Technology:
Uses a chemomechanical process to create ultra-smooth, directionless metal surfaces that reduce friction, eliminate stress concentrators, and improve fatigue life. For additive metals, REM delivers consistent, repeatable finishes that enable sealing, cleanliness, and performance in production environments.
Applications:
Ideal for metallic AM components where surface texture impacts function such as gears, sealing faces, and fatigue-critical structures. REM integrates into standard finishing routes to produce aerospace-, medical-, and production-grade surfaces with documented recipes and traceable results.
FEATURED SYSTEMS
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REM Isotropic Superfinishing Cells
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Controlled chemomechanical surface refinement for AM metals
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Integrated Media + REM Lines
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Combined bulk smoothing and precision finishing for fatigue and sealing performance
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Hybrid DLyte + REM Routes
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Complementary processes for internal and external feature optimization
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NB-Defined Routes & Recipes
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Full process design, masking, and validation aligned to quality requirements
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HIGHLIGHTS
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Proven isotropic finish on Ti, Inconel, stainless, and cobalt alloys
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Predictable friction and fatigue improvements through refined micro-geometry
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Consistent low Ra/Rz and controlled Rpk/Rvk for sealing and bearing surfaces
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Compatible with media and DLyte finishing for complex geometries
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Scalable cells with chemistry/media control from pilot to production
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Clean, auditable process—ideal for aerospace and medical compliance
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Fully documented recipes, inspection plans, and qualification packages
