At Johnsen Ultravac (JUV), a Division of Johnsen Machine Company Limited we strive to build the highest quality, most reliable, vacuum equipment available anywhere. Our vacuum equipment delivers total value to our global customers in terms of payback, low maintenance, flexibility and durability.
If your materials research requires an ultra high vacuum chamber it may be of interest to know that our UHV chambers routinely operate in the 5 x 10E-11 Torr base pressure range.
If your research requires complex 6-axis XYZ manipulators or Linear translators JUV offers the widest range in UHV instrumentation. With optional electron beam heating and Helium cooled cryostats our modular sample holder arrangements are leading the industry in temperature range (10° K to 1,500° K), motion, accuracy and repeatability.
If Synchrotron Radiation Instrumentation is your interest the JUV SRI Product line for Light Sources includes Monochromators for X-ray Beam lines, Front-ends, Photon and Safety Shutters. Other SRI products include Collimators, Mask assemblies, Mirror chambers and Safety Shutters.
If your research is in Electro-photonic, Opto-electronics or Semi-conductor devices the JUV 6000 series combine the latest E-Beam Evaporation, ECR-CVD and ICP-CVD deposition technology.
If your research is in Materials Science, Nano Technology or Super Conductivity the JUV 6100 series combine the latest in RF-DC Sputtering, RF-ICP Plasma Spray and Pulsed LASER (PLD) deposition technology.
If you require products for testing of Satellite Instruments such as IR Sensors our products for the Aerospace Industry include Blackbodies, Bench coolers and Space Simulation Systems.
Also, with our staff of engineers with vacuum and cryogenic experience JUV leads the industry in CUSTOM design and manufacturing capabilities. Why not put the JUV team to work for you.
SANS is the leading manufacturer and supplier of static material testing instruments in China. Our machines are designed for use in Research and Quality Control to measure material’s strength and performance. With SANS equipment it is possible to study the properties of metals, polymers, textiles, rubbers, adhesives and finished components. SANS machines are capable of performing a full spectrum of material tests, including tension, shear, compression, flex/bend, puncture/burst, tear, peel, melt flow, Charpy and Izod impact, heat distortion temperature, Vicat penetration and torsion. All tests are designed and implemented by SANS in accordance with key international testing standards such as ISO, ASTM, EN and other equivalents.
Universal Testing Machine
Compression Testing Machine
Pendulum Impact Tester
Drop Weight Impact Tester
Rebar Bending Testing Machine
Ring Stiffness Testing Machine
Torsion Testing Machine
High Temperature Creep Testing Machine
HDT&VICAT Testing Machine
Melt Flow Indexer
Pipe Pressure Testing Machine
Specimen Preparation Machine
Setaram was formed during the middle of the last century because a steel company in France could not find commercially available instrumentation that was powerful enough to deliver thermal analysis data that was required for its materials research effort. That simple step more than 50 years ago is as key to our principles and product lines today as it was then to provide a technical solution, a characterization or even a single data point that other companies simply cannot deliver to the materials scientist.
If you look at our current product line it is full of instruments that can provide unique levels of precision, or examine materials under near impossible conditions so that you, the scientist can be inspired. This includes the PCTPro that allows for the precise determination of hydrogen storage in materials that will form the next generation of fuel cells, microcalorimetry that has inspired unique nutritional developments or high temperature TGA for travel into space.
Even more than its product line Setaram is the people who make up this company. We have assembled the best engineers and the brightest scientists in an effort to deliver not just the best instrumentation but the best service, and the best support anywhere.
When you make the decision to invest in a Setaram Instrument you can feel confident that everybody within the team stands behind this system and that we are fully committed to ensuring you have the best solution for your problem. This means we have a dedicated application laboratory that can help you develop the best methodology and train you to become the most skilled user you can be.
We dedicate ourselves to inspire the Imagination of the Materials Scientists, whether they are in food, in ceramics, in energy or even on the International Space Station.
Products & Solutions:
Couplings / Evolved Gas Analysis
Gas Humidity Generator
Specific Saturation Magnetization
Hielscher Ultrasonics specializes in the design and manufacturing of high power ultrasonic homogenizers for lab, bench-top and production level. Ultrasonic power is an effective and energy-efficient means to apply high shear and intense stress to liquids, powder/liquid mixtures and slurries. This makes it a strong alternative to high shear mixers, high pressure homogenizers and agitated bead mills.Hielscher ultrasonic devices are in use worldwide as laboratory mixers, high shear mixing equipment, full-size in-line homogenizers or particle mills. The applications span mixing, dispersing, particle size reduction, extraction and chemical reactions.
