Www.utsi.edu Deepak Rajput, Kathleen Lansford, Lino Costa, William Hofmeister Center for Laser Applications University of Tennessee Space Institute 411.

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Presentation transcript:

Deepak Rajput, Kathleen Lansford, Lino Costa, William Hofmeister Center for Laser Applications University of Tennessee Space Institute 411 B. H. Goethert Parkway Tullahoma, TN Interlayer Assisted Molybdenum Coatings on Steel through LISI TM Contact: PHYS 593 Independent Study: Physics Seminar

Properties of Mo High melting temperature (~2623 o C) High hardness (~1530 VHN) No reaction with water and oxygen at RT Good weldability Good ductility and fabricability Good machinability Good thermal conductivity Low coefficient of thermal expansion

Why Mo on Steel ? Improves hardness Improves corrosion resistance Improves high temperature strength

Direct LD of Mo on Steel: Problems Melting point of Mo (~2623 o C) is much higher than that of steel (~1530 o C). Mo and Fe form high and low temperature intermetallics.

Solution Intermediate layers of materials that don’t form intermetallics with Steel and Mo Mo Fe MoFe IML intermetallics No intermetallics Phase diagrams show that Cr, V and Nb are the best intermediate layers (IML)

Chemistry & Stoichiometry Cr* = Cr + CrB 2 eutectic mixture (9:1) - IML Mo* = Mo + MoB eutectic mixture (7:3) - ML B gives additional hardness temperature Cr CrB 2 Cr % CrB 2 Cr % CrB 2 Eutectic: System that melts at a temperature much lower than its constituents Cr-B and Mo-B form eutectic systems

Process: LISI TM Laser Induced Surface Improvement Uses pre-placed powder (precursor) Precursor = Metal powders + Binder Dry for few hours Laser process Intermediate layer = Cr %CrB % binder Main layer = Mo + 30% MoB + 85% binder

Precursor Deposition Precursor mixture = Metal Powders + Binder Precursor mixture steel air Spray gun μ

Laser Deposition Steel Cr IML Mo Layer Cr* = 165W, 25mm/s, Hatch 355mm Mo* = 180W, 25mm/s, Hatch

Coatings Cr* Intermediate Layer Mo* Main Layer Cr IML Mo ML Steel Substrate: 4340 Alloy Steel SEM pictures

EDS Analysis Cr IML Mo IML Fe: 11.9 %Fe: 11.5 % Cr: 21 % Mo: 67.5 % Cr: 88.1 % We are working !

Microhardness: Cr* IML Hardness: 1050 VHN

Microhardness: Mo* ML Hardness: VHN

Erosion: Cr* IML

Erosion: Mo* ML

Erosion: Comparison Cr* IML Mo* ML

Summary A thick Mo coating Dilution within permissible range Very hard ML and IML Erosion of the ML is worse than the IML Overall: Good Mo coating! (grade: B) No conclusion: We are still working !!

Further investigation XRD studies for phase determination Wear studies Fine tuning of process parameters to further reduce dilution and continuity of the layers

Questions

Thank You (I appreciate your patience)