Q3673432 (Q3673432): Difference between revisions

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(‎Created claim: summary (P836): This project concerns the design, implementation, study and characterisation of functional elastomer materials for applications in the field of glove gloves. The manufacture of this type of high-tech gloves is based on the use of specific and infrequent implementation processes, but perfectly controlled by Piercan.The Piercan company was founded in 1948. She initially specialised in the production of surgical gloves, technical parts of natural r...)
Property / summary
 
This project concerns the design, implementation, study and characterisation of functional elastomer materials for applications in the field of glove gloves. The manufacture of this type of high-tech gloves is based on the use of specific and infrequent implementation processes, but perfectly controlled by Piercan.The Piercan company was founded in 1948. She initially specialised in the production of surgical gloves, technical parts of natural rubber. Since 1979, this company has been established in the Calvados in Port En Bessin. Today, she is the world leader in the production and sale of glove box gloves. The polymers used to make these gloves are elastomers whose chemical nature varies according to needs (natural rubber, neoprene or polychloroprene, polyurethane, CSM, EPDM, butyl). These gloves are implemented by two unusual processes: soaking by emulsion and soaking by dissolution. The latter consists of dipping into a polymer solution a mould whose shape and dimensions correspond to those of the finished object. This soaking is followed by a heat treatment allowing the solvent to be evaporated and the elastomer crosslinked to give it its final physical properties. Checking the regular flow of the solution on the surface of the mould does not allow all the material necessary to make the glove to be deposited during a single soaking. The need to repeat the dipping steps makes it possible to form the final product in successive layers, which also offers the possibility to easily vary the composition of the glove in its thickness. The research project we want to develop focuses on adding new functionalities to these gloves. The properties are radiation protection (for medical, nuclear and decommissioning energy transition applications) as well as antimicrobial properties for pharmaceutical applications. (English)
Property / summary: This project concerns the design, implementation, study and characterisation of functional elastomer materials for applications in the field of glove gloves. The manufacture of this type of high-tech gloves is based on the use of specific and infrequent implementation processes, but perfectly controlled by Piercan.The Piercan company was founded in 1948. She initially specialised in the production of surgical gloves, technical parts of natural rubber. Since 1979, this company has been established in the Calvados in Port En Bessin. Today, she is the world leader in the production and sale of glove box gloves. The polymers used to make these gloves are elastomers whose chemical nature varies according to needs (natural rubber, neoprene or polychloroprene, polyurethane, CSM, EPDM, butyl). These gloves are implemented by two unusual processes: soaking by emulsion and soaking by dissolution. The latter consists of dipping into a polymer solution a mould whose shape and dimensions correspond to those of the finished object. This soaking is followed by a heat treatment allowing the solvent to be evaporated and the elastomer crosslinked to give it its final physical properties. Checking the regular flow of the solution on the surface of the mould does not allow all the material necessary to make the glove to be deposited during a single soaking. The need to repeat the dipping steps makes it possible to form the final product in successive layers, which also offers the possibility to easily vary the composition of the glove in its thickness. The research project we want to develop focuses on adding new functionalities to these gloves. The properties are radiation protection (for medical, nuclear and decommissioning energy transition applications) as well as antimicrobial properties for pharmaceutical applications. (English) / rank
 
Normal rank
Property / summary: This project concerns the design, implementation, study and characterisation of functional elastomer materials for applications in the field of glove gloves. The manufacture of this type of high-tech gloves is based on the use of specific and infrequent implementation processes, but perfectly controlled by Piercan.The Piercan company was founded in 1948. She initially specialised in the production of surgical gloves, technical parts of natural rubber. Since 1979, this company has been established in the Calvados in Port En Bessin. Today, she is the world leader in the production and sale of glove box gloves. The polymers used to make these gloves are elastomers whose chemical nature varies according to needs (natural rubber, neoprene or polychloroprene, polyurethane, CSM, EPDM, butyl). These gloves are implemented by two unusual processes: soaking by emulsion and soaking by dissolution. The latter consists of dipping into a polymer solution a mould whose shape and dimensions correspond to those of the finished object. This soaking is followed by a heat treatment allowing the solvent to be evaporated and the elastomer crosslinked to give it its final physical properties. Checking the regular flow of the solution on the surface of the mould does not allow all the material necessary to make the glove to be deposited during a single soaking. The need to repeat the dipping steps makes it possible to form the final product in successive layers, which also offers the possibility to easily vary the composition of the glove in its thickness. The research project we want to develop focuses on adding new functionalities to these gloves. The properties are radiation protection (for medical, nuclear and decommissioning energy transition applications) as well as antimicrobial properties for pharmaceutical applications. (English) / qualifier
 
point in time: 18 November 2021
Timestamp+2021-11-18T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 10:35, 18 November 2021

Project Q3673432 in France
Language Label Description Also known as
English
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Project Q3673432 in France

    Statements

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    53,393.93 Euro
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    133,484.83 Euro
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    40.0 percent
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    3 January 2016
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    31 December 2019
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    CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE
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    49°12'0.97"N, 0°20'57.37"W
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    14052
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    Ce projet concerne la conception, la mise en uvre, l'étude et la caractérisation de matériaux élastomères fonctionnels pour des applications dans le domaine des gants de boite à gants. La fabrication de ce type de gants de haute technicité se base sur l'utilisation de procédés de mise en uvre spécifiques et peu répandus, mais parfaitement maitrisés par la société Piercan.L'entreprise Piercan a été créée en 1948. Elle était initialement spécialisée dans la production de gants de chirurgie, pièces techniques en caoutchouc naturel. Depuis 1979, cette société est installée dans le Calvados à Port En Bessin. Elle est aujourd'hui le leader mondial de la production et de la vente de gants pour boite à gants. Les polymères utilisés pour la réalisation de ces gants sont des élastomères dont la nature chimique varie en fonction des besoins (caoutchouc naturel, néoprène ou polychloroprène, polyuréthane, CSM, EPDM, butyle). Ces gants sont mis en uvre par deux procédés peu courants : le trempage par émulsion et le trempage par dissolution. Ce dernier consiste à plonger dans une solution de polymère un moule dont la forme et les dimensions correspondent à celles de l'objet fini. Ce trempage est suivi d'un traitement thermique permettant l'évaporation du solvant et la réticulation de l'élastomère afin de lui conférer ses propriétés physiques finales. Le contrôle de la régularité de l'écoulement de la solution à la surface du moule ne permet pas de déposer toute la matière nécessaire à la fabrication du gant lors d'une seule trempe. La nécessité de répéter les étapes de trempage permet de constituer le produit final par couches successives, ce qui offre également la possibilité de varier aisément la composition du gant dans son épaisseur. Le projet de recherche que nous souhaitons développer porte sur l'apport de nouvelles fonctionnalités à ces gants. Les propriétés visées sont la radioprotection (pour des applications dans le secteur médical, nucléaire et pour la transition énergétique de démantèlement) ainsi que des propriétés antimicrobiennes pour des applications dans le secteur pharmaceutique. (French)
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    This project concerns the design, implementation, study and characterisation of functional elastomer materials for applications in the field of glove gloves. The manufacture of this type of high-tech gloves is based on the use of specific and infrequent implementation processes, but perfectly controlled by Piercan.The Piercan company was founded in 1948. She initially specialised in the production of surgical gloves, technical parts of natural rubber. Since 1979, this company has been established in the Calvados in Port En Bessin. Today, she is the world leader in the production and sale of glove box gloves. The polymers used to make these gloves are elastomers whose chemical nature varies according to needs (natural rubber, neoprene or polychloroprene, polyurethane, CSM, EPDM, butyl). These gloves are implemented by two unusual processes: soaking by emulsion and soaking by dissolution. The latter consists of dipping into a polymer solution a mould whose shape and dimensions correspond to those of the finished object. This soaking is followed by a heat treatment allowing the solvent to be evaporated and the elastomer crosslinked to give it its final physical properties. Checking the regular flow of the solution on the surface of the mould does not allow all the material necessary to make the glove to be deposited during a single soaking. The need to repeat the dipping steps makes it possible to form the final product in successive layers, which also offers the possibility to easily vary the composition of the glove in its thickness. The research project we want to develop focuses on adding new functionalities to these gloves. The properties are radiation protection (for medical, nuclear and decommissioning energy transition applications) as well as antimicrobial properties for pharmaceutical applications. (English)
    18 November 2021
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    Identifiers

    15P04793
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