IMNR, established over 50 years ago, is a national R&D institute active in the field of materials science and engineering based on non-ferrous and rare metals (alloys, composites, hybrids) and applied inorganic chemistry, aiming to further research for the efficient use of resources and critical materials substitution, and develop high-tech applications in sensors, security, energy, automotive, aerospace, medicine, waste management, etc.

The institute’s main research directions include: technologies for advanced metal-based materials and their compounds; new chemical processes for processing primary and secondary resources (solubilization in autoclaves in controlled atmosphere, microwave processing); mild chemical methods for the synthesis of advanced nanomaterials (oxides, composites, hybrids): hydrothermal / solvothermal at high pressures, spray drying, encapsulation and core-shell materials; new technologies for capitalizing advanced materials (coatings and thin films by EB-PVD, and thermal evaporation… Pilot installations, developed and built in-house:

Pilot installation for functional testing of phase change materials for thermal energy storage: allows the pilot scale measurement of the storage and heat transfer capacity of inorganic phase change materials with working temperatures in the range of 300-500⁰C;
Prototype plant for smelting non-ferrous metal waste and treating gases / noxious substances in a microwave field (5L crucible; max. temp. 1,400⁰C).

HIGH PT-MET Center (Research Centre for the Intensification of Metallurgical Processes at High Pressures and Temperatures) - main equipment:

Electron beam installation (TORR Int. Inc., USA): allows deposition on rotating 3D plates or rods with a length of max. 350 mm; simultaneous or multilayer deposition of thin films; heating substrates during deposition; (W, Ni, Co, Cr, Al, Y), dielectric materials (Al2O3, SiO2, ZrO2, etc.) and compounds;
Thermal evaporation deposition installation (TORR THE5-750W, Torr Int. Inc., USA), inox,…. Small-scale alloy manufacturing and processing services

alloy manufacturing: brazing alloys (Ag, Cu-P-Ag), soldering alloys (Sn-Pb, Sn-Pb-Sb, Sn-Sb), master alloys Cu-P, easily fusible alloys (AF50, AF70, AF90), antifriction alloys (based on Sn, Pb and Al), cast alloys (Cu-Sn and Cu-Sn-Pb), other alloys (Cu-Al, Cu-Zn, Pb-St, Zn, etc.);
alloy processing: wire / strip / bar / chip / electrode / plate / block alloy processing, Au, Ag, Zn, Al, etc. processing.

Analysis / characterization services

1. Chemical composition:

element detection: Cu, Co, Cd, Pb, Sb, Zn, Ni, Fe, Cr, Mg, Ca, Na, K, Rb, Li, Sr, Ga, In, Au, Ag, Pt, Pd, Rh by flame atomic absorption spectroscopy (FAAS);
detection of approx. 70 chemical elements (in high, low and trace concentrations) by inductively coupled plasma - optical emission spectrometry (ICP-OES);
volumetric and gravimetric chemical analysis: dosing Fe, Fe2+, Ca, Mn, Sn, Si, Ba, SO42-, CO2 etc.

2. Physical and Structural Characterization:

…. Yes. service.

NaMLab was founded in 2006 as a public-private partnership between Qimonda AG and TU Dresden. In the first year, NaMLab started as a research organization with 10 employees focused on dielectric material research for future memory devices. The company steadily expanded and today, NaMLab serves a growing list of worldwide partners. NaMLab’s research is contributing to the main challenges for our future society concerning climate change, digitalization, and mobility by placing sustainable, secure, and intelligent electronic solutions into the core focus. Those solutions can be divided into three main activities:

Dielectrics for Semiconductor Devices,
Reconfigurable Device and,
Energy Efficiency Devices

NaMLab’s research in the field of dielectrics is focused on flourite-structure ferroelectric materials, such as hafnium oxide, and their application in capacitors. Here the main focus is on the understanding of how to control ferroelectricity in hafnium oxide, as well as the degradation… The NaMLab gGmbH is located in a vibration-cushioned building with both lab space and office areas. The lab space comprises a 330 m² of clean room with at least class 6, a 50 m² yellow lighted area with at least class 5, and 4 labs with 25 m² each.

