loading
| Availability: | |
|---|---|
Reactor Application Matrix
- High-Temperature Gas-cooled Reactor (HTGR): side & top reflector, fuel-element sleeves, control-rod guide tubes
- Molten-Salt Reactor (MSR): in-core graphite core barrel, down-comer flow tubes (fluoride-salt compatible)
- Small Modular Reactor (SMR): prismatic fuel blocks, replaceable central reflector columns
- Research & Test Reactors: neutron moderator columns, beam-line filters, cold-neutron source plugs
- Fusion divertor cassettes: low-Z plasma-facing inserts (coated variant) to reduce sputtering & tritium retention
Datasheet of Harog’s Nuclear Grade Graphite
Typical Physical and Mechanical Properties of HTGR (High-Temperature Gas-cooled Reactor) Graphite
Parameter | Unit | Data |
Density | g/cm³ | 1.77 |
Electrical resistivity | μΩ·m | 11.0 |
Flexural strength | MPa | 39.2 |
Compressive strength | MPa | 78.4 |
Tensile strength | MPa | 24.5 |
Shore hardness | HSD | 51 |
CTE | 10^-6/°C | 4.5 |
Elastic modulus | GPa | 9.8 |
Thermal conductivity | W/(m.k) | 116 |
HARO-NG-IG combines the lowest parasitic neutron absorption with proven dimensional stability under 30 dpa irradiation. Harog Technology’s vertically integrated, HAF-certified carbon-graphite platform delivers fuel-ready moderator and reflector blocks with full irradiation pedigree—critical enablers for Generation-IV HTGR, MSR and fusion demonstration reactors.
