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High Density Stainless Steel

High Density Stainless Steel . By Richard R. Phillips Engineered Pressed Materials Dennis Hammond Apex Advanced Technologies. Process Overview and Key Features of the Technologies. Blending additive package with lubricant Water atomized powder -100 mesh

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High Density Stainless Steel

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  1. High Density Stainless Steel By Richard R. Phillips Engineered Pressed Materials Dennis Hammond Apex Advanced Technologies EPM

  2. Process Overview and Key Features of the Technologies • Blending additive package with lubricant • Water atomized powder -100 mesh • Sintered Density >96.0%; up to 99%+ of theoretical • Properties comparable or superior to • wrought materials • Standard tooling / conventional pressing • Normal compaction range EPM

  3. Process Overview and Key Features of the Technologies • Reduction or elimination of green density split via designed lubrication package • Molding to mass • Controlled debinding / Sintering 2150F to 2550F degrees in 100% Hydrogen for 60min. • Sintering on low friction high temperature plates EPM

  4. Process Overview and Key Features of the Technologies • Plates Zircar ZAL-45 alumina or BN coated Graphite or ceramic • Properties are a typical of P/M and aligned to wrought products • Interconnected porosity is eliminated • Mechanical, Physical (electrical, magnetically …) and Chemical properties are enhanced EPM

  5. High Density P/M Stainless Steel Obstacles • Relative poor compressibility compared to theory or compared to closing off interconnecting porosity • High oxide content and difficult to break them down during sintering without very high temperatures • High temperatures required for efficient sintering • Distortion during sintering • Abrasive nature of Stainless Steel in compacting EPM

  6. Possible Solutions • Compressibility- inherent in material • Oxide content –inherent in process of making powder • Sintering temperature- inherent with the high oxide content • Break down the oxides during processing and make consolidation easier • Deal with the abrasives and distortions by techniques and highly efficient lubrication EPM

  7. Dimensional Control Variables • Green density gradients - highly effective mobile lubricant, volume at G.D. • Elephant foot- caused by friction forces on support medium- reduced friction medium • Temperature –tendency to slump with temperature and time- controlled time and temperature • Liquid phase components- uniformity oftemperature EPM

  8. Activated Stainless • Additive’s coated on the surface of powder • Additional additives ad mixed to powder including a highly efficient lubricant package • Controlled de-bind in air • Sinter at conventional temperatures in Hydrogen • Pressing equivalent to conventional S.S. EPM

  9. Stainless Steel Materials Processed • 316 L • 409Cb • 434 L • 304 L • 410 L • 410+C • 17-4pH EPM

  10. Stainless Steel Materials Processed • Activated and Standard from 2150F to 2534F in 100%H2 for 60min. • Density vs Temperature • Ultimate, Yield & Elongation vs Temp. • Un-notched Charpy Impacts & Elongation vs Temperature • Hardness & Ultimate vs Temperature EPM

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