O documento discute várias opções de programas e locais menos conhecidos para visitar em Paris além dos principais pontos turísticos. Entre eles estão o Museu do Erotismo, que apresenta obras de arte erótica através dos séculos, o Museu do Fumante, com uma coleção sobre a história do hábito de fumar, e a Halle Saint Pierre, que abriga exposições de arte bruta e contracultura. O texto também dá dicas sobre como adotar o estilo de vida parisiense.
Comme le poinçonneur des lilas faisait des petits trous, Gérard Lognon fait des petits plis. Le plissage, dans le sillage de la haute couture ; un métier d’un autre temps, celui d’un Paris élégant.
L'essentiel de la VAE (Validation des Acquis de l'Expérience) - Webséminaire ...MONA
Vous retrouvez ici le support utilisé à l'occasion du webséminaire réalisé par la MOPA le mercredi 07 janvier sur le thème de la VAE (Validation des Acquis de l'Expérience).
Ce webséminaire était présenté par Fabien Raimbaud, accompagné de Laure Dubois de l'équipe de la MOPA.
Chemical regulation & opportunities for EcoDesign - Case studies in textile S...Brice Kosinski
Chemical regulations and opportunities for ecodesign : case studies in the textile supply chain
By : ECOMUNDO
Speakers :
Pierrick Drapeau : regulatory expert and public affairs manager
Brice Kosinski : ecodesign project manager
Language : English
Philippe Morin : Textiles intelligents et connectés, vers une nouvelle vision...stereolux
Textiles intelligents et connectés, vers une nouvelle vision du vêtement - Nouvelles applications et nouveaux enjeux des textiles.
Philippe MORIN, Directeur Habillement à l'Institut Français du Textile et de l'Habillement
O documento discute várias opções de programas e locais menos conhecidos para visitar em Paris além dos principais pontos turísticos. Entre eles estão o Museu do Erotismo, que apresenta obras de arte erótica através dos séculos, o Museu do Fumante, com uma coleção sobre a história do hábito de fumar, e a Halle Saint Pierre, que abriga exposições de arte bruta e contracultura. O texto também dá dicas sobre como adotar o estilo de vida parisiense.
Comme le poinçonneur des lilas faisait des petits trous, Gérard Lognon fait des petits plis. Le plissage, dans le sillage de la haute couture ; un métier d’un autre temps, celui d’un Paris élégant.
L'essentiel de la VAE (Validation des Acquis de l'Expérience) - Webséminaire ...MONA
Vous retrouvez ici le support utilisé à l'occasion du webséminaire réalisé par la MOPA le mercredi 07 janvier sur le thème de la VAE (Validation des Acquis de l'Expérience).
Ce webséminaire était présenté par Fabien Raimbaud, accompagné de Laure Dubois de l'équipe de la MOPA.
Chemical regulation & opportunities for EcoDesign - Case studies in textile S...Brice Kosinski
Chemical regulations and opportunities for ecodesign : case studies in the textile supply chain
By : ECOMUNDO
Speakers :
Pierrick Drapeau : regulatory expert and public affairs manager
Brice Kosinski : ecodesign project manager
Language : English
Philippe Morin : Textiles intelligents et connectés, vers une nouvelle vision...stereolux
Textiles intelligents et connectés, vers une nouvelle vision du vêtement - Nouvelles applications et nouveaux enjeux des textiles.
Philippe MORIN, Directeur Habillement à l'Institut Français du Textile et de l'Habillement
Smart textiles new possibilities in textile engineeringNasif Chowdhury
This document discusses smart textiles and provides several examples. It begins by defining smart textiles as textiles that can sense environmental stimuli and react to them by integrating functionalities into the textile structure. The stimulus and response can be electrical, thermal, chemical, magnetic, or other. Examples are given of smart textiles for clothing that can change color or provide light and regulate temperature. The document then discusses the different types of smart textiles and their various functions like sensing, data processing, actuation, storage, and communication. Several applications and examples of smart textiles are provided like the Gore-Tex jacket and Georgia Tech's wearable motherboard shirt. Adidas' and Nike's smart running shoes are also summarized.
