Projects

Development of a controlled degradation of synthetic or biopolymer textiles for special applications

The degradation of textile materials in carbon dioxide is an interesting route to resolve the end-of-life issues of a number of applications. In the case of agro- or geotextiles it is not always feasible to recover or remove the products in a quantative manner. For these applications natural fibres can be used, although their processing into specific structures is not so easy. Another alternative is the use of biopolymers but these materials do not always have the appropriate (bio)degradation profile either.

Development of improved PolyOlefin MELt ADhesion fibres and yarns and their implementation in textile applications

The control of the melting and weakening trajectory and the adhesion of polyolefin fibres is becoming more and more important for many textile applications. Examples can be found in composites, where the polyolefin fibres are compressed to a composite structure. In new type of composites, the matrix and the strengthening fibres are made from the same family of materials. The combinations of many polyolefin materials lead to various possibilities for different types of composites.

With the SmartNets project, Centexbel wants to study SME networking for the development of new products. We work together with the Belgian partners LAMPE TEXTILES and DEVAN CHEMICALS and several other European partners.
SmartNets is a European FP7 project.

Integrated solutions for an improved sleep quality

ALL4REST, is focused on the development of comfort‐improved sleep systems, using non‐obtrusive technologies promoting a deeper and better recovering sleep and preventing nocturnal awakenings. The successful solutions will reduce the number of awakenings and/or the time to fall sleep after an awakening and reduce sleep onset latency (the length of time that it takes to accomplish the transition from full wakefulness to sleep).

The advent of globalisation has urged the European textile industries to implement new technologies to maintain the cost-effectiveness of the sector. One such development is the application of of thin silane finishes on textiles, a development that has been introduced during the last decade. The extraordinary properties of these (functionalised) finishes include a.o. enhanced abrasion resistance and omniphobicity.

optimisation of the formulation, the extrusion process and subsequent processing steps

Centexbel desires to expand the knowledge on the processability of PLA in textile processes.
In the second project we evaluate the polymer formulas with a favourable effect on the mechanical properties and we will examine the processing of PLA in final applications and the impact of process variations on the polymer formulation. PLA is a polyester and hence sensible for moisture that can influence the final product and prematurely affect the mechanical properties. Therefore the PLA Hydrolysis is a crucial element in the study.

Assembly of an artificial ovary combining isolated human ovarian follicles, fibrin and a textile pocket

The objective of this project is the development of a 3D biodegradable matrix allowing the graft of autologous ovarian tissue or isolated follicles in patients with impaired fertility following a gonadotoxic treatment. This biofunctional fibrin-based matrix will limit the follicular loss due to post-transplant ischemic stress and will help to induce the formation of an extracellular ovarian-like matrix by promoting cell migration, cell proliferation and vascularization.

In the CleanCloth project, we propose to develop a superior cleaning cloth with constant and continuous antibacterial effect, ensuring that no bacteria is left in the cloth and making bacterial re-growth impossible, without need for special and time-consuming hygiene procedures. This will be accomplished by a unique technology with antibacterial agent integrated into the microfiber of the cloth. The advances in this technology will allow significant reduction of cross-contamination and bacterial regrowth. Infectious diseases arising in the home setting are a significant concern.

Nano Chemical Applications for Technical Textiles

Polypropylene (PP) based materials are very appropriate for the application of particles from natural proteins or polysaccharides. Natrual proteins have interesting properties: they are hydrophilic, rich in amine groups and open to chemical reactives. Natural proteins may be gained from ceranic fibres. The combined use of polypropylene and protein particles improves the textile properties of spun fibres (eg. dyeing, fixation, valorisation) and thus leads to the creation of totally new products.
Click here for a video on the project

The main objective of Safe@Sea is to develop a new generation of advanced personal protective clothing for the fishing industry that will lead to a significant increase in safety without reducing work performance.

In order that the market can grow to the profit of the local industry, good (and therefore reproducible) standards are needed to evaluate medical textiles, and more in particular textiles used in operating theatres subject to European regulations. Textiles used in operation theatres are considered as medical devices and must therefore meet certain requirements (EN 13795) in the framework of CE labelling.

Fibre-reinforced plastics or composites are applied in an increasing number of products all over the world.

Currently the world of polymeric composite materials is exclusively based on fossil derived components. This fact represents a strong issue, as the non-renewable global oil resources are being exploited year after year, also as a consequence of the ever growing demand for plastics engineering materials. As a concrete answer to the increasing volumes of building and construction materials processed and transformed by industry in almost all sectors, renewable resources need to be exploited in order to reduce the depletion of oil reservoirs, and the associated ecological issues deriving, provided they can grant quality standards comparable with the currently available materials.

Hotmelts are 100% polymer systems applied onto a a substrate during the melt stage and offering the following advantages:

• energy savings
• reduced emissions
• less waste

Open Garments is an initiative of a consortium consisting of five research organisations (Centexbel amongst others), five technology providers and five industrial partners, from nine European countries.

Textiles with a variety of integrated sensors for comfort assessment, remote heath monitoring, and home healthcare

3 to 4% of the population suffers from sleep disorders, often causing severe health problems.

The MONSOTEX projects aims at developing a system for (remote) sleep monitoring, based on the use of smart textiles with several embedded psychometric sensors (electro-cardiogram, respiration, temperature...).

PLA (polylactic acid) is generally considered to be an important biopolymer for textile production. Since a few years, the polymer is available on the market and its applicability has already been proved in a number of processes and final applications. Yet, its breakthrough is slower than expected.

Bio-based polymers are becoming increasingly interesting, because of the rising oil prices, decreasing oil supplies, the harmful impact of greenhouse gases. The application of renewable resources in the production of polymers goes hand in hand with the growing use of alternative raw materials.

Since time immemorial, silver has been used to cure a whole series of illnesses, and especially infections. Already in ancient Greece and Rome and in the Middle Ages it was used to disinfect water and food supplies as well as to cure burns and gaping wounds.

In the present era of “ambient intelligence”, men, women and children are dragging along pockets / handbags full of all kinds of electronic gadgets.

Contex-T is a EU-funded integrated project for SMEs that brings together a consortium of 30 partners from 10 countries. Each partner has been carefully selected for its expertise and knowledge in the field.

DIGITEX = Digital Fast Patterned Microdisposal of Fluids for Multifunctional Protective Textile