Search

Your search keyword '"Campagne, C."' showing total 221 results
Start Over Author "Campagne, C."
221 results on '"Campagne, C."'

51. Coupling of Neuronal Nitric Oxide Synthase to NMDA Receptors via Postsynaptic Density-95 Depends on Estrogen and Contributes to the Central Control of Adult Female Reproduction

Author

Buée-Scherrer, Prevot, Dehouck B, Leroy D, d'Anglemont de Tassigny X, Campagne C, J.C. Beauvillain, and Holstein Gr

Subjects
endocrine system, medicine.medical_specialty, medicine.drug_class, Neuropeptide, Estrous Cycle, Nitric Oxide Synthase Type I, Biology, Receptors, N-Methyl-D-Aspartate, Nitric oxide, chemistry.chemical_compound, Postsynaptic potential, Internal medicine, medicine, Animals, Cells, Cultured, reproductive and urinary physiology, Reproduction, General Neuroscience, Age Factors, Intracellular Signaling Peptides and Proteins, Glutamate receptor, Membrane Proteins, Estrogens, Articles, Rats, Endocrinology, nervous system, chemistry, Hypothalamus, Estrogen, NMDA receptor, Female, Disks Large Homolog 4 Protein, Postsynaptic density, hormones, hormone substitutes, and hormone antagonists
Abstract

Considerable research has been devoted to the understanding of how nitric oxide (NO) influences brain function. Few studies, however, have addressed how its production is physiologically regulated. Here, we report that protein-protein interactions between neuronal NO synthase (nNOS) and glutamate NMDA receptors via the scaffolding protein postsynaptic density-95 (PSD-95) in the hypothalamic preoptic region of adult female rats is sensitive to cyclic estrogen fluctuation. Coimmunoprecipitation experiments were used to assess the physical association between nNOS and NMDA receptor NR2B subunit in the preoptic region of the hypothalamus. We found that nNOS strongly interacts with NR2B at the onset of the preovulatory surge at proestrus (when estrogen levels are highest) compared with basal-stage diestrous rats. Consistently, estrogen treatment of gonadectomized female rats also increases nNOS/NR2B complex formation. Moreover, endogenous fluctuations in estrogen levels during the estrous cycle coincide with changes in the physical association of nNOS to PSD-95 and the magnitude of NO release in the preoptic region. Finally, temporary and local in vivo suppression of PSD-95 synthesis by using antisense oligodeoxynucleotides leads to inhibition of nNOS activity in the preoptic region and disrupted estrous cyclicity, a process requiring coordinated activation of neurons containing gonadotropin-releasing hormone (the neuropeptide controlling reproductive function). In conclusion, our findings identify a novel steroid-mediated molecular mechanism that enables the adult mammalian brain to control NO release under physiological conditions.

Published
2007
Full Text
View/download PDF

55. Boekbespreking

Author

Blom, F. W. C., Hartog, F., Weisglas, M., Ruppert, M., Campagne, C., Van Rees, J., Valkhoff, J., and Smulders, A. M. F.

Published
1953
Full Text
View/download PDF

58. Boekbeoordeeling

Author

Campagne, C., primary, Engelfriet, J., additional, Stigter, D. C. M., additional, and van Haaften, M., additional

Published
1943
Full Text
View/download PDF

64. Canine Melanoma Diagnosis

Author

Campagne, C., primary, Julé, S., additional, Alleaume, C., additional, Bernex, F., additional, Ezagal, J., additional, Château-Joubert, S., additional, Estrada, M., additional, Aubin-Houzelstein, G., additional, Panthier, J.-J., additional, and Egidy, G., additional

Published
2013
Full Text
View/download PDF

77. Canine Melanoma Diagnosis: RACK1 as a Potential Biological Marker.

Author

Campagne, C., Julé, S., Alleaume, C., Bernex, F., Ezagal, J., Château-Joubert, S., Estrada, M., Aubin-Houzelstein, G., Panthier, J.-J., and Egidy, G.