The document summarizes various types of textile finishing processes. It discusses classifications of finishing based on the nature of finish, degree of permanence, and performance. It then provides examples and brief explanations of common finishing processes like optical finishing, compacting, calendaring, brushing, raising, napping, shearing, resin finish, softener treatment, water repellent finish, and anti-microbial finish. The objectives and mechanisms of different finishes are also outlined.
The document provides an overview of the total textile finishing process. It discusses various finishing machines and their functions, including squeezers, slitting machines, stenter machines, tube compactors, open width compactors, and raising machines. It also covers different types of finishing processes like softening, stiffening, antimicrobial finishing, UV protection, fireproofing, and nano-finishing. The document includes machine parameters, process flow charts, and development points for quality control.
Smart textiles can exhibit properties of traditional textiles like stretchability while maintaining electrical conductivity. Earlier smart textiles were not practical for wear due to wired connections and batteries but now can be comfortable, lightweight and easy to care for. Examples described include a musical jacket with an embroidered MIDI keyboard, a t-shirt that detects WiFi signal strength through animations, space suits that regulate temperature, and smart military uniforms that can detect injuries. Performance enhancing textiles like Speedo's "shark skin" fabric and properties of various smart fabrics are also summarized.
Smart textiles are materials and structures that can sense and react to environmental stimuli. They include self-cleaning carpets, memory fabrics, and fabrics that regulate temperature. Smart textiles can be divided into passive materials that only sense stimuli, active materials that can both sense and respond, and very smart materials that can sense, respond, and adapt. They use materials like conductive fibers, shape memory alloys, and microencapsulated phase change materials. Applications include sportswear that regulates temperature, medical clothing that monitors vital signs, military uniforms that detect hazards, and fashionable apparel that changes color or plays music. The future of smart textiles may include clothing that emits scents, becomes rigid to immobilize injuries,
The document discusses various auxiliaries and chemicals used in dyeing and finishing processes in the textile industry. It defines textile auxiliaries as chemicals that help processing operations like dyeing and printing by speeding them up or making them more efficient. It provides examples of common auxiliaries like sequestering agents, wetting agents, levelling agents, and discusses their functions. It also discusses chemicals used in specific processes like bleaching, mercerizing, soaping and printing.
Textile industry is one of the few basic industries, which is characterised as a necessary component of human life. One may classify it as a more glamorous industry, but whatever it is, it provides with the basic requirement called clothes. Spinning is the process of converting cotton or manmade fibre into yarn to be used for weaving and knitting. Weaving is a method of textile production in which two distinct sets of yarns or threads are interlaced at right angles to form a fabric or cloth. Finishing refers to the processes that convert the woven or knitted cloth into a usable material. Printing is the process of applying colour to fabric in definite patterns or designs.
The textile industry occupies an important position in the total volume of merchandise trade across countries. Developing countries account for little over two-third of world exports in textiles and clothing. It is the second largest employer after agriculture, providing employment to over 45 million people directly and 60 million people indirectly. The future for the textile industry looks promising, buoyed by both strong domestic consumption as well as export demand.
See more at: http://goo.gl/DZrWkP
http://www.entrepreneurindia.co/
Tags
Business guidance for textile industry, Business guidance to clients, Business Plan for a Startup Business, Business Plan for Opening a Textile Manufacturing, Cotton spinning Business, Dyeing Of Textile Materials, Finishing (textiles), Great Opportunity for Startup, How to Run a Successful Textile Print Business, How to set up my own textile business, How to Start a Business in Textile Sector, How to Start a Small Business in Textile, How to start a successful Textile industry, How to start a textile design business, How to start a textile industry, How to Start a Textile Spinning and Weaving Business, How to start a weaving business, How to start textile business, How to Start Textile Finishing and Printing Industry in India, How to start textile manufacturing business in India, How to start textile shop, How to Start Textile Spinning and Weaving Industry in India, How to start textile spinning business, Introduction of Textile Finishing Process, Knitted fabric, Knitting and knit fabrics, Knitting Technology, Most Profitable Textile Finishing and Printing Business Ideas, Most Profitable Textile Spinning and Weaving Business Ideas, New small scale ideas in Textile Finishing and Printing industry, New small scale ideas in Textile Spinning and Weaving industry, Opening a Textile Mill Business in India, Printing on textiles, Process of making cotton fabric, Profitable Small Scale textile manufacturing, Setting up and opening your Textile Finishing and Printing Business, Setting up and opening your Textile Spinning and Weaving Business, Small scale Commercial Textile industry, Small Scale Textile Finishing and Printing Projects, Small scale Textile production line,
The document discusses various aspects of pressing and ironing in the textile industry. It describes pressing equipment like buck presses, irons, block presses and form presses. It explains the elements of pressing like heat, steam, pressure and vacuum. It also discusses ironing tables, compressed air applications, energy savings opportunities and manufacturing processes for irons and steam brushes.
