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Low Viscosity, Room Temperature Curing Epoxy Complies With FDA and USP Class VI Requirements
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Key Take-Aways: (1)Understand the hidden and unrealized costs of lubricating and re-lubricating a bearing; (2) Understand how improper bearing lubrication can increase expenses exponentially; and (3) Discover how dry-running, self-lubricating bearings can make machines operate better and reduce your budget.
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Discover all of the elements involved in determining the useful life of a screw actuator and how to use them to ensure that your system is built in the most efficient, and cost-effective manner ...Read MoreDiscover all of the elements involved in determining the useful life of a screw actuator and how to use them to ensure that your system is built in the most efficient, and cost-effective manner possible.
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Companies Mentioned in this Press Release:Business Categories Mentioned in this Press Release: Ideal for potting and encapsulation applications, Master Bond EP21LV features a low viscosity and outstanding electrical insulation properties. It is broadly used in the medical and food industries, as it conforms to USP Class VI and Title 21, U.S. Code of Federal Regulations, FDA Chapter 1, Section 175.105 requirements. Offering a forgiving 1 to 1 mix ratio by weight or volume, EP21LV cures at room temperature in 24 to 36 hours or faster at elevated temperatures. This system is unique in that the rigidity of its cure can be altered by adjusting its mix ratio. For example by adding more of Part A (for example, in a 2 to 1 ratio), users will get a more rigid cure with enhanced machinability. Switching to a 1 to 2 mix ratio yields a more forgiving cure with improved impact resistance. Serviceable over the wide range of -65°F to +250°F, this epoxy features a long working life of 60 to 75 minutes for a 200 gram mass. EP21LV bonds well to a variety of substrates including metals, glass, wood, rubbers, ceramics and many plastics. It resists thermal cycling as well as water, oils, fuels, bases, acids and salts. EP21LV produces durable bonds with a tensile strength of 7,600 psi, a shear strength over 2,900 psi and an elongation of 4.8% at 75°F. This versatile two-component epoxy has a volume resistivity of 1015 ohm-cm and a coefficient of thermal expansion of 53 in/in x 10-6/°C. In addition to its standard amber-clear color, EP21LV is available in a wide variety of alternative colors. Parts A and B come in pint, quart, gallon and five gallon container kits. Master Bond Electrically Insulative Epoxy Resin Systems Developed for high performance bonding, sealing, coating, encapsulation, and casting, Master Bond’s EP21LV combines exceptional electrical insulation properties with a low viscosity. Read more about Master Bond’s electrically insulative epoxies at http://www.masterbond.com/lp/tabs/tp_pp_elecinsulative.html or contact Master Bond’s Technical Support Team by phone at +1-201-343-8983, by fax at +1-201-343-2132 or by e-mail at techinfo@masterbond.com.
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With relatively few progressions in conventional optical microscopy during the past decade, pushing through the physical limitations of these systems has proven to be challenging. Despite this ...Read MoreWith relatively few progressions in conventional optical microscopy during the past decade, pushing through the physical limitations of these systems has proven to be challenging. Despite this stand-still, engineers have recently been able to develop solutions to some of the limitations in modern microanalysis. Using an integrated design approach, digital microscopes have been developed to overcome many of the shortcomings of conventional optical microscopes. Specifically, in regard to ceramics, one of the major difficulties in observing and analyzing these materials is the complete lack of contrast typically associated with them, especially when viewed through a traditional optical microscope. However, by using the advanced features of fully-integrated digital microscopes, coupled with highresolution zoom lenses and digital camera technology, users can now image samples that were previously relegated to the realm of an SEM.
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