Subjects
MELANOMA diagnosis, CANCER in dogs, DOG diseases, IMMUNOFLUORESCENCE, MICROPHTHALMIA, BIOMARKERS
Abstract

Melanoma diagnosis in dogs can be challenging due to the variety of histological appearances of canine melanocytic neoplasms. Markers of malignancy are needed. Receptor for activated C-kinase 1 (RACK1) was found to characterize melanomas in other mammals. We investigated the value of RACK1 detection in the classification of 19 cutaneous and 5 mucosal melanocytic neoplasms in dogs. These tumors were categorized as melanocytomas or benign and melanomas or malignant after evaluation of their morphology, mitotic index, and Ki-67 growth fraction. Using immunofluorescence, we confirmed microphthalmia-associated transcription factor (MITF) as a marker of normal and transformed melanocytic cells in dog tissues. All control (n = 10) and tumoral (n = 24) samples stained positively for MITF (34/34, 100%). Whereas RACK1 was not detected in healthy skin melanocytes, melanocytic lesions were all positive for RACK1 signal (24/24, 100%). RACK1 cytoplasmic staining appeared with 2 distinct distribution patterns: strong, diffuse, and homogeneous or granular and heterogeneous. All melanoma samples (13/13, 100%) stained homogeneously for RACK1. All melanocytomas (11/11, 100%) stained heterogeneously for RACK1. Immunohistochemistry was less consistent than immunofluorescence for all labelings in melanocytic lesions, which were often very pigmented. Thus, the fluorescent RACK1-MITF labeling pattern helped to distinguish melanomas from melanocytomas. Furthermore, RACK1 labeling correlated with 2 of 11 morphological features linked to malignancy: cell and nuclear size. These results suggest that RACK1 may be used as a marker in dog melanomas. [ABSTRACT FROM PUBLISHER]

Published
2013
Full Text
View/download PDF

78. Using an electronic microbalance technique to study the stick–slip behavior of lubricated polypropylene fibers

Author

Behary, N., Campagne, C., Caze, C., and Perwuelz, A.

Abstract

By use of an electronic microbalance, fiber/fiber friction measurements were made on cleaned and lubricated polypropylene (PP) filaments. The filaments were coated with a 0.14-μm-thick layer of one of the five lubricants: two different hydroxylated oils (hydroxylated oleate and hydroxylated stearate) and three different ethoxylated surfactants [(i) ethoxylated 10 OE dioleate; (ii) ethoxylated 15 OE dioleate; and (iii) ethoxylated 20 OE trioleate]. Despite the thick layer of lubricant applied, stick–slip persisted. Theoretical considerations of experimental conditions (load, speed, and viscosity) show that the pressure is very high at the contact point, and this would induce film thinning and thus stick–slips arising from phase transitions. Statistical evaluations and atomic force microscopy images show that contacts between PP surfaces take place in presence of lubricants because surface asperity heights are larger than the lubricant film thickness. Oils or surfactants having similar surface tensions give different interfiber cohesion. Some explanations correlating the lubricant chemical structure and its spatial conformation, as well as its capacity to form intermolecular bonds and associative organization, to interfiber friction are given. © 2003 Wiley Periodicals, Inc. J Appl Polym Sci 89: 645–654, 2003

Published
2003
Full Text
View/download PDF

82. Practical solutions for bottlenecks in ecosystem services mapping

Author

Palomo, Ignacio, Willemen, Louise, Drakou, Evangelia, Burkhard, Benjamin, Crossman, Neville, Bellamy, Chloe, Burkhard, Kremena, Campagne, C. Sylvie, Dangol, Anuja, Franke, Jonas, Kulczyk, Sylwia, Le Clec'h, Solen, Malak, Dania Abdul, Munoz, Lorena, Narusevicius, Vytautas, Ottoy, Sam, Roelens, Jennifer, Sing, Louise, Thomas, Amy, Van Meerbeek, Koenraad, and Verweij, Peter

Subjects
Dewey Decimal Classification::500 | Naturwissenschaften::550 | Geowissenschaften, spatial analysis, 13. Climate action, Ecosystem services, mapping, sustainability, solutions
Abstract

