Flamac, a Division of SIM
Overview
At Flamac we have developed unique high-throughput platforms to accelerate materials R&D. These include accelerated synthesis, formulation, application and characterisation techniques. Flamac offers its service in either collaborative, multi-disciplinary research between industry, universities and research centres or contract research.
We combine our competences in high-throughput experimentation with a thorough understanding of our customers’ needs, across a variety of application areas and industries.
This enables both large corporations and small & medium sized companies to stimulate new product and process development and to shorten their time-to-market for new materials.
Flamac has different platforms at its disposal to fulfill its mission and to provide our partners with the most state-of-the-art capabilities to perform high-throughput research. Please click on the side-menu for more information on the different platforms.
– High-throughput synthesis
– High-throughput formulation
– High-throughput application
– High-throughput thin film deposition
– High-throughput screening
. Combinatorial experimentation is an experimental strategy that solves this dilemma through automation, miniaturisation and, more important, parallelisation of experiments. Using this strategy hundreds of experiments can be performed simultaneously or in very rapid succession, speeding up dramatically the time to discovery and product development. Today’s robotic handling in combination with rapid screening (measuring, analysing) methods, miniaturisation of testing, and application of data mining and statistical and visualisation tools, allow for rapid harvesting of useful data and a better understanding of the parameters relating to the synthesis of new materials and formulations, their properties and effects.
Specific equipment and software has been installed in order to enable experimental workflows in the areas of viscous formulations, high speed curable coatings and many more. Those workflows are the backbone for the platform on which Flamac will further build its expertise. End of 2007, Flamac…. Yes. service.
Sectors
Technology
ACTPHAST
Overview
ACTPHAST, which stands for Access CenTer for PHotonics InnovAtion Solutions and Technology Support, is a unique one-stop-shop access centre for photonics innovation support of European industry, funded by the European Commission under FP7-ICT-2013-11 which commenced in November 2013 with a 48-month programme of work.
Building on the previous actions taken at European level to create networks of excellence in different areas of photonics, ACTPHAST successfully took on the challenge of establishing a highly effective and efficient one-stop-shop access centre, which combines the state-of-the-art expertise and technologies of 23 of the top research institutes in photonics from across the different European networks (the ACTPHAST Partners), centrally coordinated by the Brussels Photonics Team (B-Phot) of the Vrije Universiteit Brussel, and rolling it out in large-scale to the broad base of European-wide industry.
As a result ACTPHAST offers a single entry point into a fully integrated supply chain across… ACTPHAST provides European SMEs from a wide variety of end-user industries with fast, flexible and targeted innovation support - 100% subsidized for SMEs - in the large domain of photonics, applicable to all sorts of different market applications, across all major photonics technology platforms as identified below:
1 Free-space photonic components and systems
2 Glass and polymer specialty fibers and fibre devices
3 Polymer-based photonic components and large-area organic-photonics
4 Micro-Opto-Electro-Mechanical Systems
5 Silicon Photonic Integrated Circuits
6 InP-based Photonic Integrated Circuits
7 Si3N4 and SiO2 passive waveguide technologies
. The innovation projects with SMEs are utilizing the full spectrum of technology platforms and value-chain activities offered by ACTPHAST from modelling and design, to prototyping, characterization, packaging and integration, and finally reliability and testing.
ACTPHAST also provides linkages to pilot lines for first stage progression of new products into mass manufacturing.
Most of the ACTPHAST innovation projects entail multi-disciplinary teams of experts from more than one ACTPHAST Partner working in collaboration together and with the companies’ own R&D personnel.. Yes. service.
Sectors
Technology
Fraunhofer Institute for Aplied Polymer Research
Overview
The Fraunhofer IAP in Potsdam-Golm, Germany, offers a broad range of research on polymers. We work on biobased and synthetic polymers that meet the growing demands of our partners. The end products are
becoming more durable and stable, more acid and heat resistant, easier to care for, healthier, more environmentally-friendly, more cost-effective ... as well as easier and more energy efficient to manufacture.
