Advanced Abrasives provides a broad product portfolio that includes superabrasives, conventional abrasives and related product categories. From our superabrasive category we provide wet and dry diamond powders, compounds and slurries as well as cubic boron nitride powders slurries and compounds. These superabrasives are micronized and processed using a variety of methods including our proprietary “Mesh to Micron” process to satisfy a diverse range of applications worldwide.
We have a long standing commitment to quality and excellence in the high vacuum industry. Started in 1967 the company is a leader in manufacture of high vacuum equipment for thin film coating and etching.
Intlvac Thin Film’s primary goal is to deliver value-added solutions that exceed the expectations of simple PVD and Ion Beam Sputter/Etch machine manufacturing and installation.
We started exporting our systems around the world in 2001, and now have equipment installed across the US, and in Canada, Malaysia, Singapore, Australia, and Israel.
Research and development play a major role in our technology’s edge in the market. Our in-house development lab designs, engineers and manufactures machinery used for Physical Vapor Deposition and ion beam etching. We specialize in engineering solutions for a variety of specific results and outcomes using this process. We provide our customers with machinery needed for creating coatings including ion source and all parts needed to make it function. Additionally, we manufacture high quality PVD coatings using techniques such as Ion Assisted Thermal and Electron Beam Evaporation, Reactive and non-reactive magnetron sputtering. Diamond Like Carbon by Plasma Enhanced Vapor Deposition.
Intlvac Thin Film has become an authority for Ion Beam Etch/Sputter systems and reactive sputter systems for precision optical coatings.
Products & Services:
Thin Film Deposition Systems
Ion Beam Etch & Ion Beam Sputter Systems
Diamond-Like Carbon Systems
Optical Fiber Metalization
Thermal Vacuum & Space Simulation Systems
ColdEdge Technologies provides custom <4K to 1000K closed cycle cryostats with interfaces. We provide GM & Pulse Tube technologies from SHI Cryogenics of America, Displex®, CTI Cryodyne, CryoMech and other popular closed cycle coolers.
We also supply open cycle flow cryostats that use liquid helium or LN2 as the cooling source. Without the pressure of having to sell our own cryocooler brand, Coldedge can work with the researcher to arrive at the best cryocooler solution for the researchers particular requirements and interface needs.
We supply complete systems with application specific and/or custom vacuum enclosures, radiation shields, sample holders, windows, temperature sensors, heaters, extra experimental wire leads and feed-throughs (UHV, SMA, coax & other), temperature controllers, vacuum pump systems, sample manipulation attachments, low vibration CCR interfaces and many other additional options.
Interfaces with sample in vapor, sample in vacuum, UHV and custom interfaces are available.
Materials Research Applications
Electrical Experiments (Hall)
Further Applications include
Diamond Anvil Cell
MTI Corporation, founded in 1994 by a group of material researchers from MIT and UC Berkeley, has now become the leading manufacturer of oxide crystals and substrates and lab equipment for material research. MTI Corporation formed KJ Group and currently operates multiple production factories in China. This allows for the possibility of providing high quality and low-cost precision machines for material research and R&D Labs, including: low speed cutting saw, wire diamond saw, auto polishing machine, high-temperature oven, tube furnace, X-Ray crystal orientation machine, and Mini XRD, as well as complete set of equipment for research of rechargeable battery materials. Simple to operate, low cost and commitment to our customers is our priority. MTI strives to become the world’s leader in bench-top machines for a material lab.
MTI Corporation’s secured online store provides one-stop shopping convenience for our customers with transparent price, so you can enjoy shopping directly online with 100% confidence and save time. MTI ship products worldwide with the majority of the customer base from Universities, National Laboratories, and R&D group of companies. Again, thank you for visiting our website and supporting our business. If you have any questions, please contact us at email@example.com
Welcome to the Well Diamond Wire Saw Web Site. We are convinced we offer a wide range of cutting machines that are without equal in the world and we invite you to explore our company’s capabilities. Until such time that we can post specific product information we respectfully request that you contact us.
Well Diamond Wire Saws developed a cutting technology nearly 50 years ago that has helped over 1200 customers worldwide achieve the results they seek. Founded in Switzerland, we currently have manufacturing facilities and support offices in two European locations and one in Norcross, Georgia, USA.
Well Precision Diamond Wire Saws produce smooth, sharp-edged surfaces on virtually any material. The “cutting tool” employed is a stainless steel wire with diamonds embedded into the surface of the wire. This patented embedding process ensures maximum cutting capability and long wire life. The wire is wound onto a drum which mounts onto a precision reciprocating motor. Depending on the size of the saw the wire ranges from 10 meters up to 68 meters. The wire diameters range from 0.06mm (0.002 in.) to 0.70mm (.028 in.).
All Well saws use gravity and/or weights as the method for achieving and maintaining consistent feed rates. Also, all saws have a continuously variable wire speed adjustment. Absolutely no cutting fluid is required however we do recommend that our cleansing fluid be used to remove any loose particles from the diamond grit.