Background: Ecosystem services (ES) mapping is becoming mainstream in many sustainability assessments, but its impact on real world decision-making is still limited. Robustness, end-user relevance and transparency have been identified as key attributes needed for effective ES mapping. However, these requirements are not always met due to multiple challenges, referred to here as bottlenecks, that scientists, practitioners, policy makers and users from other public and private sectors encounter along the mapping process. New information: A selection of commonly encountered ES mapping bottlenecks that relate to seven themes: i) map-maker map-user interaction; ii) nomenclature and ontologies; iii) skills and background; iv) data and maps availability; v) methods-selection; vi) technical difficulties; and vii) over-simplification of mapping process/output. The authors synthesise the variety of solutions already applied by map-makers and map-users to mitigate or cope with these bottlenecks and discuss the emerging trade-offs amongst different solutions. Tackling the bottlenecks described here is a crucial first step towards more effective ES mapping, which can in turn ensure the adequate impact of ES mapping in decision-making.

86. Practical solutions for bottlenecks in ecosystem services mapping

Author

Palomo, Ignacio, Willemen, Louise, Drakou, Evangelia, Burkhard, Benjamin, Crossman, Neville, Bellamy, Chloe, Burkhard, Kremena, Campagne, C. Sylvie, Dangol, Anuja, Franke, Jonas, Kulczyk, Sylwia, Le Clec'h, Solen, Abdul Malak, Dania, Muñoz, Lorena, Narusevicius, Vytautas, Ottoy, Sam, Roelens, Jennifer, Sing, Louise, Thomas, Amy, Van Meerbeek, Koenraad, and Verweij, Peter

Subjects
spatial analysis, 13. Climate action, Ecosystem services, mapping, sustainability, solutions
Abstract

Backgroun Ecosystem services (ES) mapping is becoming mainstream in many sustainability assessments, but its impact on real world decision-making is still limited. Robustness, enduser relevance and transparency have been identified as key attributes needed for effective ES mapping. However, these requirements are not always met due to multiple challenges, referred to here as bottlenecks, that scientists, practitioners, policy makers and users from other public and private sectors encounter along the mapping process. A selection of commonly encountered ES mapping bottlenecks that relate to seven themes: i) map-maker map-user interaction ii) nomenclature and ontologies iii) skills and background iv) data and maps availability v) methods-selection vi) technical difficulties and vii) over-simplification of mapping process/output. The authors synthesise the variety of solutions already applied by map-makers and map-users to mitigate or cope with these bottlenecks and discuss the emerging trade-offs amongst different solutions. Tackling the bottlenecks described here is a crucial first step towards more effective ES mapping, which can in turn ensure the adequate impact of ES mapping in decision-making., One Ecosystem, 3, ISSN:2367-8194

90. Développement et caractérisation d'un ASIC de lecture de macro-cellule de photo-détecteurs de grande dimension

Author

Conforti Di Lorenzo, S., Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Paris Sud - Paris XI, J.E. Campagne, C. de La Taille(campagne@lal.in2p3.fr, taille@lal.in2p3.fr), and PMm2

Subjects
Photo-détection, ASIC, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], PARISROC, [SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics, PMm2
Abstract

