Showing results: 61 - 72 of 72 items found.
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Agilent Technologies
Agilent’s best-in-class portfolio of molecular spectroscopy instruments have grown in breadth as well as capabilities. With leading innovations like the Cary 3500 UV-Vis and laser direct infrared (LDIR) chemical imaging, through to the 4300 handheld FTIR and our proprietary spatially offset and transmission Raman technologies, our spectroscopy systems are more qualified than ever to equip you with the right solution for your specific challenge.
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Maintenance Reliability Group, LLC
Root Cause Analysis of Grease Lubricated Components: Root cause analysis includes a complete root-cause failure report and recommendations for further monitoring and corrective actions. MRG will test for grease consistency, oxidation, product contamination and wear metals utilizing Grease Thief® Analyzer die extrusion test, FTIR, RULER and RDE Spectroscopy. Testing includes Analytical Ferrography and Rheometer testing. Testing can include the submission of a failed component for extraction of grease from failed component and visual inspection for Root Cause Analysis.Root Cause Analysis of Grease Lubricated Components: Root cause analysis includes a complete root-cause failure report and recommendations for further monitoring and corrective actions. MRG will test for grease consistency, oxidation, product contamination and wear metals utilizing Grease Thief® Analyzer die extrusion test, FTIR, RULER and RDE Spectroscopy. Testing includes Analytical Ferrography and Rheometer testing. Testing can include the submission of a failed component for extraction of grease from failed component and visual inspection for Root Cause Analysis.
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VERTEX 80/80v -
Bruker Optics
The VERTEX 80 and the VERTEX 80v vacuum FT-IR spectrometers are based on the actively aligned UltraScan™ interferometer, which provides PEAK spectral resolution. The precise linear air bearing scanner and PEAK quality optics guarantees the ultimate sensitivity and stability. The VERTEX 80v is an evacuated optics bench that can eliminate atmospheric moisture absorptions for ultimate sensitivity and stability; enabling demanding experiments such as high resolution, ultra fast rapidscan, step-scan, or UV spectral range measurements.
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Thermo Fisher Scientific Inc.
Research, production and analytical laboratories worldwide rely on us for rapid, efficient qualitative and quantitative analysis. Our innovative instruments and user-friendly software serve a range of industrial, educational, environmental and health markets. We offer a comprehensive portfolio for the quantification and identification of trace elemental species at ppm to sub-ppt levels in addition to isotopes. We also provide a wide range of lab-based and handheld instruments employing analytical techniques including XRF, FTIR, NIR, Raman spectroscopy, IRMS, ICP-MS and more.
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InfraCal 2 ATR-B -
Ametek Spectro Scientific
The InfraCal 2 Biodiesel Blend Analyzer for measuring percent biodiesel in diesel is the ideal solution where a quick, accurate, on-site measurement is required and a single, repetitive biodiesel blend analysis is needed. The InfraCal 2 ATR-B is based on proven IR technology, originally developed by Wilks, and used by fuel distributors, blenders, producers and regulatory agencies worldwide. The compact, easy-to-use Biodiesel Blend Analyzer has a measurement range of 0 – 100% biodiesel in diesel. These results are comparable to both ASTM D7371 and EN 14078, laboratory methods that require expensive FTIR Spectrometers.
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Anadis Instruments Benelux b.v.
Spectroscopy has become a powerful tool leading to a broad range of applications, as can be seen in the map below. From the lesser known FT-IR analysis of lipid structures in skin (of interest when applying medicines to the skin as well as in studying the effects of skin aging) to the widely used measurement of additives and the octane number (RON, MON) in fuels. Using spectroscopic techniques has many advantages. The technique is non-destructive; almost any sample can be studied in virtually any state. The techniques are applicable off-line, in-line, at-line or on-line. Identification als well as quantification is possible. Check the map with applications, it will be regularly updated and expanded.
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Spectrophotometer Workstation Series -
Shimadzu Corp.
