Results 1 - 13 of 13
Project Persons Year Tags
AVALON Prof. Dr. Thomas Fischer (AVALON) research, textile, hybrid, technology, shape memory alloy, sma,
Principle objective of the AVALON project is the cross-sectoral development of novel hybrid textile structures integrating multifunctional Shape Memory Alloys (SMAs) and the related processing techniques as well as design, simulation and organisational methodologies. They will enable the integration of such textile structures into novel high performance products in the fields of smart wearable systems and textile reinforcements for technical applications. The broader aim is to create new market perspectives in the textile sector by introducing emerging and highly promising non-textile technologies.
cimtec Pietro Vincenzini - General Chair (cimtec) ongoing electronics, smart textiles, conferences, event
Intensive research carried out worldwide for creating higher forms of materials, structures and systems by providing them with “life” functions, resulted in a relatively high level of technology readiness with several applications now emerging, demonstrating that smart materials technologies have matured well beyond the conceptual stage. Widespread use of nanotechnology concepts and tools and availability of multiscale computational models coupled with the exponential growth of computing capability and the merging of materials science and engineering with biological information, are fuelling the rate of advancement of the field. Nevertheless further substantial developments are required in the understanding of convergences of materials, electronics and biological systems, to meet relevant needs for present and foreseeable applications. The several Symposia featured by CIMTEC 2012 - 4th International Conference “Smart Materials, Structures and Systems” will cover outstanding areas of the subject from the molecular nanoscales to large complex integrated systems. The Conference Committees are pleased to invite you to foster progress in the field by contributing to discussions within the frames of what promises to be an exciting meeting, and to enjoy the immense, unique, artistic heritage and wonderful landscape of Tuscany.
Department of Textiles Lina Rambausek (Universiteit Gent) biomimetics, fibre and coloration technology, Plasma technology, polymer technology, department, smart textile, university, school, Faculty of Engineering, textile research, Scientific research, Technical-scientific services, textile industry, chemical, high performance textile materials Conductive textiles, Biotechnology, Centre for Materials Science and Engineering, Electrospinning, electroconductive fibres, electrochemical textile sensors
The Department of Textiles is an integrated part of the Faculty of Engineering of Ghent University. Structure I. CHEMICAL AND PHYSICAL TEXTILE TECHNOLOGY headed by prof. dr. Paul KIEKENS II. FIBROUS STRUCTURES headed by prof. dr. ir. Lieva VAN LANGENHOVE III. FIBRE AND COLORATION TECHNOLOGY headed by prof. dr. ir. Karen DE CLERCK IV. POLYMER TECHNOLOGY headed by prof. dr. ir. Gustaaf SCHOUKENS
Eeonyx Jamshid Avloni (Eeonyx) 1995 biomedical instruments, microwave absorbing structures, hi tech, design, corporation, piezoresistive fabric, conductive textile, company, dynamic pressure sensors, antennas, magnetic fabrics, smart materials
Weíve developed a core lineup of products including textiles, foams, felts and powders all with specifiable degrees of conductivity. Our textiles have been used in a wide range of commercial and military applications (from static controlled clean rooms to microwave absorbing structures, biomedical instruments, dynamic pressure sensors, antennas, and resistive heaters), and engineers are discovering more uses for them all the time.
Engineered Fibre Structures Billy Hunter (Engineered Fibre Structures Ltd) Knitted technical textiles, Knitting technology, technical applications, automotive, aerospace, engineering, industrial, personal protective equipment, sportswear, healthcare, medical, Smart and intelligent fibre based products, New technologies for manufacturing, Rapid prototyping, Technology Translation
Engineered Fibre Structures specializes in providing textile solutions for medical, healthcare, sportswear, personal protective equipment, industrial, engineering, aerospace, automotive and other technical applications. We are a knowledge based business with a unique blend of industrial, research, product design/ development expertise.
Erich Berger Erich Berger interface, mathematical, structures
Erich Berger is a master of the obscure interface. With an engineering degree in communications and a Master degree in philosophy, it should perhaps not come as a surprise that Berger is interested in paradox. His fascination for mathematical structures is obvious in his visual language, consisting of the formal patterns of squares, lines and rectangles. No attempt is made to create an organic quality, the shapes are pure abstraction.