PMm² is a project funded for three years by the French National Agency for Research (ANR) with the complete title: “Innovative electronics for photo-detectors array used in high energy physics and astroparticles”. The R&D is carried out by three laboratories: the LAL, the IPN Orsay, the LAPP and collaboration with the Université Libre de Bruxelles (ULB). The coverage of large areas of photo-detection is a crucial element of experiments studying high energy atmospheric cosmic showers and neutrinos from different sources (sun, atmospheric, supernova, reactor and accelerator). The next generation of experiments, such as the post-Super-Kamiokande detector or all the Water Cerenkov detector of large dimensions, could not base their programs only on a simple enlargement of existing experiments to improve the detection performance but they must concentrate their efforts on the new R&D programs of complexity reduction. The objective of this project is thus an "upstream research" to realize big detectors using thousands of photomultipliers (PMTs). The project proposes to segment the large surface of photo-detection into macro pixels consisting of an array of 16 PMTs of 12-inches (2*2 m²), connected to an autonomous front-end electronics which works in a triggerless data acquisition mode placed near the array. This is possible thanks to the microelectronics progress that allows to integrate the readout and the signal processing, of all the photomultipliers, in the same circuit (ASIC) named PARISROC (Photomultiplier ARray Integrated in SiGe Read Out Chip). The ASIC must only send out the digital data by network to the surface central data storage. The PARISROC Chip, made in AMS' Silicon Germanium (SiGe) 0.35 µm technology, integrates 16 independent channels for each PMTs of the array, providing charge and time measurements. The charge channel is made by a voltage preamplifier and a slow shaper (up to 200 ns) to shape the input signal. The signal is then saved in the analog memory and converted to digital data thanks to an internal ADC (Analog to Digital Converter). The time channel is made by a fast shaper (15 ns) followed by a discriminator. Thanks to a TDC (Time to Digital Converter), that converts the amplitude in time, the signal is saved in the analog memory, in parallel with the charge, and converted to digital data by the ADC. One innovation is the digital part of PARISROC included in the ASIC to manage the counters, the signal sampling, their conversions and the data transmission. The first prototype of PARISROC chip has a total surface of 19 mm². It has been sent for fabrication in June 2008 to AMS foundry (AustriaMicroSystems) through the CMP (Multi Project Center) and received in December 2008. The ASIC measurements have led to the realization of a second prototype. Important measurements were brought in terms of noise, dynamic range, readout frequency (from 10 MHz to 40 MHz), time measurements (TDC improvements) and charge measurements (Slow shaper improvements). Sent for fabrication in November 2009 and received in February 2010, this new prototype PARISROC 2 has been tested and the characterisation has shown a good overall behavior and the verification of the improvements.; PMm² est un projet financé pour 3 ans (2007-2010) par l'Agence Nationale de la Recherche (ANR) dont le titre exact est “Electronique innovante pour photo-détecteurs distribués en physique des particules et astroparticule”. Le projet regroupe les partenaires suivants: le LAL, l'IPN Orsay, le LAPP et une collaboration avec l'Université libre de Bruxelles (ULB). La couverture de très grandes surfaces de photo-détection est un élément essentiel des dispositifs expérimentaux dévolus aux études des gerbes atmosphériques de grande énergie, des neutrinos de différentes sources (soleil, atmosphérique, supernova, réacteurs, accélérateurs). La prochaine génération d'expériences, comme l'après Super-Kamiokande ou tous les détecteurs Cerenkov à eau de très grande taille, ne pourront plus baser leur construction seulement sur un simple agrandissement des expériences existantes, pour améliorer les performances de détection. Ils doivent concentrer leurs efforts de R&D sur la réduction de la complexité. L'objectif de ce projet est donc une “recherche amont” en vue de facilité la réalisation de grands détecteurs utilisant des milliers de photomultiplicateurs (PMTs). Le projet PMm² propose de segmenter les grandes surfaces de photo-détection en “macro modules” de 16 PMTs de 12-inch (2x2 m²), connectés à une électronique innovante autonome qui fonctionne en déclenchement automatique et est installée proche des PMTs. Ce développement est rendu possible par les progrès de la microélectronique qui permettent d'intégrer la lecture et le traitement des signaux de tous ces photomultiplicateurs à l'intérieur d'un même circuit intégré (ASIC) baptisé PARISROC (Photomultiplier ARray Integrated in SiGe Read Out Chip) et seules les données numérisées sont ensuite transmises par réseau vers le système de stockage des données en surface. Le circuit PARISROC, réalisé en technologie AMS SiGe 0.35 μm, contient 16 voies totalement indépendantes correspondant aux 16 PMTs de chaque module. Chacune de ces voies permet la lecture de la charge du signal reçu ainsi que du temps associé. La voie pour la mesure de charge est réalisée par un préamplificateur de tension et un “shaper” lent (200 ns) qui permet de mettre en forme le signal. Le signal obtenu est ensuite stocké dans une mémoire analogique, avant d'être converti en signaux numériques grâce à un convertisseur analogique numérique (ADC). La voie pour la mesure de temps est, quant à elle, réalisée à partir du même préamplificateur suivi d'un “shaper” rapide (15ns) et d'un discriminateur. Grâce à un système de TDC (Time to Digital Converter) qui permet de convertir l'amplitude en temps, la mesure de temps est stockée dans une mémoire analogique, en parallèle de la charge, avant d'être convertie en signaux numériques. Une des innovations de PARISROC, est la partie numérique compilée, incluse dans l'ASIC pour gérer les compteurs, l'échantillonnage des signaux, leur conversion ainsi que la transmission des données. Le premier prototype du circuit PARISROC a une surface totale de 19 mm2. Il a été envoyé en fabrication en juin 2008 chez Austrian Micro-System (AMS) par l'intermédiaire du centre de multi-projet CMP (à Grenoble), puis livré au laboratoire en décembre 2008. Les mesures effectuées sur l'ASIC ont conduit à la réalisation d'un second prototype. Des améliorations notables ont été apportées, en termes de bruit, de dynamique, de vitesse de lecture du circuit (augmentation des horloges de 10 MHz à 40 MHz), de mesure de temps (améliorations de la TDC), de mesure de charge (améliorations du “shaper” lent). Envoyé en fabrication en novembre 2009 et reçu au laboratoire en février 2010, ce nouveau prototype PARISROC 2 a été testé en laboratoire et l'analyse a montré un comportement répondant aux besoins du projet et la réalisation des modifications apportées.