We develop innovative and sustainable materials, processes and products that are specifically tailored to the application’s requirements. We also create conditions which ensure that the developed methods not only work on a laboratory scale, but also under production conditions
pilot-plant for viscose, Blaschke
wet spinning line
Lyocell laboratory spinning plant
Fourné bicomponent spunbond plant (3 kg / 1 kg) for takeoff speeds up to max. 1800 m/min
stabilization and carbonization unit for carbon fiber development
equipment for Extrusion/compounding/recycling, injection molding, blow molding etc.
lab facilities for the characterization of thermo-mechanical properties
modern polymer synthesis labs
pilot-line for printed organic electronics
miniplant facility for PLA synthesis with lactic acid used as feedstock
membrane casting machine for flat sheet membranes with 40 cm width
stainless steel bioreactors: 3x 2 liter, 1x 10 liter, 1x 100 liter working volume with exhaust gas analytics and process analytics
modern multifunctional pilot plant for low- and high-viscosity polymer syntheses (−1 to 100 bar and 5 to 350 °C) with 15 main reactors (50 to 870 L)
vertical and horizontal prepreg-lines
. synthesis of polymers and additives, formulation/blending, processing from melt and solution, scale-up activities up to pilot plant scale, prototyping development and testing, wide range of analytical services
. Yes. service.
Sectors
Technology
Footwear Technology Center of La Rioja
Overview
The Footwear Technology Center of La Rioja (CTCR) was constituted in July 2006 as a private non-profit association for the promotion, research, development and technological innovation of the footwear industry in La Rioja.
Located in the industrial town Arnedo, the Footwear Technology Center of La Rioja serves as the hub of the sector and the area, providing with its special design and architecture, one of the best facilities in the north of Spain. The Center integrates equipped labs as well as rooms specially designed for trainings, seminars, congresses, business meetings, etc.
Our mission is:
Research, development and innovation to create added value for business.
Improvement of the competitiveness of the industry, at a national and international level.
Specialization in giving comprehensive solutions to businesses (more than 10 years of experience managing projects for the future).
The CTCR has more than 110 partners, of which 80% are footwear manufacturers or distributors and 20% are… The Footwear Technology Center of La Rioja (CTCR) has 5 research departments with their appropriates laboratories and work areas:
Nanotechnology and New Materials.
Cost reduction and production increase through nanomaterials.
Shape memory polymers.
Intelligent materials that change color under certain external stimuli.
Microcapsules containing active substances.
Energy efficiency technologies.
Additives and new polymers capable of self-regenerating.
Technical improvements through new materials or nanotechnology: slip resistance, fireproof, antibacterial, impact resistance, electrical conductivity...
Chromatography.
Rubber mixer.
Hydraulic press.
Mechanics and Prototyping:
Rapid prototyping.
3D printers.
3D digitalization of models.
Electronics and Automation.
Development of wearables.
Technological automation and process controls.
Collaborative robots
Tracking technologies.
Production, stocks and…. The Footwear Technology Center of La Rioja (CTCR) offer the following services:
Sustainability
LCA and ecodesign.
EU Ecolabel for footwear.
Corporate Social Responsability.
Carbon footprint.
Accoustic emissions control.
ICTs & Industry 4.0:
360º product photography.
Development of wereables.
Automation and process control technologies.
Intelligent and electronic textiles.
Tracking technologies: production, stock and logistics control using RFID.
Technologies for sensorisation, geolocation or intercommunication.
Virtual 3D catalogues.
Online shops.
Online backup.
Virtual reality and.
Augmented reality on smartphones apps.
Soldering station.
Advanced materials nanotechnology:
Nanocomposites.
Impact energy absorbing materials.
Bactericidal materials.
Microencapsulation of substances.
Shape memory polymeric materials.
Self-reparing materials.
Synthesis and use of ionic liquids.
…. Yes. service.
Sectors
Technology
CTCV - CENTRO TECNOLOGICO DA CERAMICA E DO VIDRO
Overview
CTCV is a technological centre focused on the development of technical and technological capabilities of construction industries, namely ceramic, and has an extensive experience in developing multifunctional, added value ceramic materials. CTCV has a large experience participating in national and European R&D projects.
Its main goals may be summarized as: to provide technical and technological support to these industries; to promote the development and quality of industrial products and processes; to promote highly specialized training to industry personnel; to divulge scientific, technical and technological information; to carry through and promote research, development and demonstration work, considering the scientific and technological progress of the ceramic, cement and glass materials processes and products and also other activities involving the built environment (Habitat).