This document provides an overview of textile and garment finishing methods. It discusses what finishing is and how it can give textiles desirable appearance, feel, and durable properties. Finishing methods are classified as either physical/mechanical or chemical finishes. Specific finishing methods covered include calendering, sanforizing, decating, napping, water repellent finishes, and washes. The document explains how each method works and what properties it imparts to textiles.
The document discusses various garment finishing processes and equipment. It describes spotting processes that use hazardous chemicals and safer alternatives. It also covers folding, packing, hanging, pressing and finishing of different garments using specialized machines like shirt folders, steam irons, and finishers tailored for different garment types. Safety features of folding equipment like jam prevention systems are highlighted.
This document discusses smart textiles, which integrate microelectronics into textiles to endow them with new properties and active behaviors. Smart textiles can sense and react to stimuli in their environment. They are categorized as passive, active, or ultra smart depending on their sensing and response capabilities. The key functions of smart textiles are sensing, data processing, actuation, storage, and communication. Examples of smart textile applications discussed include thermoregulating materials, chromic materials, luminescent materials, conductive materials, voltaic materials, and electronic textiles. Areas of further research include sensors, actuators, signal transmission and control systems, and integrated textile processes.
Textile finishing involves processes that textiles undergo after pretreatment, dyeing, or printing to enhance their attractiveness, comfort, and usefulness. Finishing can improve fabric appearance through processes like calendaring or optical brightening, or alter fabric handle through softening or stiffening. Finishing also improves fabric serviceability by adding properties like flame resistance, water resistance, or easy care attributes. Finishing methods are classified as aesthetic, functional, temporary, permanent, or semi-permanent and involve chemical or mechanical processes. Common mechanical processes include calendaring, brushing, singeing, tentering, and raising. Chemical processes include softening, hardening, resin finishing, mercerization, and fire resistant or antimicrobial
Fabric finishes are applied after fabric production to improve appearance, feel, or properties. Aesthetic finishes influence texture, luster, drape, and hand. Calendering uses rollers to impart finishes like glazing, moire, or embossing. Other techniques include brushing, shearing, and flocking to modify texture. Functional finishes provide benefits like wrinkle resistance or stain release. A fabric's fiber content and construction determine suitable finishing methods.
All steps of preparation of fabric for dyeing.Amit kumar
The document describes various wet processing steps for textiles, including:
- Pretreatment processes like singeing, shearing, and cropping to remove surface fibers and impurities.
- Preparation steps like greige inspection and stitching before wet processing.
- Desizing to remove starch coatings from warp yarns.
- Scouring to remove natural and added impurities using alkalis.
- Bleaching to whiten fibers using oxidizing agents.
The summary highlights the key goal of pretreatment, preparation steps, and common wet processing steps like desizing, scouring, and bleaching that are used to clean and treat textiles.
This document provides information on chemicals used in various textile wet processing stages. It discusses chemicals used in pre-treatment processes like desizing, scouring, bleaching and mercerization. Specific chemicals are listed along with their functions in each process. The document also covers latest specialty chemicals used in pre-treatment like cracking agents, bleach processors and surfactants. Finally, it briefly introduces dyes and dyeing process.
This document provides information on textile finishing processes. It begins by explaining that finishing is the final process given to textiles to improve appearance, feel, and functionality. It then classifies finishing according to the type of finish (physical/mechanical vs. chemical), degree of permanence (permanent, durable, semi-durable, temporary), and performance impact (aesthetic vs. functional). Specific finishing processes are defined, like compacting, decating, water repellent finishes using paraffin wax, silicones and fluorochemicals. The document also discusses flame retardant finishes and calendaring.
Fabric can be dyed before or after spinning yarns together and before or after weaving into fabric. Dyeing occurs at the fibre, yarn and fabric stages of production. Fabrics are also printed with designs and given texture finishes like napping, glazing or stone washing to create effects like velvet, chintz or worn looks. Additional finishes are applied to fabrics to enhance performance properties such as making them antibacterial, crease-resistant or flame-resistant. Specialty finishes provide benefits like being nonstick, enhancing speed drying or protecting from the sun, allergens or moths.
Les fibres de chanvre ... un matériau d'avenir?
- Géopolitique de la culture du chanvre
- Chaine de valeur des fibres de chanvre
- Les fibres textiles et la place du chanvre dans l'industrie textile
- Les axes de développement et d'amélioration des fibres de chanvre pour une application dans le secteur textile
--> Focus sur le le projet FibNaTex avec l'interview d'un porteur du projet
Remarque : Les autres applications des fibres de chanvre (comme dans les composites dans l'automobile) n'ont pas été abordées dans cette présentation mais traitées dans notre rapport.
Smart textiles new possibilities in textile engineeringNasif Chowdhury
This document discusses smart textiles and provides several examples. It begins by defining smart textiles as textiles that can sense environmental stimuli and react to them by integrating functionalities into the textile structure. The stimulus and response can be electrical, thermal, chemical, magnetic, or other. Examples are given of smart textiles for clothing that can change color or provide light and regulate temperature. The document then discusses the different types of smart textiles and their various functions like sensing, data processing, actuation, storage, and communication. Several applications and examples of smart textiles are provided like the Gore-Tex jacket and Georgia Tech's wearable motherboard shirt. Adidas' and Nike's smart running shoes are also summarized.
The document summarizes various types of textile finishing processes. It discusses classifications of finishing based on the nature of finish, degree of permanence, and performance. It then provides examples and brief explanations of common finishing processes like optical finishing, compacting, calendaring, brushing, raising, napping, shearing, resin finish, softener treatment, water repellent finish, and anti-microbial finish. The objectives and mechanisms of different finishes are also outlined.
The document provides an overview of the total textile finishing process. It discusses various finishing machines and their functions, including squeezers, slitting machines, stenter machines, tube compactors, open width compactors, and raising machines. It also covers different types of finishing processes like softening, stiffening, antimicrobial finishing, UV protection, fireproofing, and nano-finishing. The document includes machine parameters, process flow charts, and development points for quality control.
Smart textiles can exhibit properties of traditional textiles like stretchability while maintaining electrical conductivity. Earlier smart textiles were not practical for wear due to wired connections and batteries but now can be comfortable, lightweight and easy to care for. Examples described include a musical jacket with an embroidered MIDI keyboard, a t-shirt that detects WiFi signal strength through animations, space suits that regulate temperature, and smart military uniforms that can detect injuries. Performance enhancing textiles like Speedo's "shark skin" fabric and properties of various smart fabrics are also summarized.
Smart textiles are materials and structures that can sense and react to environmental stimuli. They include self-cleaning carpets, memory fabrics, and fabrics that regulate temperature. Smart textiles can be divided into passive materials that only sense stimuli, active materials that can both sense and respond, and very smart materials that can sense, respond, and adapt. They use materials like conductive fibers, shape memory alloys, and microencapsulated phase change materials. Applications include sportswear that regulates temperature, medical clothing that monitors vital signs, military uniforms that detect hazards, and fashionable apparel that changes color or plays music. The future of smart textiles may include clothing that emits scents, becomes rigid to immobilize injuries,
The document discusses various auxiliaries and chemicals used in dyeing and finishing processes in the textile industry. It defines textile auxiliaries as chemicals that help processing operations like dyeing and printing by speeding them up or making them more efficient. It provides examples of common auxiliaries like sequestering agents, wetting agents, levelling agents, and discusses their functions. It also discusses chemicals used in specific processes like bleaching, mercerizing, soaping and printing.