Published
2010

91. Green synthesis of MOF-based textile composites for the degradation of a chemical warfare agent simulant.

Author

Couzon N, Hardy P, Ferreira M, Hammi N, Dhainaut J, Pourpoint F, Royer S, Loiseau T, Campagne C, and Volkringer C

Abstract

A green synthesis of UiO-66-NH 2 embedded in chitosan and deposited on textiles has been investigated for the degradation of chemical warfare agents. This method requires no heating or use of toxic solvents. The composite synthesized presents an interesting efficiency in detoxifying common simulants of chemical warfare agents, such as DMNP. In parallel, resistance and permeability tests were also realized in order to confirm the suitability of the composites for further applications.

Published
2024
Full Text
View/download PDF

92. Assessing Alternative Pre-Treatment Methods to Promote Essential Oil Fixation into Cotton and Polyethylene Terephthalate Fiber: A Comparative Study.

Author

Tansaoui H, Bouazizi N, Behary N, Campagne C, El-Achari A, and Vieillard J

Abstract

This study aims to develop a new refreshing feeling, ecological, and antimicrobial fabrics for medicinal applications. The geranium essential oils (GEO) are incorporated into polyester and cotton fabrics by different methods, such as ultrasound, diffusion, and padding. The effect of solvent, nature of fibers, and treatment processes were evaluated via the thermal properties, the color strength, the odor intensity, the wash fastness, and the antibacterial activities of the fabrics. It was found that the ultrasound method was the most efficient process for incorporation of GEO. Ultrasound produced a great effect on the color strength of the treated fabrics, suggesting the absorption of geranium oil in fiber surface. The color strength (K/S) increased from 0.22 for the original fabric to 0.91 for the modified counterpart. In addition, the treated fibers showed appreciable antibacterial capacity against Gram-positive ( Staphylococcus epidermidis ) and Gram-negative ( Escherichia coli ) bacteria strains. Moreover, the ultrasound process can effectively guarantee the stability of geranium oil in fabrics without decreasing the significant odor intensity and antibacterial character. Based on the interesting properties like ecofriendliness, reusability, antibacterial, and a refreshing feeling, it was suggested that textile impregnated with geranium essential oil might be used as a potential material in cosmetic applications.