CTCV has close links with several Universities and Research Centers, both in Portugal and abroad and has extensive… CTCV - Capacities/equipments/techniques available
X-ray diffraction (XRD)
The mineralogy of the samples will be performed carried out by X-ray diffraction (XRD), in a X-ray diffractometer of brand PANalytical (model with X’Pert-Pro), with X-ray bulb of ceramic insulator and copper anticathode (Cu). The apparatus is equipped with a vertical goniometer -2, with a programmable divergence slit system, ultrafast detector (model X’Celerator), antiscatter automatic slit, with sample rotation system. The equipment have an acquisition and data processing software, being the data processing made by the module Highscore Plus, which is coupled to ICDD database, integrated in module X’Pert PRO.
This analysis will be performed on a mounting of non-oriented aggregates, after drying the sample at 40-50ºC, grinding and passing the sieve of 75 µm (# 200 ASTM).
Fluorescence Spectrometry X-rays (XRF)
The chemical quantitative analysis of clay will be carried out after drying of the material at 100-110ºC,…. CTCV develops services in Research and Development in New and advanced Materials and Products including:
Development and optimization of materials, products and manufacturing processes.
Development of shaping technologies for ceramic materials, namely injection molding processes.
Innovation in high performance and multifunctional ceramic materials
Characterization of raw materials and end materials.
Materials: Nanomaterials, ceramics, coating, filled polymer and composites.
Processes: Compounding, injection moulding, ceramic processing, sintering
Testing of New Materials: Chemical, mechanical, microstructural analysis, rheology, test sample production; Hydrofilicity and hydrophobicity surface analysis SELFCLEAN
Others services:
Advanced Manufacturing Technologies - Use of additive manufacturing technologies for ceramic tableware and decorative development
Robotics – soon
More information: https://www.ctcv.pt/index_eng.html
. Yes. service.
Sectors
Technology
RECENDT - Research Center for Non-Destructive Testing GmbH Advanced Technologies for Industry
Overview
RECENDT, the Research Center for Non Destructive Testing GmbH is a non-university based research company in Austria.
As an internationally well recognized Research Center for Materials Characterization and Non-Destructive Testing & Measurement, RECENDT operates very successfully on the Austrian and international market since 2009.
RECENDT gained internationally acknowledged reputation as partner as well as coordinator in numerous national, EU- and international projects. The company is well established as a popular partner for local SMEs as well as multinational enterprises.
Fundamental Research & Industrial Solutions:
Our range of services incorporates the whole R&D process chain and stretches from application-oriented fundamental research to the development of state-of-the-art technology for industrial applications.
Partners from Industry as well as from Research are kindly invited to browse our competencies, technologies and equipment - and to get in contact with us, to identify the ressources to serve you best!
Use our OCT systems to gain deeper insights in, e.g., polymer materials and plastics components.
OCT - Optical Coherence Tomography provides 3D-images of inner structures in IR-semi-transparent materials in Real-Time. Resolution is about one micrometer.
Take equipment available in our IR- & Raman-Spectroscopy - Labs to discover chemical information from various materials and objects.
Infrared and Raman Spectroscopy can be applied in many variations to get information on chemical composition of substances (solid or liquid) or to characterize surfaces or to measure the thickness of films and coatings.
Utilize our LUS-Setups to measure on metals and CFRP.
LUS - Laser-Ultrasound is a high-resolution and completely contact-free method of ultrsound testing. It can be applied…. RECENDT provides various opportunities for cooperation:
Experts advice for industrial partners and SMEs on problems in the field of NDT
Testing Services and demonstration of available technology in our labs
Feasibility studies demonstrating the applicability of NDT-technologies
Development of NDT-solutions for industrial application at partners' sites
Joint research in collaborative projects, e.g., H2020
. Yes. service.
Sectors
Technology
CIRCE Foundation
Overview
CIRCE is a research Centre founded in 1993 with the support of the University of Zaragoza, to create and develop innovative solutions and scientific/technical knowledge and transfer them to the business sector in the field of energy.
