Search Results - scott+schiffres

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Fingerprinting Metal Powders: Non-Destructive Evaluation for Reliable 3D Printing
This invention introduces a real-time, non-destructive method to fingerprint metal powders for additive manufacturing. Using thermal signals from a modulated laser system, it accurately identifies powder composition, reuse status, and oxidation levels, preventing failed builds, reducing waste, and improving quality control. Background: High-quality,...
Published: 11/12/2025   |   Updated: 9/9/2025   |   Inventor(s): Scott Schiffres, Srikanth Rangarajan, Sina Ghadi
Keywords(s): Technologies
Category(s): Campus > Binghamton University
Robust Fused Deposition Modeling (FDM) of Polymers with High Metal Inclusion Content
This invention introduces a metal-polymer filament with up to 70% metal content for FDM 3D printing, enabling durable, precise, and customizable magnetic and metallic parts directly from desktop printers. Background: Magnetic component manufacturing faces challenges with traditional techniques such as air gap variability in transformer cores and...
Published: 11/12/2025   |   Updated: 9/9/2025   |   Inventor(s): Scott Schiffres, Pritam Das, Oscar Abundez, Jacob Goodman
Keywords(s): Technologies
Category(s): Campus > Binghamton University, Technology Classifications > Engineering
Electrically Programmable Surfaces for Dynamic Control of Wetting and Adsorption - No Fog, No Damage, No Shock
This invention introduces electrically programmable surfaces using 2D materials like graphene to reversibly switch between hydrophilic and hydrophobic states, enabling dynamic wetting and adsorption control for advanced industrial applications. Background: Industries such as energy, aerospace, and manufacturing require adaptive surfaces to control...
Published: 11/12/2025   |   Updated: 9/9/2025   |   Inventor(s): Scott Schiffres, Morteza H. Bagheri
Keywords(s): Technologies
Category(s): Campus > Binghamton University, Technology Classifications > Engineering
Periodic Thermoreflectance Layer-by-Layer Non-Destructive Testing
Non-invasive monitoring of in-situ printing uses thermal waves to detect defects that can be easily reworked during production Technology Overview: Herein, this invention disclosure relates to a method to non-invasively monitor printing in-situ. This technique has the ability to monitor a few layers into the material, in a manner that can differentiate...
Published: 11/12/2025   |   Updated: 1/23/2020   |   Inventor(s): Scott Schiffres
Keywords(s): #SUNYresearch, CleanTech, Technologies
Category(s): Technology Classifications > Engineering, Campus > Binghamton University
Layer-by-Layer Non-Destructive Testing of Metal 3D Printed Objects
This invention enables real-time, in-situ defect detection in metal additive manufacturing using Frequency Domain Thermoreflectance (FDTR). By analyzing thermal waves generated during printing, it detects and characterizes subsurface flaws as they form, ensuring higher part integrity and drastically reducing post-process inspection costs. Background:...
Published: 4/28/2026   |   Updated: 1/17/2020   |   Inventor(s): Scott Schiffres, Matthias Daeumer, Jacob Simmons, Arad Azizi
Keywords(s): #SUNYresearch, CleanTech, Technologies, XCEED
Category(s): Technology Classifications > Engineering, Campus > Binghamton University