Published
2023
Full Text
View/download PDF

93. Piezoresistive Properties of 3D-Printed Polylactic Acid (PLA) Nanocomposites.

Author

Hashemi Sanatgar R, Cayla A, Guan J, Chen G, Nierstrasz V, and Campagne C

Abstract

An increasing interest is focused on the application of 3D printing for sensor manufacturing. Using 3D printing technology offers a new approach to the fabrication of sensors that are both geometrically and functionally complex. This work presents the analysis of the 3D-printed thermoplastic nanocomposites compress under the applied force. The response for the corresponding resistance changes versus applied load is obtained to evaluate the effectiveness of the printed layer as a pressure/force sensor. Multi-walled carbon nanotubes (MWNT) and high-structured carbon black (Ketjenblack) (KB) in the polylactic acid (PLA) matrix were extruded to develop 3D-printable filaments. The electrical and piezoresistive behaviors of the created 3D-printed layers were investigated. The percolation threshold of MWNT and KB 3D-printed layers are 1 wt.% and 4 wt.%, respectively. The PLA/1 wt.% MWNT 3D-printed layers with 1 mm thickness exhibit a negative pressure coefficient (NPC) characterized by a decrease of about one decade in resistance with increasing compressive loadings up to 18 N with a maximum strain up to about 16%. In the cyclic mode with a 1 N/min force rate, the PLA/1 wt.% MWNT 3D-printed layers showed good performance with the piezoresistive coefficient or gauge factor (G) of 7.6 obtained with the amplitude of the piezoresistive response ( A r ) of about -0.8. KB composites could not show stable piezoresistive responses in a cyclic mode. However, under high force rate compression, the PLA/4 wt.% KB 3D-printed layers led to responses of large sensitivity ( A r = -0.90) and were exempt from noise with a high value of G = 47.6 in the first cycle, which is a highly efficient piezoresistive behavior., Competing Interests: The authors declare no conflict of interest.

Published
2022
Full Text
View/download PDF

94. Nano-Structured Ridged Micro-Filaments (≥100 µm Diameter) Produced Using a Single Step Strategy for Improved Bone Cell Adhesion and Proliferation in Textile Scaffolds.

Author

Behary N, Eap S, Cayla A, Chai F, Benkirane-Jessel N, and Campagne C

Subjects
Cell Adhesion, Cell Proliferation, Humans, Polyesters pharmacology, Textiles, Tissue Engineering, Tissue Scaffolds chemistry
Abstract

Textile scaffolds that are either 2D or 3D with tunable shapes and pore sizes can be made through textile processing (weaving, knitting, braiding, nonwovens) using microfilaments. However, these filaments lack nano-topographical features to improve bone cell adhesion and proliferation. Moreover, the diameter of such filaments should be higher than that used for classical textiles (10−30 µm) to enable adhesion and the efficient spreading of the osteoblast cell (>30 µm diameter). We report, for the first time, the fabrication of biodegradable nanostructured cylindrical PLLA (poly-L-Lactic acid) microfilaments of diameters 100 µm and 230 µm, using a single step melt-spinning process for straightforward integration of nano-scale ridge-like structures oriented in the fiber length direction. Appropriate drawing speed and temperature used during the filament spinning allowed for the creation of instabilities giving rise to nanofibrillar ridges, as observed by AFM (Atomic Force Microscopy). These micro-filaments were hydrophobic, and had reduced crystallinity and mechanical strength, but could still be processed into 2D/3D textile scaffolds of various shapes. Biological tests carried out on the woven scaffolds made from these nano-structured micro filaments showed excellent human bone cell MG 63 adhesion and proliferation, better than on smooth 30 µm- diameter fibers. Elongated filopodia of the osteoblast, intimately anchored to the nano-structured filaments, was observed. The filaments also induced in vitro osteogenic expression, as shown by the expression of osteocalcin and bone sialoprotein after 21 days of culture. This work deals with the fabrication of a new generation of nano-structured micro-filament for use as scaffolds of different shapes suited for bone cell engineering.

Published
2022
Full Text
View/download PDF

95. Microwave-Assisted Synthesis of Porous Composites MOF-Textile for the Protection against Chemical and Nuclear Hazards.

Author

Couzon N, Ferreira M, Duval S, El-Achari A, Campagne C, Loiseau T, and Volkringer C

Abstract

Since the emergence of chemical, biological, radiological, and nuclear risks, significant efforts have been made to create efficient personal protection equipment. Recently, metal-organic framework (MOF) materials have emerged as new promising candidates for the capture and degradation of various threats, like chemical warfare agents (CWAs) or radioactive species. Herein, we report a new synthesis method of MOF-textile composites by microwave irradiation, with direct anchoring of MOFs on textiles. The resistance of the composite has been tested using normed abrasion measurements, and non-stable samples were optimized. The protection capacity of the MOF-textile composite has been tested against dimethyl 4-nitrophenyl phosphate, a common CWA simulant, showing short degradation half-life (30 min). Radiological/nuclear protection has also been tested through uranium uptake (up to 15 mg g -1 adsorbent) and the capture of Kr or Xe gas at 0.9 and 2.9 cm 3 /g, respectively.