Major equipment for process technology:

2 Atomic Layer Deposition (ALD) systems for oxide and nitride material deposition
1 CVD/RIE Cluster Tool with overall 24 different process gases
1 Inductive Coupled Plasma (ICP) Reactive Ion Etching Tool
5 Physical Vapor Deposition (PVD) Tools (1 UHV Sputter Cluster; 1 HV Sputter Cluster, 2 Small Scale Sputter Tools; 1 Evaporator)
5 different anneal ovens; including rapid thermal processing (RTP) for different temperature ranges and materials
1 Molecular Beam Epitaxy (MBE) / Molecular Beam Deposition (MBD) cluster tool for ultra-pure GaN materials
1 Hydrid Vapour Phase Epitaxy (HVPE) for bulk GaN growth
1 MOCVD Tool for GaN layer growth
1 Laser Cutter for sample preparation
1 Laser Lithography…. NaMLab develops materials for future electronic devices. We run industrial as well as basic research projects and provide services in the areas of sample preparation, electrical and physical characterization. Sample fabrication ranges from small scale (typically 4x4 cm or below) up to 150 mm wafers. Physical characterization is typically carried out on small scale samples. Electrical characterization is done by direct probing on wafer level using single probes, probe cards or special RF-probes. Package level testing can be performed for long-term reliability characterization or the adoption of our devices in test-circuits.

 Typical services comprise, but are not limited to:

Laser cutting of wafers
Deposition of thin films or stacks of thin films
Processing of capacitor structures
Processing of test structures for GaN wafer characterization
Physical characterization, electrical or optical characterization by any of the methods described below

The established electrical characterization…. Yes. service.

The Thuringian Institute for Textile and Plastics Research Rudolstadt e.V. (TITK) is one of the leading private material research institutes in the field of polymer functional and construction materials. As an industry-oriented institution with a modern technology park, TITK develops innovative starting materials or complete manufacturing processes for automotive components, packaging materials, bio- and medical technology, energy technology, micro- and nanotechnology, and lifestyle products. The TITK Group, with a total of 210 employees, includes two subsidiaries in addition to the institute. The smartpolymer GmbH markets and produces developments of the TITK. Testing services for textiles, fiber composite materials and plastics are realized by OMPG mbH (accredited testing laboratory according to DIN EN ISO / IEC 17025).
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Consulting and training
Contract research
Manufacture of custom products
Testing services
Patent search and application
Expert reports and statements
Support for start-ups

. Yes. service.

At MaPS (Manufacturing Processes and Systems) in KU Leuven a wide range of innovative manufacturing processes and systems (see below) are investigated in close collaboration with both local and global industry.  State-of-the-art labs, decades of experience with fundamental and applied research, including licensing and spin-off creation, in-depth knowledge of the material-tool interactions and collaborations across different disciplines make KU Leuven the ideal partner for helping your company or your consortium to find solutions to manufacturing related problems requiring a fundamental approach or to bring innovative manufacturing ideas one step closer to the market. The technologies and techniques that are studied are:

Additive manufacturing (AM, also called 3D Printing): both powder and laser-based AM of polymers, metals and ceramics and nozzle-based AM including Wire Arc AM (WAAM) and welding
Subtractive and hybrid manufacturing: vibration- or laser-assisted assisted milling, grinding, turing,…
State-of-the-art AM lab: commercial and in-house developed AM machines for metals, polymers and ceramics (https://set.kuleuven.be/am/equipment)
State-of-the-art metrology lab (https://www.mech.kuleuven.be/en/research/mm/services)
State-of-the-art sheet metal working lab (https://www.mech.kuleuven.be/en/research/flex-sheet-metal-working/equip…)
State-of-the-art machining lab: milling, turning, EDM and hybrid machines (https://www.mech.kuleuven.be/en/research/Machining/Equipment)
State-of-the-art micro/nano machining lab with precision machines for EDM, milling and turning and ultra-short pulsed laser micromachining (available by end of June 2021):   https://www.mech.kuleuven.be/en/research/mpe/Equipment

. MaPS offers European companies collaborations in the framework of ESA, H2020 or Horizon Europe and small service agreements or bilateral research collaborations in its field of expertise (see above).

