Laurence Coutellier

Subjects
Adolescence, Prefrontal cortex, GABAergic system, Mice, Schizophrenia, Transcription factor Npas4, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The adolescent brain is marked by functional and structural modifications, particularly within the inhibitory system of the prefrontal cortex (PFC). These changes are necessary for the acquisition of adult cognitive functions and emotion regulation, and impairments in these processes are associated with neuropathologies such as schizophrenia and affective disorders. The molecular mechanisms regulating this adolescent refinement of prefrontal inhibitory circuits remain largely unknown. Here we demonstrate that the transcription factor Npas4 plays a major role in this process. Using a series of behavioral, molecular, pharmacological and genetic approaches in mice, we demonstrate that deficiency in Npas4 affects adolescent expression of multiple markers of GABAergic transmission in the PFC, including parvalbumin and GAD67, in a sex-specific manner. This abnormal pattern of expression of GABAergic markers is associated with sex-specific cognitive and emotional impairments that occur only when Npas4 deficiency begins at adolescence but not post-adolescence. Finally, we show that chronic treatment with the GABA enhancing drug sodium valproate during adolescence is sufficient to induce long-lasting recovery of the molecular and behavioral abnormalities observed in Npas4 deficient mice. Altogether, we provide evidence for the involvement of the transcription factor Npas4 to the structural changes that affect prefrontal inhibitory circuits during adolescence. Further investigations of Npas4 role in the adolescent brain might provide new insights on the molecular mechanisms underlying neuropsychiatric disorders that emerge during adolescence.

Published
2017
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40. New Textile Composite Solutions for Armouring of Vehicles

Author

F. Boussu, B. Provost, M. Lefebvre, and D. Coutellier

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

In today’s scenario, numerous studies have shown a great interest on 3D woven structures like 3D warp interlock fabric as a fibre reinforcement for composite material to provide a better impact than 2D laminated fabrics with unlinked structures in the thickness. The impact energy absorption capacity depends on different and independent parameters, including the shape and speed of the projectile, the type of fibrous structure (geometry), the type and nature of the threads (raw material, linear density, and twisting value), and the type of impregnation of the composite material. As part of our research work on hard impact protection solutions, the interest of textile composite structures, in particular those integrating 3D warp interlock fabrics, has been revealed. Based on the result, protection solutions with such fabric structure revealed larger dynamic deformation capacity for absorbing the impact energy as compared with not only a ceramic material facing a 12.7 mm ammunition (mass 43 g) at 610 m/s but also those solutions made with metallic materials facing a FSP (diameter 20 mm, mass 54 g) at 630 m/s and 1600 m/s. For each of these different threats, a specific type of composite material has to be used. These composite material solutions are mainly defined to respond to the appropriate mode of impact behaviour.

Published
2019
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50. Energy absorption capacity of functionally graded lattice structures using improved joint scanning path: simulation, experiment, and detection

Author

Bai, Ruqing, Génin, Damond, Jousset, Sebastien, Naceur, Hakim, Coutellier, Daniel, Chongqing University [Chongqing], Université de Technologie de Troyes (UTT), and Université Polytechnique Hauts-de-France (UPHF)

Subjects
[SPI]Engineering Sciences [physics], Impact, Joint scanning path, Functionally graded lattice structure, Energy absorption
Abstract

International audience

Published
2023

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