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11-50 employees
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Mechanical Or Industrial Engineering
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325 West Queen St, Southington, CT 06489, US
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REM Surface Engineering, the inventor of the ISF® Process, the Rapid ISF® Process, the Extreme ISF® Process and the REM® Process, is a global leader in providing surface engineering solutions. The REM’s isotropic superfinishing technologies are value adding and performance enhancing improvements to conventional machining operations such as grinding and lapping. Founded in 1965 in Southington, CT by Robert Michaud, REM Surface Engineering is a family owned company that has proudly been serving our partners and customers for over 50 years. REM Surface Engineering operates four locations in Brenham, TX, Southington, CT, Merrillville, IN and St. Neots, UK that provide products and services globally. REM Surface Engineering is the pioneer and leader in the field of engineered metal surface finishing.
Universal Performance Benefits of the ISF Process:
Reduce Friction
Increase Part Durability
Improve Corrosion Resistance
Reduce Wear
Reduce Lubrication Requirements and Cost Increased resistance to bending fatigue
Increased tensile strength
Increased part cleanliness
Reduced turbulence
Eliminated FOD risk
Improve Oil Retention Properties
Reduce Contact and Bending Fatigue
Improve Pitting Resistance
Reduce Vibration and Noise
Reduce Applied Torque Requirements
Produce a Uniform Surface Finish
Produce a Superior Surface Finish
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The decision makers in REM Surface Engineering are Eric Reese, Gary Sroka, Gary Sroka, etc. Click to Find REM Surface Engineering decision makers emails.
The ISF® Process, developed by REM Surface Engineering, stands for Innovative Surface Finishing. It is a patented technology that enhances the surface finish of metal components, improving their performance and longevity. By reducing surface roughness and enhancing surface texture, the ISF® Process minimizes friction, wear, and fatigue, making it particularly beneficial for industries such as aerospace, automotive, and manufacturing. This process can lead to increased efficiency and reduced maintenance costs for critical components.
REM Surface Engineering serves a diverse range of industries, including aerospace, automotive, energy, and manufacturing. Our surface engineering solutions are particularly valuable in sectors that require high-performance components, such as bearings, gears, and airfoils. By providing advanced surface finishing technologies, we help improve the reliability and efficiency of products in these demanding applications.
Yes, REM Surface Engineering specializes in gear refurbishment through our advanced surface finishing processes. Our technologies, including the ISF® Process, can restore the surface finish of worn gears, improving their performance and extending their lifespan. This service is particularly beneficial for industries that rely on high-precision gears, as it helps reduce costs associated with replacement and downtime.
The Rapid ISF® Process is designed for high-speed surface finishing, allowing for quicker turnaround times while still achieving superior surface quality. In contrast, the Extreme ISF® Process is tailored for applications that require extreme surface enhancement, such as those subjected to high loads and harsh environments. Both processes leverage the innovative principles of the ISF® technology but are optimized for different operational needs and performance criteria.
REM Surface Engineering reduces friction through its advanced surface finishing processes, which create smoother surface textures and optimize surface profiles. By minimizing surface roughness and enhancing the microstructure of components, our technologies decrease frictional forces during operation. This leads to improved efficiency, reduced energy consumption, and enhanced performance in applications such as bearings and gears, ultimately contributing to longer service life and lower operational costs.
Metal additive manufacturing plays a crucial role in REM Surface Engineering's offerings by enabling the production of complex geometries and customized components that traditional manufacturing methods may not achieve. Our expertise in post-processing these additively manufactured parts ensures that they meet stringent surface finish requirements, enhancing their mechanical properties and performance. This integration of additive manufacturing with advanced surface engineering solutions allows us to provide innovative and efficient solutions for various applications.
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