[OVERVIEW]
[OVERVIEW]
ELVION-X extends the ELVION platform into high-capacity domains — a 60 Ah, 3.8 V semi-solid architecture optimized for propulsion-scale and mission-critical applications.
Designed to meet aerospace and defense safety standards, ELVION-X withstands nail penetration, crush, and over-temperature conditions without fire or venting — confirming Evermore’s hybrid electrolyte system as a safer path to higher energy.
ELVION-X extends the ELVION platform into high-capacity domains — a 60 Ah, 3.8 V semi-solid architecture optimized for propulsion-scale and mission-critical applications.
Designed to meet aerospace and defense safety standards, ELVION-X withstands nail penetration, crush, and over-temperature conditions without fire or venting — confirming Evermore’s hybrid electrolyte system as a safer path to higher energy.
[SPECIFICATIONS]
[SPECIFICATIONS]
Type: High-Capacity / Performance |
Voltage: 3.8 V |
Capacity: 60 Ah |
Energy Density: 380 Wh/kg |
Cycle Life: 500+ cycles (80 % SOC) |
Charge Rate: 0–80 % in < 20 min |
Safety Validation: Passed MIL-STD nail penetration and thermal abuse tests |
Certified: ArC Center |
Type: High-Capacity / Performance |
Voltage: 3.8 V |
Capacity: 60 Ah |
Energy Density: 380 Wh/kg |
Cycle Life: 500+ cycles (80 % SOC) |
Charge Rate: 0–80 % in < 20 min |
Safety Validation: Passed MIL-STD nail penetration and thermal abuse tests |
Certified: ArC Center |
[ENGINEERING NOTES]
[ENGINEERING NOTES]
Each ELVION cell is constructed through precision layer engineering:
Anode: Si-graphite composite (10 % Si) for increased charge storage and durability |
Cathode: High-nickel formulation (Ni 86 %) for superior conductivity |
Electrolyte: Hybrid liquid-solid medium balancing ion mobility and safety |
Structure: Multi-layer containment ensuring thermal and mechanical stability |
Each ELVION cell is constructed through precision layer engineering:
Anode: Si-graphite composite (10 % Si) for increased charge storage and durability |
Cathode: High-nickel formulation (Ni 86 %) for superior conductivity |
Electrolyte: Hybrid liquid-solid medium balancing ion mobility and safety |
Structure: Multi-layer containment ensuring thermal and mechanical stability |
[IDEAL APPLICATIONS]
[IDEAL APPLICATIONS]
Aerospace propulsion
Marine and sub-sea power systems
Defense and industrial energy infrastructure
Aerospace propulsion
Marine and sub-sea power systems
Defense and industrial energy infrastructure