Hielscher ultrasonic devices are used in the synthesis of nanomaterials as well as in the formulation of compounds and composites containing nanomaterials. This includes the use of ultrasonics during precipitation and the deagglomeration of nano-size materials, like metal oxides or carbon nanotubes.
Ultrasound is used in the formulation of paints and coatings for: emulsification of polymers dispersing and fine milling of pigments size reduction of .
Ultrasonic cleaning is an environmentally friendly alternative for the cleaning of continuous materials, such as wire and cable, tape or tubes. The effect of the cavitation generated by the ultrasonic power removes lubrication residues like oil or grease, soaps, stearates or dust.
HTM Reetz GmbH has been a competent and customer-oriented manufacturer of laboratory furnaces and high temperature equipment for more than 20 years.
For temperatures from 0 °C to more than 2000 °C, our range of products and services comprises a variety of complex heating and furnace systems, including components for defined gas and vacuum atmospheres.
High temperature chemistry
Chemical transport reactions
Powder metallurgy and ceramics
Energy and environmental engineering
Tube furnaces up to 600 °C, 1150 °C, 1500 °C, 1750 °C
Rotary tube furnaces up to 1150 °C, 1500 °C
Split tube furnaces up to 1150 °C, 1500 °C, 1675 °C
Top hat chamber furnaces up to 1150 °C, 1500 °C, 1750 °C
Bottom loading elevator furnaces up to 1150 °C, 1500 °C, 1750 °C
Vacuum/protective gas and hydrogen furnaces up to 2300 °C
High pressure furnaces up to 1600 °C and 100 bar
Gas heaters up to 800 °C
Catalyst test furnaces up to 1000 °C
Glovebox furnaces up to 1150 °C, 1300 °C, 1750 °C, 2000 °C
Crystal growing furnaces up to 1150 °C, 1750 °C (Tammann-Stöber method)
SPECS Surface Nano Analysis GmbH as a leading manufacturer produces innovative components and customized systems for surface spectroscopy and microscopy.
The customized systems are highly integrated with facilities for sample and thin film preparation and in-situ analysis from UHV to high pressures. Main analysis components are the hemispherical energy analyzer family PHOIBOS, the time-of-flight spectrometer THEMIS, the ultimate stability Aarhus SPM family, the ultimate low temperature SPM family JT-SPM, the Tyto SPM head, the KolibriSensor, the in situ SPM Curlew and the high resolution LEEM/PEEM instrument.
SPECS GmbH headquarters are situated in the center of Germany’s capital Berlin with a subsidiary, SPECS Zurich GmbH, based in Zurich, Switzerland. SPECS forms a team of scientists and engineers with more than 150 employees engaged in the design and production of instruments for nanotechnology, material science and surface science in general.
For now over 25 years, know-how, experience, intensive contact to scientists from all over the world, customer orientation and reliable quality control have been the keys to SPECS success.
Aabspec’s products support ultra-high temperature spectroscopy (to 950 C for solids/450 C for fluids); low-temperature spectroscopy (to -170 C); high pressure spectroscopy (to 10,000psig); vacuum spectroscopy (to 10-8torr); transmission, specular and large angle reflectance; irradiation (UV, etc); Raman; GC-FTIR; TGA-FTIR; LC-FTIR; GPC-FTIR; direct-evolved gas analysis -FTIR; SFC-FTIR; variable temperature/variable pressure FTIR microscopy; dual-sample comparitive spectroscopy; Raman microscopy and special application products. The company’s products cover IR, near-IR, Far Infrared, VIS, and UV optical ranges.
Aabspec has available a computer addressable DVD showing its advanced products for spectroscopy and microscopy. In the DVD, Val Rossiter presents technical details on each product in the Aabspec range, describing structure, special features and applications. A conversational style provides easy one-to-one information of the sort normally obtained by attending an exhibition, but without the journey!
Topics include Raman Spectroscopy and Microscopy, FTIR interfacing for GC, LC, GPC, SFC, TGA, Evolved Gas Analysis, Low to High Temperature, Ultra-High Vacuum to High Pressure, Dual Sampling together with Multiple Optical Modes including Sample Irradiation.
Applications include Thermal Analysis, Environment, Hazardous Samples, High Temperature & High Pressure Reaction Monitoring, Materials Testing, Catalysts, Pharmaceuticals, Polymers.