Well Diamond Wire Saws impose minimal force on samples. Very little heat is generated, and that which does occur is transferred by the wire to the drum that houses the wire.
Our IOPLAS-IITM ion-assisted deposition processes give us the flexibility to apply coatings at low temperatures for plastic fibers and other delicate substrates. We can also generate coatings with greater packing densities to handle very high laser damage thresholds. To add to these capabilities, Cascade Optical has also developed manufacturing processes to apply our coatings to; plastics, polymers, semi-conductors, lenses, mirrors, crystals, metals (even diamond-turned surfaces), and ceramics.
We offer quality products with high yields to lower our production costs. Additionally, we offer very short lead times: typically one to two weeks. Our engineering department can provide you with our design-for-manufacture expertise. In most cases we can get you on the right track in just one or two phone calls.
We do a good deal of innovative coating development to support our relationships with the research community of National Labs, Universities, and NASA related organizations.
Our IOPLAS-IITM ion-assisted deposition processes give us the flexibility to apply coatings at low
AXIOM ANALYTICAL, INC. is a leading supplier of sampling accessories, software, and custom systems for all forms of optical spectroscopy. Whether your applications are in the laboratory or on the process line you’ll find that Axiom’s accessories and systems will accommodate your samples (even strong acids and bases), and operating conditions ranging from cryogenic to >500 deg. C, and vacuum to >700 bar.
Axiom provides a broad line of laboratory sampling equipment for the analysis of liquids, gases, powders, and slurries. Many of the company’s products, such as its diamond ATR probes, incorporate unique designs which provide important performance advantages.
Applied Sciences, Inc. (ASI) is a small corporation located in Cedarville, Ohio. ASI specializes in the research and development of advanced materials and their applications. ASI is one of the leaders in the development of materials possessing exceptionally high thermal conductivity. Materials currently under development include vapor-grown carbon fibers, diamond thin films, and composites derived there from. In addition to superior thermal performance, these materials possess various other desirable properties, including low cost. In 1995, ASI obtained funding for accelerated development of its Pyrograf® carbon fiber under the Department of Commerce’s Advanced Technology Program (ATP)
Applied Sciences also performs contract research for a wide variety of industrial clients. Contract research at Applied Sciences ranges from dispersion preparation and analysis, development of custom thermoplastic compounds, advanced composite materials, CVD coatings, vapor phase and liquid phase chemical functionalization of carbonaceous materials, as well as synthetic diamond coatings and composites with synthetic diamond.
ASI has also supported research programs of its clients by contributing its expertise in materials development and analyses through subcontracts.
EMFUTUR is a high quality Nanomaterials supplier providing the highest quality supplies for these future developments. We offer nanoparticles, nanopowders, micron powders, and CNTs (carbon nanotubes) in small quantity for researchers and in bulk order for industry groups.
EMFUTUR product quality emphases the significance of purest Nanomaterials with uniform composition free of impurities for advanced research and production purposes.
Carbon Allotropes (Carbon nanotubes, Diamond nanoparticles, Fullerenes, Graphene), Nanowires, Quantum dots, Nanoparticles & Nanopowders, Nano-micro salts.
Micro and Nano electronics, Sensors and Actuators, Energy (storage and productions), Optical devices, Biomedical and Bionic, Drug delivery, Tissue Engineering Composite Materials, Abrasives, Catalysis and Photocatalysis, Magnetic Materials, Electromagnetic Shielding, Conductive Paints, Photonic Materials, Plasmonics.
The NanoWorld Research and Development team works continuously to meet your future requirements.
We put great emphasis on continuously developing and further improving our well-established products like the Pointprobe® series.
The AFM probes of the Pointprobe series are the most widely used and best known AFM probes worldwide. The product series comprises scanning probes for the widest range of applications.
The Pointprobe AFM probes are available with different coatings like Platinum-Iridium (PtIr5), Magnetic, Diamond or Gold. Additionally we offer special tip versions like our SuperSharpSilicon for high resolution imaging or High Aspect Ratio Tips for deep trench measurements.
Our Arrow series features standard AFM tips for contact, non-contact and force modulation mode that have a tetrahedral tip. The unique Arrow shape of the cantilever allows easy positioning of the tip on the area of interest. Furthermore the Arrow series also includes a range of tipless cantilevers and cantilever arrays.
The Ultra-Short Cantilevers series combines very small cantilevers capable of resonating in the MHz regime and a very sharp and wear resistant tip and is dedicated to High-Speed AFM (HS-AFM). The Ultra-Short Cantilevers series consists of six different types of probes which cover the complete range of high speed scanning applications, from non-contact mode to contact mode, from measurements in air to measurements in liquid
The Pyrex-Nitride series combines silicon nitride cantilevers and tips with the proven glass chip concept. The Pyrex-Nitride series has been designed for a great variety of imaging techniques like in air and liquid. Three different types of Pyrex-Nitride Probes are currently available: AFM probes with rectangular cantilevers, AFM probes with triangular cantilevers and AFM probes with tipless triangular cantilevers.
Special AFM Probes can be designed and manufactured upon customer’s request.