Published
2022
Full Text
View/download PDF

96. Melt Spinning of Flexible and Conductive Immiscible Thermoplastic/Elastomer Monofilament for Water Detection.

Author

Regnier J, Cayla A, Campagne C, and Devaux É

Abstract

In many textile fields, such as industrial structures or clothes, one way to detect a specific liquid leak is the electrical conductivity variation of a yarn. This yarn can be developed using melt spun of Conductive Polymer Composites (CPCs), which blend insulating polymer and electrically conductive fillers. This study examines the influence of the proportions of an immiscible thermoplastic/elastomer blend for its implementation and its water detection. The thermoplastic polymer used for the detection property is the polyamide 6.6 (PA6.6) filled with enough carbon nanotubes (CNT) to exceed the percolation threshold. However, the addition of fillers decreases the polymer fluidity, resulting in the difficulty to implement the CPC. Using an immiscible polymers blend with an elastomer, which is a propylene-based elastomer (PBE) permits to increase this fluidity and to create a flexible conductive monofilament. After characterizations (morphology, rheological and mechanical) of this blend (PA6.6 CNT /PBE) in different proportions, two principles of water detection are established and carried out with the monofilaments: the principle of absorption and the short circuit. It is found that the morphology of the immiscible polymer blend had a significant role in the water detection.

Published
2021
Full Text
View/download PDF

97. Study of the Influence of PCL on the In Vitro Degradation of Extruded PLA Monofilaments and Melt-Spun Filaments.

Author

Barral V, Dropsit S, Cayla A, Campagne C, and Devaux É

Abstract

This work presents the effect of a melt-spinning process on the degradation behavior of bioresorbable and immiscible poly(d,l-lactide) (PLA) and polycaprolactone (PCL) polymer blends. A large range of these blends, from PLA 90 PCL 10 (90 wt% PLA and 10 wt% PCL) to PLA 60 PCL 40 in increments of 10%, was processed via extrusion (diameter monofilament: ∅ ≈ 1 mm) and melt spinning (80 filaments: 50 to 70 µm each) to evaluate the impact of the PCL ratio and then melt spinning on the hydrolytic degradation of PLA, which allowed for highlighting the potential of a textile-based scaffold in bioresorbable implants. The morphologies of the structures were investigated via extracting PCL with acetic acid and scanning electron microscopy observations. Then, they were immersed in a Dulbecco's Modified Eagle Medium (DMEM) media at 50 °C for 35 days and their properties were tested in order to evaluate the relation between the morphology and the evolution of the crystallinity degree and the mechanical and physical properties. As expected, the incorporation of PCL into the PLA matrix slowed down the hydrolytic degradation. It was shown that the degradation became heterogeneous with a small ratio of PCL. Finally, melt spinning had an impact on the morphology, and consequently, on the other properties over time.

Published
2021
Full Text
View/download PDF

98. Antibacterial Textile Based on Hydrolyzed Milk Casein.

Author

Belkhir K, Pillon C, Cayla A, and Campagne C

Abstract

Antimicrobial textile structures are developed based on polypropylene (PP) and a natural material, hydrolyzed casein. The casein, from bovine milk, is subjected to acid hydrolysis in aqueous media, then blended into the PP matrix in the melt phase by extrusion. The obtained blend, containing 5 wt.% of hydrolyzed casein, is then processed by a melt spinning process to get multifilaments, leading to the production knitting structures. Thanks to the addition of the hydrolyzed casein, the obtained textile showed a strong antibacterial activity towards both Gram (+) and Gram (-) bacterial strains. The addition of 5 wt.% hydrolyzed casein does not significantly impact the mechanical properties of PP in the dumbbells form, but a small decrease was observed in the tenacity of the filaments. No moisture retention was observed after the addition of hydrolyzed casein, but the rheological behavior was slightly affected. The obtained results can contribute to addressing concerns regarding nonrenewable antibacterial agents used in textile materials, particularly their effects on the environment and human health, by offering antibacterial agents from a biobased and edible substance with high efficiency. They are also promising to respond to issues of wasting dairy products and recycling them, in addition to the advantages of using melt processes.

