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Geopolitics, decoded by algorithms.
Geopolitics, decoded by algorithms.
Material Resilience Engine
Public demoNot certifiedOriginal alloy
UNS R30075 (ASTM F75) Co-Cr-Mo Alloy
Cobalt-chromium-molybdenum alloy
Use case
Fatigue critical
Production method
Any route
Targets
2,781
Candidates
10,746
Source
Supabase
Material records
50,163
Unique materials
4,836
Compositions
3,206
Evidence links
30,671
Scenarios
6
Published bundle
30 files
Ranked candidates
Named material lane: Fe-Cr-Ni-Mn-N stainless, Co-free candidate
overall
90/100
properties
90/100
large Co burden reduction
cast, wrought, weld, or additive feedstock route needs qualification
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific material to investigate for the Co -> Ni + Mn + Fe route. It removes cobalt from the recipe and uses manganese/nitrogen stainless chemistry, but fatigue, wear, and corrosion must be condition matched.
Evidence still needed
Named material lane: Fe-Cr-Ni-Mo-N duplex stainless, no Co
overall
90/100
properties
90/100
removes Co, keeps Cr/Mo corrosion lane
route selection depends on component form and joining need
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific material to investigate when corrosion resistance matters. Duplex stainless can carry Cr/Mo/N corrosion and strength mechanisms, but it is not automatically a Co-Cr-Mo replacement.
Evidence still needed
Named material lane: Fe-Cr-Ni-Mo austenitic stainless, no Co
overall
86/100
properties
86/100
large Co reduction, common supply base
316L wire/feedstock is common, but property match remains gated
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific lower-risk baseline to investigate because it is widely available and cobalt-free. It will likely need engineering review for strength, wear, and fatigue before it can be a serious candidate.
Evidence still needed
Named material lane: high-strength steel, cobalt-free strength route
overall
80/100
properties
80/100
low Co/Cr burden, high strength lane
wrought or wire/feedstock route must be tested for final component duty
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific high-strength candidate to investigate only when strength/fatigue is more important than Co-Cr-Mo corrosion and wear behavior. This is the highest-risk chemistry jump in the demo.
Evidence still needed
Material Resilience Engine
Public demoNot certifiedOriginal alloy
UNS R30075 (ASTM F75) Co-Cr-Mo Alloy
Cobalt-chromium-molybdenum alloy
Use case
Fatigue critical
Production method
Any route
Targets
2,781
Candidates
10,746
Source
Supabase
Material records
50,163
Unique materials
4,836
Compositions
3,206
Evidence links
30,671
Scenarios
6
Published bundle
30 files
Ranked candidates
Named material lane: Fe-Cr-Ni-Mn-N stainless, Co-free candidate
overall
90/100
properties
90/100
large Co burden reduction
cast, wrought, weld, or additive feedstock route needs qualification
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific material to investigate for the Co -> Ni + Mn + Fe route. It removes cobalt from the recipe and uses manganese/nitrogen stainless chemistry, but fatigue, wear, and corrosion must be condition matched.
Evidence still needed
Named material lane: Fe-Cr-Ni-Mo-N duplex stainless, no Co
overall
90/100
properties
90/100
removes Co, keeps Cr/Mo corrosion lane
route selection depends on component form and joining need
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific material to investigate when corrosion resistance matters. Duplex stainless can carry Cr/Mo/N corrosion and strength mechanisms, but it is not automatically a Co-Cr-Mo replacement.
Evidence still needed
Named material lane: Fe-Cr-Ni-Mo austenitic stainless, no Co
overall
86/100
properties
86/100
large Co reduction, common supply base
316L wire/feedstock is common, but property match remains gated
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific lower-risk baseline to investigate because it is widely available and cobalt-free. It will likely need engineering review for strength, wear, and fatigue before it can be a serious candidate.
Evidence still needed
Named material lane: high-strength steel, cobalt-free strength route
overall
80/100
properties
80/100
low Co/Cr burden, high strength lane
wrought or wire/feedstock route must be tested for final component duty
Comparison
Named material candidate plus the model route that made it worth review.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | 480 MPa | 573 to 1118 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 780 MPa | 992 to 1415 MPa | candidate overlap | demo bundle |
| Fatigue strength | 250 MPa | 227 to 259 MPa | close match | demo bundle |
| Elongation | 12% | 14 to 16% | candidate overlap | demo bundle |
| Density | 8.4 g/cm3 | 7.93 to 8.44 g/cm3 | close match | demo bundle |
Specific high-strength candidate to investigate only when strength/fatigue is more important than Co-Cr-Mo corrosion and wear behavior. This is the highest-risk chemistry jump in the demo.
Evidence still needed