Textile industry is one of the few basic industries, which is characterised as a necessary component of human life. One may classify it as a more glamorous industry, but whatever it is, it provides with the basic requirement called clothes. Spinning is the process of converting cotton or manmade fibre into yarn to be used for weaving and knitting. Weaving is a method of textile production in which two distinct sets of yarns or threads are interlaced at right angles to form a fabric or cloth. Finishing refers to the processes that convert the woven or knitted cloth into a usable material. Printing is the process of applying colour to fabric in definite patterns or designs.
The textile industry occupies an important position in the total volume of merchandise trade across countries. Developing countries account for little over two-third of world exports in textiles and clothing. It is the second largest employer after agriculture, providing employment to over 45 million people directly and 60 million people indirectly. The future for the textile industry looks promising, buoyed by both strong domestic consumption as well as export demand.
See more at: http://goo.gl/DZrWkP
http://www.entrepreneurindia.co/
Tags
Business guidance for textile industry, Business guidance to clients, Business Plan for a Startup Business, Business Plan for Opening a Textile Manufacturing, Cotton spinning Business, Dyeing Of Textile Materials, Finishing (textiles), Great Opportunity for Startup, How to Run a Successful Textile Print Business, How to set up my own textile business, How to Start a Business in Textile Sector, How to Start a Small Business in Textile, How to start a successful Textile industry, How to start a textile design business, How to start a textile industry, How to Start a Textile Spinning and Weaving Business, How to start a weaving business, How to start textile business, How to Start Textile Finishing and Printing Industry in India, How to start textile manufacturing business in India, How to start textile shop, How to Start Textile Spinning and Weaving Industry in India, How to start textile spinning business, Introduction of Textile Finishing Process, Knitted fabric, Knitting and knit fabrics, Knitting Technology, Most Profitable Textile Finishing and Printing Business Ideas, Most Profitable Textile Spinning and Weaving Business Ideas, New small scale ideas in Textile Finishing and Printing industry, New small scale ideas in Textile Spinning and Weaving industry, Opening a Textile Mill Business in India, Printing on textiles, Process of making cotton fabric, Profitable Small Scale textile manufacturing, Setting up and opening your Textile Finishing and Printing Business, Setting up and opening your Textile Spinning and Weaving Business, Small scale Commercial Textile industry, Small Scale Textile Finishing and Printing Projects, Small scale Textile production line,
The document discusses various aspects of pressing and ironing in the textile industry. It describes pressing equipment like buck presses, irons, block presses and form presses. It explains the elements of pressing like heat, steam, pressure and vacuum. It also discusses ironing tables, compressed air applications, energy savings opportunities and manufacturing processes for irons and steam brushes.
This document provides an overview of textile and garment finishing methods. It discusses what finishing is and how it can give textiles desirable appearance, feel, and durable properties. Finishing methods are classified as either physical/mechanical or chemical finishes. Specific finishing methods covered include calendering, sanforizing, decating, napping, water repellent finishes, and washes. The document explains how each method works and what properties it imparts to textiles.
The document discusses various garment finishing processes and equipment. It describes spotting processes that use hazardous chemicals and safer alternatives. It also covers folding, packing, hanging, pressing and finishing of different garments using specialized machines like shirt folders, steam irons, and finishers tailored for different garment types. Safety features of folding equipment like jam prevention systems are highlighted.
This document discusses smart textiles, which integrate microelectronics into textiles to endow them with new properties and active behaviors. Smart textiles can sense and react to stimuli in their environment. They are categorized as passive, active, or ultra smart depending on their sensing and response capabilities. The key functions of smart textiles are sensing, data processing, actuation, storage, and communication. Examples of smart textile applications discussed include thermoregulating materials, chromic materials, luminescent materials, conductive materials, voltaic materials, and electronic textiles. Areas of further research include sensors, actuators, signal transmission and control systems, and integrated textile processes.
