Showing results: 106 - 111 of 111 items found.
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Kistler Instrument Corp.
In universities and industry, for basic research or quality assurance: Kistler torque sensors guarantee precise definition of the power and friction values of drives, transmissions and pumps. Strain gage technology (DMS) is a powerful solution for measurements on rotating shafts, and also for long-term dynamic and static measurements. Maximum precision, the most rigid structure possible and high temperature stability: thanks to these assets, DMS sensors can accomplish the most demanding tasks. Piezoelectric reaction torque sensors offer convincing features such as exceptional overload protection, high signal resolution and a wide frequency range. They are ideal for measurement tasks when conditions are difficult due to geometry, temperature range or dynamics.
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AEC -
Altair Engineering, Inc.
Altair's architecture, engineering, and construction (AEC) solutions offer unparalleled productivity for building and non-building structures with their advanced versatility, integration, and data management capabilities. Our analysis and design solutions simulate responses to a range of dynamic, nonlinear loading conditions, including wind, snow, water, seismic, blast, dead, live, and moving loads – all while ensuring design resiliency and regional code compliance. Extensive data transfer links enable seamless import and export cycles between analysis and design solutions, building information modeling (BIM) systems, and CAD platforms. Design and optimize concrete, steel, and mass timber structures for report-ready results. In addition, evaluate complex geometry and structural models that go beyond standard building code designs, ensuring strength and safety for any model.
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Titan Enterprises Ltd
Titan’s small turbine flowmeter range use a radial flow principle based on the Pelton wheel technique. This well proven method is the ideal way of measuring low rates of flow of low viscosity liquids. For these mini flowmeters, a jet of fluid is directed at a turbine that is mounted on robust low friction sapphire bearings. The geometry of the turbine and the fluid chamber ensures that the rotational speed of the rotor is proportional to the flow rate through the device. The use of this radial arrangement allows more energy to be imparted into the turbine, so the bearing drag is far less important. Furthermore, because more energy is available the bearings themselves can be a lot stronger so increasing the life of the flowmeter. For larger flows, some of the liquid can bypass the turbine chamber, which then behaves as a “shunt” to the metered fluid. Accuracy is still maintained and the output remains linear.
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KLA-Tencor Corp
KLA’s substrate manufacturing portfolio includes defect inspection and review, metrology and data management systems that help substrate manufacturers manage quality throughout the wafer fabrication process. Specialized wafer inspection and review tools assess wafer surface quality and detect, count and bin defects during production and as a critical part of outgoing wafer qualification. Wafer geometry systems ensure the wafer shape is extremely flat and uniform in thickness, with precisely controlled wafer shape topography. Data analysis and management systems proactively identify substrate fabrication process excursions that can lead to yield loss. KLA’s substrate manufacturing systems support process development, production monitoring and final quality check of a broad range of substrate types and sizes including silicon, prime silicon, SOI, sapphire, glass, GaAs, SiC, GaN, InP, GaSb, Ge, LiTaO3, LiNBO3, and epitaxial wafers.
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Marposs S.p.A.
Marposs complements its geometric measurement solutions with solutions for non-destructive testing using eddy current technology.The testing options can be divided in three large groups:Material integrity test, to check for the presence of defects (cracks, porosity, blow holes, inclusions) on the surface and in the layer just below the surface.Material properties test, to check if the thermal cycles (hardening, hardening and tempering, annealing, stress relieving, etc.) have been performed correctly. Material identification checks are done to sort parts with the same geometry but made with different materials.Thread inspection to check if the treading has been carried out and its quality.In addition to the non-destructive checks performed with the eddy currents, we have developed a durometer for the conventional measurement of surface hardness, according to the Rockwell scale (HRC or HRA); which uses a diamond penetrator to measure the hardness of the sample being tested.
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RedLux Ltd
Our OmniLux metrology system is highly versatile and provides unparalleled levels of 3D CMM capture for component measurement in seconds. This high precision non contact, metrology system is extremely versatile because it measures components of any geometry and of any material. Geometries possible include: spheres, asphere, cylinder, internal bore, cone/taper, step height or freeform in any material such as polished or rough metals or ceramics and polymers. The Omnilux is fast and accurate because, unlike direct contact sensors, the use of optical sensors means that the whole surface can be analysed while the object is suspended in space, ensuring that no damage comes to delicate surfaces. Our easy-to-use software interface, developed from years of experience enables the operator to effortlessly control the system. Rich data analysis, automation and export of results for the immediate generation of reports as well as a compact footprint means OmniLux is the leading solution for production or R&D environments where reducing cycle times is critical to sustainable success.
