Material route finder
Public demoLogin for full modelFind candidate material routes with lower supply exposure.
Start from an alloy, product context, composition, or property target. The workspace ranks candidate routes by technical fit, chemistry, process path, and minedMap supply exposure.
Choose the starting evidence you have, then narrow candidates by fit and supply exposure before opening the evidence trail.
3,206
composition-indexed materials
2,781
ranked targets
30,671
evidence links
30
published artifacts
Ranked candidates
Candidate materials
1Sanmac 316/316L
Named material lane: Mo-bearing austenitic stainless steel
overall
90/100
properties
90/100
slightly lower scored signal
316L wire/feedstock is common and gives a practical route to inspect
open
Sanmac 316/316L
Named material lane: Mo-bearing austenitic stainless steel
overall
90/100
properties
90/100
slightly lower scored signal
316L wire/feedstock is common and gives a practical route to inspect
Comparison
Named material candidate and mapped route context.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | >= 210 MPa | 205 to 828 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 515 to 680 MPa | 515 to 895 MPa | candidate overlap | demo bundle |
| Corrosion resistance | moderate | moderate to high | environment check | demo bundle |
| Elongation | >= 45% | 10 to 45% | candidate overlap | demo bundle |
| Density | 7.9 g/cm3 | 4.43 to 8.19 g/cm3 | context check | demo bundle |
Closest stainless review candidate. It keeps the austenitic stainless lane and adds molybdenum for corrosion resistance, but chloride environment, product form, and joining route still need review.
Evidence coverage
2Ti-6Al-4V
Named material lane: titanium strength and corrosion candidate
overall
75/100
properties
75/100
larger chemistry jump
titanium feedstock route depends strongly on final component form
open
Ti-6Al-4V
Named material lane: titanium strength and corrosion candidate
overall
75/100
properties
75/100
larger chemistry jump
titanium feedstock route depends strongly on final component form
Comparison
Named material candidate and mapped route context.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | >= 210 MPa | 205 to 828 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 515 to 680 MPa | 515 to 895 MPa | candidate overlap | demo bundle |
| Corrosion resistance | moderate | moderate to high | environment check | demo bundle |
| Elongation | >= 45% | 10 to 45% | candidate overlap | demo bundle |
| Density | 7.9 g/cm3 | 4.43 to 8.19 g/cm3 | context check | demo bundle |
Useful contrast candidate when corrosion and weight matter. It opens a titanium route where galvanic behavior, forming, joining, and cost can be inspected together.
Evidence coverage
3Inconel 718
Named material lane: nickel superalloy review candidate
overall
75/100
properties
75/100
higher exposure comparison
superalloy processing and joining create a separate route to inspect
open
Inconel 718
Named material lane: nickel superalloy review candidate
overall
75/100
properties
75/100
higher exposure comparison
superalloy processing and joining create a separate route to inspect
Comparison
Named material candidate and mapped route context.
| Property | Original | Candidate | Status | Trace |
|---|---|---|---|---|
| Yield strength | >= 210 MPa | 205 to 828 MPa | candidate overlap | demo bundle |
| Ultimate tensile strength | 515 to 680 MPa | 515 to 895 MPa | candidate overlap | demo bundle |
| Corrosion resistance | moderate | moderate to high | environment check | demo bundle |
| Elongation | >= 45% | 10 to 45% | candidate overlap | demo bundle |
| Density | 7.9 g/cm3 | 4.43 to 8.19 g/cm3 | context check | demo bundle |
Useful as a high-performance comparison. It shows why the engine separates property fit from supply burden before narrowing the route.
Evidence coverage