Shimadzu's spectroscopy workstation series complies with ER/ES regulations (such as FDA 21 CFR Part11), enabling safe, reliable management of data.-As a part of the LabSolutions family of control software, advanced security and user administration features are provided.-Complies with ER/ES regulations including FDA 21 CFR Part 11 and PIC/S GMP.-Centralized management of spectroscopy data (UV, FTIR, RF and EDX), as well as LC and GC data, on a networked server allows simple control over security and backups.-Terminal Services can be used to control the Spectrophotometer application from a remote location, even when the application is not installed on the client PC.
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IRSpirit -
Shimadzu Corp.
Despite their small footprint, smaller than an A3 size sheet of paper (297 x 420 mm), these models have been engineered with a wide sample compartment that accommodates existing accessories from Shimadzu and other manufacturers. This capability makes them the smallest (installation footprint) and lightest FTIR spectrophotometers in the world that can be used with optional products from other manufacturers. They also include a program, IR Pilot, with 23 application-specific workflows that can be utilized without involving any complicated parameter setup process. Customers can select from either the IRSpirit-T model, which offers sensitivity equivalent to standard Shimadzu models, or the reasonably priced IRSpirit-L model.
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Thorlabs, Inc.
Thorlabs' LLD1530 Frequency-Locked Laser is a narrow linewidth, DFB-laser-diode-based, turnkey system with a vacuum emission wavelength of 1532.8323 nm and a high SMSR of at least 35 dB. The laser frequency is actively stabilized to a National Institute of Standards and Technology (NIST)-traceable molecular transition of acetylene and has an absolute accuracy at start-up that is better than ±25 MHz. The emission frequency immediately after start-up is then maintained with a ±25 MHz stability, providing an overall frequency accuracy of ±50 MHz. The LLD1530 is an accurate frequency reference designed to provide low-noise laser emission with excellent frequency stability, accuracy, and precision immediately at start-up. This source is ideal for use in demanding FTIR instrumentation, instrument calibration, gas sensing, and coherent telecommunications applications.
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Aqualog - A-TEEM -
HORIBA, Ltd.
A-TEEM™ Molecular Fingerprinting is a new optical technique that is ideal for comprehensive component analysis in a variety QC/QA applications, from water to wine to pharmaceuticals and more. It is a simple, fast, “column free” spectroscopic technique that simultaneously measures the absorbance, transmission and fluorescence of samples in solution, and offers unique benefits over traditional analytical techniques, such as chromatography, mass spec, IR, etc.. Fundamentally, this technique is best applied to samples in solution that have fluorescing components, like an aromatic molecule, although it also detects non-fluorescing species via absorbance. The fluorescence EEM fingerprint technique has also been applied to solids and skin. Fluorescence is a highly sensitive technique compared to other spectroscopic techniques such as absorbance, FTIR and Raman, and the three-dimensional nature of the data provides for a better foundation for complex component analysis.
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Pacific Testing Laboratories
A partial list of our state of the art test equipment, applicable to these testing disciplines, will include the following: Two Scanning Electron Microscopes with EDS (SEM/EDS) Three Differential Scanning Calorimeters (DSC) Three Thermogravimetric Analyzers (TGA) Three Thermo Mechanical Analyzers (TMA) One Dynamic Mechanical Analyzer (DMA) Two Real-Time Fluoroscopic X-ray Systems, including a Microfocus System One Fourier Transform Infrared Microscope (FTIR) (capable of identifying a single particle of an unknown material) Two Ion Chromatographs (IC) (capable of identifying ionic impurities in ppm)
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Anderson Materials Evaluation, Inc.
Our numerous analytical techniques, we tackle a wide range of materials challenges and commonly combines several analytical techniques to fully address complex and multi-dimensional materials issues. Our materials analysis laboratory provides XPS surface analysis, thermal analysis (TGA, DSC, TMA), FTIR infrared spectroscopy, UV-Vis spectrophotometry and reflectivity measurements, gas chromatography – mass spectroscopy (GC-MS), SEM/EDX, optical microscopy, mechanical testing, electrochemistry and corrosion analyses, residual gas mass spectroscopy, contact angle measurements, surface contamination measurements, adhesive bonding failure analysis, facility testing for silicone contamination, mechanical testing, metallography and fractography, density and porosity measurements, volatile organic component testing, friction, and other analytical capabilities. We continue to upgrade and expand our arsenal of analytical techniques and custom analytical methods to support our customers’ needs.