More details on specific services can be found here:

For manufacturing metrology:https://www.mech.kuleuven.be/en/research/mm/services (a climatised metrology lab (https://www.flandersmake.be/en/testing-validation/product-validation/di…) and an X-ray Computed Tomography lab (https://www.flandersmake.be/en/testing-validation/product-validation/x-… )
For additive manufacturing: https://www.flandersmake.be/en/testing-validation/production-optimisati…
For welding:https://iiw.kuleuven.be/onderzoek/welding-engineering/consulting-and-se…

For all this: one single point of contact to help you find the right KU Leuven partner(s) for your specific advanced manufacturing questions and needs
. Yes. service.

The Czech Technical University in Prague (CTU) (www.cvut.cz) was founded in 1707 and is one of the oldest technical universities in Europe and currently the major technical university in the Czech Republic. Offering high quality education and a long tradition of cutting-edge science and engineering, CTU counts approx. 1.7K members of academic staff, 18.5K students, 8 faculties, and 5 institutes.

The Czech Institute of Informatics, Robotics, and Cybernetics (CIIRC CTU) (www.ciirc.cvut.cz) was founded in 2013 and is the youngest CTU’s institutes, starting its full operation in newly built facility just in 2017. The CIIRC CTU’s research focuses on four basic pillars: industry, energy, smart cities, and healthy society, all implemented in basic and applied research. Currently, the institute has nearly 300 employees working in 8 research departments complemented by four specialized centers such as Testbed for Industry 4.0 and RICAIP Centre - Research and Innovation Centre on Advanced Industrial Production (www… The Testbed for Industry 4.0 at CIIRC CTU as an integral part of the European Centre of Excellence RICAIP (Research and Innovation Centre on Advanced Industrial Production) as a research and experimental workplace is the core asset for the exploitation of results of multiple research projects. The main objective of RICAIP is to build a unique research facility for the development and testing of innovative solutions for advanced and fully integrated industrial production and processes for smart factories.

The basis of Testbed is a flexible production line for concurrent production of several product types in a series of variants. It combines different technologies as additive manufacturing, machining, robotic manipulation, intelligent conveyor systems, human-robot cooperation, automated warehousing and others. Thanks to the flexible interconnection of universal production tools and a sophisticated control system, the same resources can be used to execute different operations, which are scheduled optimally…. The Testbed for Industry 4.0, the research, experiment, and demonstration facility, is based on the state-of-the-art technology with a further future outlook and development. It is well suited for prototyping, process improvement, product development and testing in order to research new concepts and methods that would improve the manufacturing processes, optimize the manufacturing etc. The other CIIRC joint labs (or projects) with different firms can be also used under research or business conditions – e.g. Eaton, Factorio Solutions, AVRAR (Association of Virtual and Augmented Reality), Siemens, IBM, HP, Rockwell Automation, Schneider, ABB, or CP Factory lab by Festo. The 3D printers are also available.

Our technology centre offers the following services:

Awareness creation around digital technologies
Innovation Scouting
Digital Maturity Assessment
Visioning and Strategy Development for Businesses
Brokering/Matchmaking and Ecosystem building
Access to Specialist Expertise and…. Yes. service.

The Bielefeld Institute for Applied Materials Research (BIfAM) was founded in 2013 as one of the first research institutes of the Bielefeld University of Applied Sciences. The expertise of the participating scientists comprises physics, chemistry, biology, biotechnology, informatics, mechanical engineering, process engineering, and electrical engineering. Research interests cover aspects of measurement technology, functional layers, energy transfer, sensor technology, material analytics, destructive and non-destructive materials testing, field emission scanning electron microscopy, additive manufacturing, formulations, and computer based modelling and simulation.

The scientific-technical work within BIfAM comprises both research and development in order to face the great societal challenges with innovative approaches – from fundamental research on novel materials, via material and technology development towards product and process development. Interdisciplinary research teams develop creative solutions in… Computational Science Lab