Grado Zero Espace Pagliai Filippo (Grado Zero Espace) new technology, new material, leader, innovations, lobaratory test, prototyping, design, engineering, medical equipment, safety equipment, sport equipment, nautical, automotive, clothing, furnishing, wearable technology, textile structures, accessories, interior, smart material, research, company, nanotubes, fibers, fabrics, composite textile structures, limited edition, European Space Agency Ttp, oricalco fabric
The mission of the company is to develop and commercialize new materials and technologies for industry transfer to create new products with the aim to improve quality of life, work and environment. The company acts as a go-between among many industrial branches and research fields, in particular: nanotubes, fibers, fabrics, composite textile structures, extreme sport equipments and safe equipments, new performing materials and technologies for furnishing / automotive / nautical / medical areas.
IS-FOE 10 Dr. Argiris Laskarakis 2010 flexible, organic, electronics, science, research
The field of Flexible Organic Electronics is one of the most rapidly growing sector of the modern science and technology. Today, many resources and investments from government agencies, research institutes and local industries are devoted to the developments of materials, processes, instrumentation, equipment for flexible organic electronics. The IS-FOE is the Premier Scientific & Research Event in Organic Electronics devoted to gather scientists, engineers and industrials from all around the world and to exchange information and provide access to the latest developments of several topics covering organic electronic printable materials, device structures, system integrations, manufacturing processes, characterization adn monitoring, product applications and business opportunities.
Laura Beloff Laura Beloff wearable objects, networked installations, artist
With acclaimed international reputation as an artist, the Finnish-born Laura Beloff's artistic works can be described as peculiar wearable objects, programmed structures and participatory, networked installations. In her pieces she combines technology fluently with various mediums ranging from video to textile, from sound to sculptural and organic materials. Many of her works deal with individuals in the global society trying to adapt to highly complex technologically enhanced world, which is becoming increasingly mobile. Collaboration with other artists, musicians and computer scientists has been one of the features typical for her working methods.
Loop.pH Rachel Wingfield (Loop.pH) collaboration, creative, surface, research
Loop.pH is a multi-disciplinary creative collaboration, who create and develop new surfaces & structures, conduct an extensive range of research activities and collaborate with industry.
NATO ASI PROTECTIVE TEXTILES 2010 Ir. Els Van der Burght (NATO OTAN) 2010 wearability, confort, electronic processor, wearable sensor, nanotechnology, high level, protective textile, protective apparel, chemical, biological, nuclear, ballistic, clothing, intelligent textile, defense, study institute, textile materials, design, manufacturing, New dress concepts, Department of Textiles/ UGent
Modern protective clothing needs to meet a variety of multifunctional requirements and offer a very high level of protection as well as remarkable comfort and wearability, influencing the wearerís physical performance which puts it far beyond usual definitions of comfort. The demand for multifunctional properties makes it necessary to develop and improve fibre and textile materials and structures (suits, uniforms, Ö). Introduction of nanotechnology and the use of a variety of (wearable) sensors / embedded electronics and processors turn traditional protection into a value added market posing ever increasing challenges to researchers and engineers at universities, institutes and industry. Design and manufacturing of sophisticated interactive protective textiles and clothing, meeting very tight specifications, has to be done taking into account cost-effectiveness, environmental issues and even the need to be applied to military as well as civil purposes.
Studio subTela Barbara Layne (Hexagram Institute) institute, research, visual art, engineering, intelligent clothing, smart fabrics
Barbara Layne is the Director of Studio subTela at the Hexagram Institute where she works with a team of graduate students from Visual Arts and Engineering at Concordia University and a variety of international collaborators. The Studio is focused on the development of intelligent cloth structures for the creation of artistic, performative and functional textiles. Natural materials are woven in alongside microcomputers and sensors to create surfaces that are receptive and responsive to external stimuli. Controllable arrays of Light Emitting Diodes present changing patterns and texts through the structure of cloth. Wireless transmission systems have also been developed to support real time communication. In both wearable systems and site related installations, textiles are used to address the social dynamic of fabric and human interaction.
XS labs Joanna Berzowska (XS labs) lab, innovation, electronic textiles, reactive garments, interactions, design research studio, complex textile-based surfaces, transitive properties
Joanna Berzowska's XS Labs is a design research studio with a focus on innovation in the fields of electronic textiles and reactive garments: "second skins" that can enable computationally-mediated interactions with the environment and the individual. We are equally inspired by the technical and cultural history of how textiles have been made for generations (weaving, stitching, embroidery, knitting, beading, quilting) and by new and emerging materials with different electro-mechanical properties. This enables us to construct complex textile-based surfaces, substrates, and structures with "transitive" properties.