•HEADSTOCK: All gears are made with chromium molydenum steel and hardened & ground to its accuracy. A forced lubrication system lubricates all running gears and bearings within the headstock.
•GEAR BOX: Universal gear box offers a wide range of cutting capacity. All ranges can be reached by moving three levers and turning one rotary dial.
•SPINDLE: 1-9/16" bored spindle is made from medium carbon steel and is induction hardened & ground to its final accuracy. It also has a two-point support with both bearings being taper roller.
9" X 49" Table, 3 HP Variable Speed with Invertor (can operate 220 Single Phase or 3 Phase); Electronic Brake, Trouble Free Operation. 34" x 12" x 16" Travel.
The Elite Etch from RKD Engineering is an Automated Mixed Acid Decapsulator that enables high productivity through the integration of advanced features, made possible by the use of modern materials and design concepts. RKD’s Elite Etch Decapsulator rapidly and easily opens even the most delicate packages by delivering precise, micro aliquots of nitric, sulfuric, or mixes of these acids to the package with no sample damage.
Contains a Piranha cleaning solution to remove organic materials from substrates and a temperature controlled cascading Hydrofluoric Acid (HF) bath for etching oxide layers from silicon wafers. It has a dump rinser, DI water (de-ionized water) sink and teflon guns for the N2 and DI water.
Waters ACQUITY UPLC H-Class System makes the productivity and chromatography performance benefits of UPLC accessible to HPLC users. Featuring a new quaternary solvent manager with flow-through needle design, the system allows those running HPLC methods access to UPLC-quality resolution, sensitivity, and speed. The system’s low-dispersion design results in high-efficiency separations.
The ACQUITY UPLC M-Class System delivers the most robust, reliable, and highest quality nano- to microscale UPLC separations to every laboratory performing LC/MS analyses. With unprecedented usability, the ACQUITY UPLC M-Class System enables laboratories to succeed in analyzing compounds that are severely limited in amount or availability, even amid a complex matrix over several orders of magnitude.
Milara Screen Printer precisely prints solders, adhesives, and polymers through stencil or screen to join or protect electronic assemblies. An automated water-jet apparatus was designed and fabricated at NDSU for screening microbial adhesion. The system consists of a robotic arm that is mounted on a stainless steel deck which can access coating array plates from one of three plate stacking hotels. The robotic arm inverts each well of an array plate over an offset, rotating nozzle that delivers a jet of water perpendicular to the coating surface.
A Symyx® automated pull-off adhesion system is used to determine the adhesive strength of coatings to the substrate and adhesive strength of an epoxy to a coating surface (“pseudo-barnacle” adhesion).
Agilent Technologies’ 5500 Atomic Force Microscope is a high-resolution imaging and measurement tool capable of imaging a sample’s 3-dimensional topography with atomic resolution. Advanced imaging modes including Lateral Force Microscopy (LFM), Magnetic Force Microscopy (MFM), and Phase Imaging allow for the study of various material properties. Both atomic force microscopy and scanning tunneling microscopy can be performed using this instrument. “A number of advantages over other technologies make AFM a favorite with researchers.
The Agilent 1200 Series evaporative light scattering detector (ELSD) is a powerful tool for sensitive detection of any compound that is less volatile than the mobile phase. It provides an essentially universal measurement under isocratic and gradient conditions independent of a compound’s absorbance, fluorescence or electro-activity. Low temperature evaporation technology enables detection of semi-volatile and thermally-sensitive compounds at low levels.