CIRCE’s mission is to drive forward improvements in energy efficiency and to spread the use of renewable energy by means of the development of R+D+i (Research, Development and Innovation) activities and formative actions that respond to the needs of national and international producers, thereby contributing to sustainable development.
Objectives
Circe's mission consists of the following objectives:
To improve competitiveness of national companies by means of the improvement of their energy processes.
To develop and apply new technologies that improve energy efficiency and facilitate the diffusion of renewable energy.
To develop internationally acclaimed training programmes in energy.
To encourage and promote the improvement of energy efficiency… CIRCE boasts high-tech R+D systems to recognized and certified standards. These infrastructures make it possible to offer a good quality, efficient innovation service, in close contact with real businesses, as well as promoting the generation of new knowledge. View each of our labs to see the facilities and activities available.
Renewable Energy Integration Laboratory
R+D+i activities performed in the Renewable Energy Integration Lab take place in the field of connection to the electric grid of renewable generation systems, storage and micro-grids, as well as developing applications with which to improve grid quality and electric vehicle charging.
Its facilities make it possible to try out new electronic power configurations by associating different renewable energy sources and storage systems, and by connecting them to weak grids or direct current microgeneration systems, among other activities.
Its facilities are located in three different places: Micro-grid, located in the CIRCE building;…. -R+D+i privately financed contracted projects for the enhancement of the scientific and technical capabilities of CIRCE:
-R+D activities for processes, products and services to increase efficiency; Innovation for radical or substantial changes to production, processes, products and services.
Technological advice services: studies intended for the improvement of strategic planning in businesses and Administrative departments; design of experimental plants, technological demonstrations and pilot plants, measuring, social economic analysis, techno-economics or matters concerning legislation etc.
Standardized technical help and other laboratory services: testing, calibrating, analysis, detection.
-R+D+i projects in collaboration with public finance: R+D+i projects in collaboration with businesses and other organisations to obtain results that can be commercialized or that represent progress in the state of the art.
-Strategic alliances to improve collaboration with organisations by means of framework…. Yes. service.
Sectors
Technology
Fraunhofer Institute for High Frequency Physics and Radar Techniques (FHR)
Overview
Research for defense and security
Photorealistic aerial images, high-precision measurements of satellite orbits, a look beneath the Earth's surface, air surveillance through the utilization of TV and radio stations – just a few examples of the remarkable capabilities of radar. Due to its unique capabilities – independence from weather and daylight, long-range, high sensitivity to range rate changes and the generation of high resolution images – radar is now an indispensable tool for military and civilian applications.
The Fraunhofer Institute for High Frequency Physics and Radar Techniques FHR has focused on the fine-tuning of existing radar systems and the development of groundbreaking new radar technology for over 50 years and has therefore shaped the history of radar for more than half of the time that has passed since it was first patented by Christian Hülsmeyer in 1904.
The Institute
The Fraunhofer Institute for High Frequency Physics and Radar Techniques FHR develops concepts, methods and… State-of-the-art technology
With its space observation radar TIRA, comprehensive facilities for analog and digital printed circuit board technology, measurement capability into the terahertz range, several anechoic chambers, vehicles equipped with radar systems and an ultra-light aircraft for airborne radar surveillance the institute offers excellent possibilities not only for developing modern electromagnetic sensor systems, but also for training technical and scientific personnel.
More details you may find here: http://www.fhr.fraunhofer.de/en/the-institute/technical-equipment.html
. Business Units
Fraunhofer FHR supports its customers and partners through its ability to develop innovative products in six business units. The business units are continuously adapted in line with the respective market situation.
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Sectors
Technology
Austrian Centre of Industrial Biotechnology
Overview
The Austrian Centre of Industrial Biotechnology is a privately owned non-profit research centre specialized on bridging the gap between basic academic research and experimental industrial development. Although officially founded in 2010, its roots go back into the early 90s with predecessor organizations growing over time and merging with others. With approximately 200 of highly skilled and motivated employees and expertise from our currently 18 scientific partners acib offers a multi-disciplinary team of experts in the fields of biocatalysis, enzyme technology, protein engineering, (bio)polymers, metabolic modeling, bioprocess engineering, synthetic biology and cell engineering,... The main locations are in Austria (Vienna, Graz, Tulln, Linz, Innsbruck) with additional locations in Germany, Spain, Italy, Slovenia, Poland, Taiwan and New Zealand.