Twente Solid State Technology (TSST) was founded in 1998 as a spin-off company from the University of Twente, and offers high quality thin film solutions. As a result TSST products can now be found around the world.
TSST wants to contribute to the progress in the worldwide scientific community of advanced thin film materials by providing state-of-the-art deposition equipment, with focus on pulsed laser deposition, and developing and sharing relevant expertise
The company is specialised in design and production of customised thin film deposition equipment, specifically Pulsed Laser Deposition equipment for advanced studies. An example is the use of Reflection High Energy Electron Diffraction (RHEED) under high-pressure conditions, which gives real-time information about the surface morphology during depositions.
Every system can be controlled through a central console, giving full control of all parameters involved. This allows the rapid replication of settings and depositions, which results a higher reliability in less time.
Apart from the equipment, the company also produces ceramic thin films, and offers services for research in the field of ceramic thin films, such as the surface treatment of ceramic substrates. TSST is able to provide these services due to the strong cooperation with the MESA+ institute at the University of Twente.
CVT is a world leading specialist designer and manufacturer of UHV cryogenic, vacuum, and pressure vessels, and of precision mechanisms for research.
CVT provides design and manufacturing expertise for assemblies and components for scientific instrument manufacturers.
CVT has extensive expertise in using high specification materials, such as stainless steel and high nickel alloys (Mu-Metal, Inconel) to ensure your ideas and designs are turned into high performance reality.
Widely skilled and experienced engineering design and production team for optimising your manufactured requirements.
High Energy Physics (HEP) and OEM surface science system manufacturers
Scientific instrument manufacturers
Government research institutes, worldwide
Henniker Scientific supplies instruments, systems and technologies in the complimentary areas of;
Thin Film Deposition
UHV Surface Analysis
Plasma Surface Modification
We have more than 20 years of first hand technical and business experience with these technologies and markets throughout Europe, North America and Asia.
Our offices are located in the North West of the UK, just minutes from the M6/M62 interchange with Manchester and Liverpool International airports approximately 20 minutes in either direction.
Vacuum, Thin Film Deposition & UHV Surface Analysis:
Vacuum components, instruments and complete custom made solutions for general vacuum applications, vacuum based atomic & molecular physics and chemistry, thin film growth and UHV surface analysis.
Residual Gas Analysers:
Residual gas analysers. The lowest cost and highest specification residual gas analysers currently on the market. The range includes web-enabled residual gas analysers, analytical double and triple filter quadrupole mass spectrometers, and both high pressure and differentially pumped process residual gas analysers. Standard mass range options are 100, 200 and 300amu. Analytical range options include high resolution 1-6amu for e.g. He/D2 discrimination.
Residual Gas Analysers for Vacuum Processing:
Process Residual Gas Analysers are innovative in-situ process monitoring instruments that are fully integrated and field proven application-specific packages. The range includes the latest smart head technology delivering real-time on line analysis for vacuum diagnostics and process control in etching, thin film deposition (PVD and CVD) and plasma modification processes.
Plasma Cleaning & Plasma Treatment:
Plasma treatment equipment is used to modify the surfaces of materials such as polymers, textiles, ceramics and metals. The modification takes just minutes, is environmentally friendly and does not effect the bulk material properties in any other way. Different treatments are available to produce surface properties that are either ultra-clean, highly activated (to increase bonding properties), completely liquid-repellant or totally wettable.
Benchtop Gas Analysis:
Our range of benchtop gas analysis systems comprise purpose built mass spectrometers with application specific inlets and interfaces for on-line monitoring and analysis of gases, gas mixtures, vapours and dissolved gases in liquids. They are ideal for R&D, process monitoring and control in catalysis studies, thermogravimetric analyis (TGA coupling), membrane studies, fermentation process monitoring and thermal analysis etc.
Gas compositions can be measured over a wide dynamic range (ppt to 100%) with a wide range of sampling inlets to suit every application requirement. Versions are available with single inlet, 4, 8 or 16 way inlet.
Quadrupole mass spectrometers & quadrupole mass spectrometer components. Exceptionally high performance instruments, components and systems for basic research in chemistry, physics and materials analysis.
high power, high resolution, high mass (up to 16,000 amu) triple-filter analysers
analogue and pulse ion counting
ion optics elements
combined energy filters
application specific ionizers (API/CI/EI/Membrane/Combined)
components, instruments and complete systems (for TPD/SIMS/Plasma/Molecular Beam/ MS/MS)
power supplies, quadrupole, octupole & hexapole ion guides and einzel lenses