Datasets:
id stringclasses 10
values | reactor_type stringclasses 1
value | salt_system stringclasses 4
values | temperature_c int64 640 740 | redox_potential_mv int64 -440 -285 | fission_product_load_index float64 0.1 0.4 | alloy_type stringclasses 2
values | corrosion_rate_um_per_year int64 6 36 | drift_stage stringclasses 4
values | coherence_index float64 0.6 0.95 | projected_failure_hours int64 24 340 | failure_horizon_band stringclasses 4
values | primary_risk_driver stringclasses 5
values | chemistry_control_action stringclasses 8
values | maintenance_action stringclasses 7
values | notes stringclasses 10
values | constraints stringclasses 1
value | gold_check stringclasses 1
value |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MSR-H01 | MSR | LiF-BeF2-UF4 | 710 | -330 | 0.26 | Hastelloy-N | 18 | early | 0.74 | 120 | medium | redox_shift | inject_reductant | monitor_cycle | Moderate oxidizing drift | under 320 words | horizon |
MSR-H02 | MSR | NaF-KF-UF4 | 735 | -300 | 0.38 | Ni-alloy | 34 | mid | 0.66 | 48 | short | fission_products | partial_cleanup | inspect_loop | FP load rising | under 320 words | horizon |
MSR-H03 | MSR | LiF-BeF2-ThF4 | 650 | -430 | 0.12 | Hastelloy-N | 7 | stable | 0.93 | 300 | long | none | maintain_balance | none | Stable chemistry | under 320 words | horizon |
MSR-H04 | MSR | NaF-ZrF4-UF4 | 720 | -320 | 0.31 | Ni-alloy | 27 | mid | 0.7 | 60 | short | temperature | reduce_power | check_cooling | Thermal corrosion risk | under 320 words | horizon |
MSR-H05 | MSR | LiF-BeF2-UF4 | 690 | -360 | 0.22 | Hastelloy-N | 13 | early | 0.81 | 160 | medium | redox_buffer | add_buffer | monitor | Minor drift | under 320 words | horizon |
MSR-H06 | MSR | NaF-KF-UF4 | 740 | -285 | 0.4 | Ni-alloy | 36 | late | 0.6 | 24 | critical | fission_products | full_cleanup | prepare_shutdown | Severe regime shift | under 320 words | horizon |
MSR-H07 | MSR | LiF-BeF2-UF4 | 705 | -345 | 0.24 | Hastelloy-N | 16 | early | 0.78 | 110 | medium | redox_shift | inject_reductant | monitor | Oxidation trend | under 320 words | horizon |
MSR-H08 | MSR | NaF-ZrF4-UF4 | 725 | -315 | 0.33 | Ni-alloy | 29 | mid | 0.69 | 55 | short | temperature | reduce_temp | inspect | Thermal stress | under 320 words | horizon |
MSR-H09 | MSR | LiF-BeF2-ThF4 | 640 | -440 | 0.1 | Hastelloy-N | 6 | stable | 0.95 | 340 | long | none | maintain_balance | none | Nominal | under 320 words | horizon |
MSR-H10 | MSR | NaF-KF-UF4 | 730 | -305 | 0.35 | Ni-alloy | 31 | mid | 0.68 | 72 | short | fission_products | cleanup_cycle | inspect | Chemistry drift | under 320 words | horizon |
Dataset goal
Forecast when corrosion drift becomes structural failure risk
and route the correct chemistry and operational intervention.
Required outputs
- projected failure horizon
- failure horizon band
- primary risk driver
- chemistry control action
- maintenance action
What it tests
Whether a model can move beyond drift detection
and determine:
how long until failure
what is driving it
what intervention stabilizes the system
Why it matters
Molten-salt reactor loops fail gradually.
Failure is not a single threshold.
It is a trajectory.
The key task is not just detection.
It is timed intervention routing.
Inject reductant
remove fission products
reduce thermal load
schedule maintenance
before corrosion becomes irreversible.
Trinity position
Layer 3 of the MSR corrosion coherence stack:
- Baseline coherence mapping
- Drift detection
- Failure horizon and control routing
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