Published
2021
Full Text
View/download PDF

99. In Situ Detection of Water Leakage for Textile-Reinforced Composites.

Author

Regnier J, Cayla A, Campagne C, and Devaux E

Abstract

By incorporating electrically conductive yarns into a waterproof membrane, one can detect epoxy resin cracking or liquid leakage. Therefore, this study examined the electrical conductivity variations of several yarns (metallic or carbon-based) for cracking and water detection. The first observations concerned the detectors' feasibility by investigating their conductivity variations during both their resin implementation processes and their resin cracking. Throughout this experiment, two phenomena were detected: the compression and the separation of the fibres by the resin. In addition, the resin cracking had an important role in decreasing the yarns' conductivity. The second part of this study concerned water detection. Two principles were established and implemented, first with yarns and then with yarns incorporated into the resin. First, the principle of absorption was based on the conductivity variation with the yarns' swelling after contact with water. A short circuit was established by the creation of a conductive path when a drop of water was deposited between two conductive, parallel yarns. Through the influence of the yarns' properties, this study explored the metallic yarns' capacity to better detect water with a short circuit and the ability of the carbon-based yarns to detect water by the principle of absorption.

Published
2020
Full Text
View/download PDF

100. Development of Flexible and Conductive Immiscible Thermoplastic/Elastomer Monofilament for Smart Textiles Applications Using 3D Printing.

Author

Eutionnat-Diffo PA, Cayla A, Chen Y, Guan J, Nierstrasz V, and Campagne C

Abstract

3D printing utilized as a direct deposition of conductive polymeric materials onto textiles reveals to be an attractive technique in the development of functional textiles. However, the conductive fillers-filled thermoplastic polymers commonly used in the development of functional textiles through 3D printing technology and most specifically through Fused Deposition Modeling (FDM) process-are not appropriate for textile applications as they are excessively brittle and fragile at room temperature. Indeed, a large amount of fillers is incorporated into the polymers to attain the percolation threshold increasing their viscosity and stiffness. For this reason, this study focuses on enhancing the flexibility, stress and strain at rupture and electrical conductivity of 3D-printed conductive polymer onto textiles by developing various immiscible polymer blends. A phase is composed of a conductive polymer composite (CPC) made of a carbon nanotubes (CNT) and highly structured carbon black (KB)- filled low-density polyethylene (LDPE) and another one of propylene-based elastomer (PBE) blends. Two requirements are essential to create flexible and highly conductive monofilaments for 3D-printed polymers onto textile materials applications. First, the co-continuity of both the thermoplastic and the elastomer phases and the location of the conductive fillers in the thermoplastic phase or at the interface of the two immiscible polymers are necessary to preserve the flexibility of the elastomer while decreasing the global amount of charges in the blends. In the present work based on theoretical models, when using a two-step melt process, the KB and CNT particles are found to be both preferentially located at the LDPE/PBE interface. Moreover, in the case of the two-step extrusion, SEM characterization showed that the KB particles were located in the LDPE while the CNT were mainly at the LDPE/PBE interface and TEM analysis demonstrated that KB and CNT nanoparticles were in LDPE and at the interface. For one-step extrusion, it was found that both KB and CNT are in the PBE and LDPE phases. These selective locations play a key role in extending the co-continuity of the LDPE and PBE phases over a much larger composition range. Therefore, the melt flow index and the electrical conductivity of monofilament, the deformation under compression, the strain and stress and the electrical conductivity of the 3D-printed conducting polymer composite onto textiles were significantly improved with KB and CNT-filled LDPE/PBE blends compared to KB and CNT-filled LDPE separately. The two-step extrusion processed 60%(LDPE16.7% KB + 4.2% CNT)/40 PBE blends presented the best properties and almost similar to the ones of the textile materials and henceforth, could be a better material for functional textile development through 3D printing onto textiles.

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results