Textile finishing involves processes that textiles undergo after pretreatment, dyeing, or printing to enhance their attractiveness, comfort, and usefulness. Finishing can improve fabric appearance through processes like calendaring or optical brightening, or alter fabric handle through softening or stiffening. Finishing also improves fabric serviceability by adding properties like flame resistance, water resistance, or easy care attributes. Finishing methods are classified as aesthetic, functional, temporary, permanent, or semi-permanent and involve chemical or mechanical processes. Common mechanical processes include calendaring, brushing, singeing, tentering, and raising. Chemical processes include softening, hardening, resin finishing, mercerization, and fire resistant or antimicrobial
Fabric finishes are applied after fabric production to improve appearance, feel, or properties. Aesthetic finishes influence texture, luster, drape, and hand. Calendering uses rollers to impart finishes like glazing, moire, or embossing. Other techniques include brushing, shearing, and flocking to modify texture. Functional finishes provide benefits like wrinkle resistance or stain release. A fabric's fiber content and construction determine suitable finishing methods.
All steps of preparation of fabric for dyeing.Amit kumar
The document describes various wet processing steps for textiles, including:
- Pretreatment processes like singeing, shearing, and cropping to remove surface fibers and impurities.
- Preparation steps like greige inspection and stitching before wet processing.
- Desizing to remove starch coatings from warp yarns.
- Scouring to remove natural and added impurities using alkalis.
- Bleaching to whiten fibers using oxidizing agents.
The summary highlights the key goal of pretreatment, preparation steps, and common wet processing steps like desizing, scouring, and bleaching that are used to clean and treat textiles.
This document provides information on chemicals used in various textile wet processing stages. It discusses chemicals used in pre-treatment processes like desizing, scouring, bleaching and mercerization. Specific chemicals are listed along with their functions in each process. The document also covers latest specialty chemicals used in pre-treatment like cracking agents, bleach processors and surfactants. Finally, it briefly introduces dyes and dyeing process.
This document provides information on textile finishing processes. It begins by explaining that finishing is the final process given to textiles to improve appearance, feel, and functionality. It then classifies finishing according to the type of finish (physical/mechanical vs. chemical), degree of permanence (permanent, durable, semi-durable, temporary), and performance impact (aesthetic vs. functional). Specific finishing processes are defined, like compacting, decating, water repellent finishes using paraffin wax, silicones and fluorochemicals. The document also discusses flame retardant finishes and calendaring.
Fabric can be dyed before or after spinning yarns together and before or after weaving into fabric. Dyeing occurs at the fibre, yarn and fabric stages of production. Fabrics are also printed with designs and given texture finishes like napping, glazing or stone washing to create effects like velvet, chintz or worn looks. Additional finishes are applied to fabrics to enhance performance properties such as making them antibacterial, crease-resistant or flame-resistant. Specialty finishes provide benefits like being nonstick, enhancing speed drying or protecting from the sun, allergens or moths.
Les fibres de chanvre ... un matériau d'avenir?
- Géopolitique de la culture du chanvre
- Chaine de valeur des fibres de chanvre
- Les fibres textiles et la place du chanvre dans l'industrie textile
- Les axes de développement et d'amélioration des fibres de chanvre pour une application dans le secteur textile
--> Focus sur le le projet FibNaTex avec l'interview d'un porteur du projet
Remarque : Les autres applications des fibres de chanvre (comme dans les composites dans l'automobile) n'ont pas été abordées dans cette présentation mais traitées dans notre rapport.
SUPPORT CONFÉRENCE 1024: ARCHITECTURE, RYTHME ET LUMIERE (3 déc. 2015)stereolux
Dans le cadre du cycle thématique “Lumière & numérique : de la scénographie à la ville intelligente”, Stereolux accueille 1024 Architecture pour une conférence autour de leur rapport à l’architecture, au rythme et à la lumière.
Connu aussi bien pour ses scénographies que pour ses installations dans l’espace public (Abies Electronicus, VTLZR, Tesseract, etc...), 1024 Architecture travaille sur des architectures augmentées avec de la matière lumineuse, visuelle, digitale et sonore.
Le travail de 1024 se situe au croisement de l’art, de l’architecture et des technologies numériques, cette conférence sera l’occasion de revenir sur les différents projets qu’ils ont pu mener, et sur le rapport particulier que 1024 entretient avec la lumière, à la fois matériau et matière, qu’ils modèlent et façonnent à l’aide d’outils et de programmes informatiques pour donner forme à des architectures lumineuses et éphémères.
-----
Conférence organisée avec le concours de l'École Nationale Supérieure d'Architecture de Nantes.