Laboratory for materials testing

Laboratory for applied microelectronics and microsystems technology

Laboratory for plastics analytics

Laboratory for plastics engineering

Laboratory for laser technology and optoelectronics

Laboratory for thermal energy and energy efficiency

Acoustics laboratory

Laboratory for process engineering

Laboratory for microbiology, chemical synthesis and analytics

Solar Computing Lab, Laboratory for photovoltaics

Experimentation Hall
. Simulation based optimization

Multi physics and multi scale modeling and simulation

Consulting / training FEM simulations

Thermal and energy efficient systems

Magnetic field design and analysis

Electrical engineering

Inductive energy transfer

Applied formulations

Custom-designed material aspects

Synthesis

Analytics

Thin film technology

CVD / PVD coatings

Surface analytics

Photovoltaics

Microelectronics

Microsystems technology

SMD technology

Sensor systems

Lightweight construction materials

Compound materials

Destructive and non-destructive materials testing

Failure detection and analysis

Scanning electron microscopy

Materials characterization

Plastics engineering and analytics

Materials development

Molecular materials

Vacuum casting technology

Additive Manufacturing

Extrusion and casting
. Yes. service.

Tecnopolo Mario Veronesi (TPM) is a research laboratory 
Thanks to specific skills of an excellent researchers team and the use of latest and most advanced equipment and technologies, it is a place where companies and scientific expertise meet together, to create, solve and accelerate production opportunities specifically tailored to the needs of the customer.
Mainly involved in the biomedical sector, we also offer consultancy for the cosmetic and agri-food sectors.

TPM is composed by 5 laboratories/different specializations:

1) Toxicology and proteomics lab (TOP) has recognized and consolidated experience in the following macro-activities that are delivered accordingly to the international sector regulations and through advanced methodologies. Furthermore, the TOP laboratory supports in study protocols elaboration and identifies the best in vitro and in vivo analysis approach to evaluate the materials activity.

2)  Chemical lab (POS) combine the scientific research need  in new materials field… TOP LAB:

Toxicology
High performance liquid chromatography – High resolution mass spectrometry
High performance liquid chromatography – UV spectroscopy
Gas atmospheric pressure chromatography – High resolution mass spectrometry
Climate chamber for aging tests

Proteomics
Separation system offgel
Separation system for single- and two-dimensional electrophoresis
Image acquisition and processing systems
Flow cytometer

POS LAB:

The laboratory is equipped with both useful equipment in the field of polymer synthesis and instrumentation for chemical characterization. Among these we can mention the UV-VIS and IR spectrometer.

In addition to the most classic instruments, there are also innovative instrumental techniques such as electrospray.

Specifically, electrospray is a technique that allows to produce nano- and micro-polymer structures (range 100-10’000 nm) with a high repeatability. Moreover, thanks to the co-axial configuration, it is possible to generate “multi-layered” particles and…. - Accelerated R&D system

- Intelligent Life Service

- Training and education

- Funding

 
. Yes. service.

Mission

We strive to be one of the leading institutes in Additive Manufacturing. To achieve this, we drive cutting edge technology and innovation in Additive Manufacturing. Therefore, we want to collaborate along the entire value chain, combining our know-how in design, technology, supply chain, costs etc. to enable and provide new solutions along the whole value chain. We combine basic and applied research to produce novel insights and to open doors for new possibilities enriching our partners’ business. We are strongly committed to academic and industrial education with the goal to train the engineers of the future.

Stakeholder Value Proposition

We are part of an interdisciplinary network - realizing collaboration of academic research with around 25 companies all along the whole value chain. Various stakeholders expect us to create value according their respective needs and requirements; we want to harmonize the value creation in our strategic acting.

With regard to the technology itself, we… Selective Laser Sintering (Polymer Powder Bed Fusion)

EOS P395, EOS P396, EOS P395 experimental machine with small build volume and high temperature option

Selective Laser Melting (Metal Powder Bed Fusion)

SLM 250HL, SLM 280HL, SLM 280 1.0, SLM 280 2.0

Fused Deposition Modeling (Polymer Fused Filament Fabrication)

Stratasys Fortus 400mc, Evozier, Gewo System. Aarburg freeformer

Multiple Characterization Techniques

e.g. 3D Macroscope, Scanning Electron Microscope, 3D scanning units, coordinate measuring machine, universal and dynamic testing machines, DSC, rheometer, particle size analysis, powder flow measurement etc.
. Being part of a network often provides benefits and possibilities that cannot be obtained individually. Therefore – besides fundamental and applied research – the DMRC provides an excellent network of stakeholders along the complete value chain of additive manufacturing. This network allows our industry partners to benefit from both the commonly researched knowledge and the collaboration within the DMRC stakeholder network. Performing pre-competitive research, being preferred partner in publicly funded projects or exchanging knowledge about cutting-edge research findings are just a few points our partners benefit from.