We provide research and innovation to SMEs in the field of (industrial) biotechnology, which includes various other sectors:
- Energy: Application of… We have state-of-the-art equipment owned by acib worth >8 million Euros (acquisition costs) and through framework contracts with our 18 scientific partners (universities and research institutions in Austria and beyond) access much more and provide these for R&D projects.
We have equipment in the field of
- bioreactors (for pro- and eukaryotes)
- protein purification (HPLC, UHPLC, ÄKTA, etc.)
- analysis (GC-MS, Caliper Bioanalyzer, Nano DSC, Zetasizer NanoZS, LUMiSizer, Real-time PCR, Raman Station, etc.)
- microscopes (light, inverted, fluorescence, yeast tetrad dissection, etc.)
- photometers, plate readers, microarrayscanners (different spectra, different systems)
- robots (pipett robots, picking robots, etc.)
- software licenses (3DM clients, CLC Genomic Workbench, Matlab, etc.)
- and many more within acib (and many many more accessible through our scientific partners)
- ...
Currently the www.acib.at homepage is being renewed and in the near future all equipment should be accessible through…. acib provides several different services to the Industry:
+ contract research in all areas (from R&D to production and analysis)
+ extensive literature studies and IP search
+ consulting for funded research
+ professional project management for (funded) projects
+ professional dissemination activities
+ organization of events and conferences
+ training courses (theoretical and 'hands-on')
+ partner search
+ looking for technologies
+ 'acib task force' => solving problems for companies at their place
+ flexible and tailored solutions for the industries needs
. Yes. service.
Sectors
Technology
Institute of Nanoscience of Aragon
Overview
The Institute of Nanoscience of Aragon (INA) is an interdisciplinary research institute located in the “Campus Río Ebro” at the University of Zaragoza (Spain).
INA is dedicated to R&D in nanoscience and nanotechnology. Its activities are based on manufacturing and processing micro and nanoscaled structures (10-6 m and 10-9 m respectively) and studying their applications, in collaboration with companies and technological institutes from different areas and countries.
INA has high-level experts of different disciplines: Physics, Chemistry, Engineering, Biochemistry and Medicine, which allows the Institute to perform a multidisciplinary research using all branches of knowledge to address nanoscience. Almost 140 researchers (67PhDs and 18 qualified technicians) work at INA. In addition, there is a Transfer and Promotion Office that supports the R&D activity. The goal of this office is to forge links between companies and the Institute.
Mission and Vision of INA
The mission of the Institute of… Located within INA is the Advanced Microscopy Laboratory, LMA.
LMA is a unique initiative at national and international levels aimed at providing the Industrial and Scientific communities with the most advanced infrastructures in Nanofabrication, Local Probe and Electron Microscopy for the observation, characterization, nanopatterning and handling of materials at atomic and molecular scale.
All LMA instruments and the expertise of the scientists and technical staff involved are offered to researchers from other public and private research centers and also to professionals from industrial sectors at national and international levels.
The available infrastructures at LMA are divided in the following areas:
Dual Beam, SEM, XPS, and XRD areas
Infrastructures:
Cryogenic Dual Beam Nova 200
Dual Beam Helios Nanolab 600 and 650
Environmental Scanning Electron Microscope SEM-Quanta FEG 250, ESEM
Field Emission Scanning Electron Microscope CSEM-FEG INSPECT 50
XRD: Bruker D8 Advance High…. INA-LMA offers its instruments and support to different industrial sectors. Some of the most representative industrial sectors for which LMA performs a variety of microscopic and analytical services are the followings:
Biotechnology, Biomedical and Pharmaceutical Industry
Characterization of functionalized nanoparticles.
Characterization of different types of biomaterials and biological samples.
Characterization of the plasmonic behavior for optical applications in biotechnology.
Contamination and particle identification. Particle sizing. Surface and interface analysis.
Chemical composition and structure of C/N/O based samples.
Shape memory alloys: brackets for dental and stents for medical applications.
Chemical Industry
Characterization of new materials.
Contaminant particle identification.
Characterization of nanopaints, adhesives and general coatings for a wide variety of industrial applications.
Characterization of thin films and surface…. Yes. service.