« Professeur Cyclope sort du cadre » / catalogue de ventestereolux
Exposition 2015
« Professeur Cyclope sort du cadre »
26 tirages exposés, proposés à la vente, signés et numérotés
Limités à 20 exemplaires par tirage
(Prix TTC hors frais éventuels d’expédition)
Commandes par mail à : info@stereolux.org
This document lists various terms related to graffiti, street art, and urban art including Dollar Bill Ghetto Blaster, Flampoule, Ciliate, Essai PCB textile, Graffiti Research Lab [fr], RUDY, Data Paulette, and Unité Mobile. It also includes the website MARTINDEBIE.COM.
Stereolux à La Fabrique > rapport d'activité 2013 stereolux
Radioscopie de l’année 2013
Musique
Multimédia
Action Culturelle
Laboratoire Arts et Technologies
Communication
Fréquentation
Exploitation et Technique
Vie associative
Administration et Budget
1. Stéréolux, Nantes, 27 mai 2015
«Les matières textiles du futur»: table ronde
Aurélie Mossé l Designer-chercheur et Enseignante l PhD l MA Design for Textile Futures l www.aureliemosse.com l info@aureliemosse.com
2. Gossamer Timescapes:
Designing Self-actuated Textiles
for the Home PhD Thesis by Aurélie Mossé
The Royal Danish Academy of Fine Arts,
Schools of Architecture, Design and Conservation
Centre for IT & Architecture,
Copenhagen, Denmark
The Royal Danish Academy of Fine Arts,
Schools of Architecture, Design and Conservation
School of Architecture
Recherche - textiles actifs pour l’environnement maison
Explorer par le design le potentiel culturel/poétique des technologies intelligentes et leur contribution à la construction d’une maison plus durable
Programming materials at molecular level
Light-responsive polymer films by Ele de Boer, TU Eindhoven
Plastiques lumino-actifs Plastiques électro-actifs
3. Textiles «intelligents»
Matériaux textiles avec la capacité de sentir une information et d’y répondre avec un comportement spécifique
1/ matériaux qui brouillent la frontière entre idée de matériau (statique) et
machine (dynamique)
2/ matériaux qui introduisent le temps comme dimen-
sion centrale de la création
Reef, Aurélie Mossé, 2011
5. Changement de forme
Exemple des polymères électro-actifs
Reef, Aurélie Mossé, 2011, in collaboration with Guggi Kofod, Potsdam University & David Gauthier, CIID
6. Changer de forme
Exemple des polymères photocinétiques
Courtesy Casper Van Oosten
Change in order gives dimensional change
Different textile materials
As discussed in chapter 4.2 three different textile materials were u
composite: polyolefin, polyester and nylon. All three materials see
crystalline materials and the adhesion didn’t seem to differ on first
mechanical testing (see Chapter 4.7) shows that the polyolefin tex
the other textiles, but this was not of influence on the bending. Th
influence on the bending behaviour seemed to be the fibre density
their weight by area. The polyolefin, polyester and nylon materials
and 70 gr/m2
. The bending of the samples is shown in Figure 47.
Figure 47: Bending of samples with different tex
These pictures were taken during the second cycle of illumination.
samples were more or less horizontal but they didn’t revert back to
Textiles photocinétiques, Aurélie Mossé, 2011, en collaboration avec Ele de
Boer et Prf. Dick Broer, Eindhoven Technical University
7. Vêtements connectés
Challenges
• développer un savoir-faire qui ne
soit pas au détriment des qualités
esthétiques
• science/design: mieux collaborer,
adresser l’échelle microscopique et
sensuelle simultanément
• dépasser l’usage de l’électronique
• dépasser l’intéractivité, générer des
intéractions qui respectent le temps
du corps et de la nature
8. Aurélie Mossé l Designer-chercheur et Enseignante l PhD l MA Design for Textile Futures l www.aureliemosse.com l info@aureliemosse.com
Mes vêtements
prennent vie -
17 juin à 18h30
Conférence au Grand Palais, Paris, présentant
les résultats du workshop ENSAD/Orange sur
la thématique des vêtements connectés
Atelier Vêtement, ENSAD, portes ouvertes 2015