We also provide consulting about Additive Manufacturing and Training of staff.
. Yes. service.

RISE is Sweden’s research institute and innovation partner. Through our international collaboration programmes with industry, academia and the public sector, we ensure the competitiveness of the Swedish business community on an international level and contribute to a sustainable society. Our 2,800 employees engage in and support all types of innovation processes. RISE is an independent, State-owned research institute, which offers unique expertise and over 100 testbeds and demonstration environments for future-proof technologies, products and services.

RISE Smart Hardware is a department focused on electronics, optics and communication technologies. As one of Europe’s top research institutes, we provide cutting edge resources and knowledge within electronics, optics and communication technologies. We have the facilities and lab resources to offer advanced R&D as well as small scale production and prototyping. Our mission is to find new ICT-solutions for existing and future demands, creating sustainable… The test environment is open to all types of associations, organisations and companies who wish to test Printed Electronics in their products or processes. You will be able to work on your own in a laboratory, or in consultation with knowledgeable researchers and operators who work in the test environment. You will be granted access to competencies and skills within graphic design, physics, chemistry, machine operation and project management.

RISE, who oversees PEA Manufacturing, has transferred complete manufacturing processes to the test environment, which provides a wide range of equipment and materials. Examples of equipment available include flat screen printers, UV-, IR- and hot air dryers, dry phase patterning equipment, inkjet printers, roll-to-roll label printing press for screen and flexo, lamination equipment, and a fully-equipped analysis lab.
. 1.Full service from RISE. (Product owners)
2. Pilot line equipment (under supervision from PEA-M staff) to test pilot production.
3. Learning platform (license the technology)
4. Rent the equipment for production (mainly startups)
. Yes. service.

The CTTM is a Technology Transfer office.

In order to support our customers in their production activity, we offer a set of analysis and characterization services in our laboratories equipped with qualified testing facilities.

Technological dissemination and training are implemented in order to provide our partners with a high level of skills.

All of our activities have been ISO 9001 certified for nearly 20 years and CRT qualified by the Ministry of Research.

The CTTM is therefore a private center providing R&D and Characterisation with 41 employees and a varied expertise in 4 disciplinary fields.

Acoustics & Vibrations,
Materials,
Design Engineering,
Biological and Medical Engineering.

This development strategy is the same for our 4 technological Units. Thus, one of our major differentiating elements lies in our immediate ability to position ourselves in multidisciplinary operations.

CTTM's NETWORK : EMC2, POLYMERIS, ID4CAR, University of Akron, SIA, Le Mans university,… Equipments in our 4 Units:

Materials : This unit provides mechanical, physico analysis equipement in order to investigate polymers, elastomers, vegetal materials.

Thermal Analysis:

Differential Scanning Calorimeter (DSC)
Thermogravimetric Analyser (TGA)

Chromatography:

High Performance Liquid Chromatograph with Time-Of-Flight Mass Spectrometry (HPLC-TOF-MS)
Gaz Chromatograph with Mass Spectometer and headspace (HS-GC-MS) or pyrolyzer  (pyro-GC-MS)
Steric Exclusion Chromatograph/Gel Permeation Chromatography  (SEC/GPC)

Spectrometry and chemical analysis:

Fourier Transfom Infrared Spectrometer (FTIR)
IR Microscope
UV-Visible spectrometer
RAMAN spectrometer
X-Ray Fluorescence (XRF)
X-Ray Diffraction (XRD)
Liquid and Solid Nuclear Magnetic Resonance (NMR)
Atomic Emission Spectrometer (MP-AES)

Mechanical and thermo-mechanical analysis:

Dynamichal Mechanical Analyser (DMA)
Dynamometers  for tensile, compression, bending, peel testing and friction…. In order to support our customers in their production activity, we offer a set of analysis and characterization services in our laboratories equipped with qualified testing facilities.

Our services :

Training
Material investigation and qualification
Material and systems performances and improvement
Quality Control
R&D
Innovation
Technology transfer
Access to high level equipments
Exchange with skilled experts

FIND OUT MORE:

LinkedIn : https://fr.linkedin.com/company/cttm-centre-de-transfert-de-technologie…
. Yes. service.