Nyxie
【夢狐】
Image Source: None
Intent: To make a specialty gun that combats the rise in blaster- and energy-resistant materials.
Development Thread: **Pending**
Manufacturer: Serpentan Blackyards
Model: Magnetically Accelerated Ferro-Fluid Carbonite Applicator Weapon
Affiliation: Semi-Open Market (requires marketplace approval)
Modularity: None
Production: Limited
Material: Durasteel, Titanium Alloy, Copper, Silicon, Carbonite, Iron, misc.
Classification: Mass Accelerator
Size: Ship-Mounted (Comes in Standard/Point-Defense or Capital)
Length: An average laser cannon
Weight: An average laser cannon
Ammunition Type: Ferro-Carbonite Tank
Ammunition Capacity: 50
Effective Range: ~5km @2km/s (maybe double or triple fold Total Range; half that in-atmo/in-G)
Rate of Fire: 20-25 rpm
Special Features: There is literally nothing that can be listed here that isn't already said either in strengths/weaknesses or in the description.
Strengths:
It is important to note that these effects are only considered as they are in the vacuum of space; if it were to fire in-atmosphere, the effect of displacement and liquefaction of surface matter would still apply but not sublimation or carbon-freezing (essentially creating perforation of the armor and damage to directly underlying components, if any, with no loss of structural integrity except if/where explosive decompression is involved (i.e. canopy glass, tanks, etc.)); if in the presence of an extreme cold (i.e. Hoth), the fluid would begin to freeze early, surface tension and potential drag causing it to distribute its kinetic energy across a broader impact surface, rendering it ineffective and and potentially even to miss the target completely depending on range/temp/pressure extremes.
The MAFFCAW loses more of its "edge" the softer the target is, as softer metals and materials deform under pressure, buffering impact force. For instance, an alusteel plate would split and bend, leaving a breach, whereas a piece of matrix armour would resist, chipping and cracking under pressure.
Primary Source:
Intent: To make a specialty gun that combats the rise in blaster- and energy-resistant materials.
Development Thread: **Pending**
Manufacturer: Serpentan Blackyards
Model: Magnetically Accelerated Ferro-Fluid Carbonite Applicator Weapon
Affiliation: Semi-Open Market (requires marketplace approval)
Modularity: None
Production: Limited
Material: Durasteel, Titanium Alloy, Copper, Silicon, Carbonite, Iron, misc.
Classification: Mass Accelerator
Size: Ship-Mounted (Comes in Standard/Point-Defense or Capital)
Length: An average laser cannon
Weight: An average laser cannon
Ammunition Type: Ferro-Carbonite Tank
Ammunition Capacity: 50
Effective Range: ~5km @2km/s (maybe double or triple fold Total Range; half that in-atmo/in-G)
Rate of Fire: 20-25 rpm
Special Features: There is literally nothing that can be listed here that isn't already said either in strengths/weaknesses or in the description.
Strengths:
- Designed for minimum damage and maximum effect against energy-hardened targets.
- Capable of ablation of energy-resistant armor/materials in space.
- Immune to ray shields, as it is material-based.
- Ammunition is costly and in limited capacity.
- Partial loss of effectiveness in-atmosphere; largely ineffective in sub-arctic climates.
- No more effective on softer targets than a small railgun.
- Incapable of a Long-Range variant.
It is important to note that these effects are only considered as they are in the vacuum of space; if it were to fire in-atmosphere, the effect of displacement and liquefaction of surface matter would still apply but not sublimation or carbon-freezing (essentially creating perforation of the armor and damage to directly underlying components, if any, with no loss of structural integrity except if/where explosive decompression is involved (i.e. canopy glass, tanks, etc.)); if in the presence of an extreme cold (i.e. Hoth), the fluid would begin to freeze early, surface tension and potential drag causing it to distribute its kinetic energy across a broader impact surface, rendering it ineffective and and potentially even to miss the target completely depending on range/temp/pressure extremes.
The MAFFCAW loses more of its "edge" the softer the target is, as softer metals and materials deform under pressure, buffering impact force. For instance, an alusteel plate would split and bend, leaving a breach, whereas a piece of matrix armour would resist, chipping and cracking under pressure.
Primary Source:
