B Y K R O N I U M
OUT OF CHARACTER INFORMATION
PHYSICAL SPECIFICATIONS
[*]
Color: Silver w/ Visible Spectrum Colors
SPECIAL FEATURES
Bykronium was developed by Primo Victorian engineers on Scillal. The intent for developing this compound was to create a new alloy to be used as a basis for stealth recon armor for starships. While the CEO of Primo Victorian dislikes the use of stealth technology. There is admittedly a use for them, and thus there was a desire to go beyond what may be considered a standard for stealth starships.
Nutronium, for this reason, was used as a base alloy to build what would be Bykronium. Nutronium, on its own, was capable of blocking sensor equipment. Added to this was Nykkalt a rare and precious, highly vibrative metal that was only found in liquid form. This highly vibrative metal reflected any light, air or even hyper-space frequency.
Because Nykkalt could only be found in liquid form, Nutronium was then smelted in an industrial furnace. From there Nykkalt would be folded into the molten form and the two would be reforged as, Nykaltronium. Batches of Nykaltronium were seperated, and sent out a master batch sent to Primo Victorian storage bunkers while the later batches would be tested out with other metals.
Other metals such as Pyronium and Bandorium, Pyronium an already intriguing metal when refined. For when refined it possessed an interesting property; absorbing electromagnetic energy. While doing so it would change colors through the visible spectrum. In the past, Bandorium was another liquid metal and this one had been used in advanced counter-sensor packages. Considering both metals were rare and valuable Primo Victorian engineers took great care when deciding how to use them in tandem.
Pyronium and Bandorium were then smelted together, creating Byandronium. Like the Nykaltronium a master batch would be sent to storage bunkers. This time the batches of Byandronium would not sit and wait to be tested with numerous metals. Instead, engineers immediately went to work on smelting and forging the two compounds together.
Creating Bykronium, an advanced compound alloy that works to absorb electromagnetic energy, reflect hyper-space frequencies, and would also be capable of blocking sensors. Perhaps some of the more advanced anti-stealth sensors or advanced counter sensors as some may call them may still have trouble finding the metal, and still, others may indeed find the metal anyway as it does not do the complete job of reflecting air, light or hyper-space frequencies.
Bykronium, the result of folding, refolding, adding and readding each of the aforementioned properties. Each refold saw a few more drops of Nykkalt, level with Bandorium and Nutronium as the base being readded. Pyronium would be one of the last elements readded and refolded into the mix. Giving the metal its rainbow-like shine.
The effectiveness of Bykronium on its own is perhaps most useful against electromagnetic pulses and/or ion-based weapons. This is again going for the metal on its own, blasters, kinetics and plasma weapons even, still, have the ability to break this metal down. It is highly effective against the standard sensor arrays/scanners due to some of the base properties that went into the metal itself. It did, however, lose the complete ability to reflect air, light and hyper-space frequencies. It doesn’t do it as well as Nykkalt does on its own. Still, standard sensors and even what may be considered standard anti-stealth technology in this day and age may have trouble finding it.
More advanced sensors and anti-stealth may still be able to locate and find the resonant hyper-space frequencies that are not reflected by Bykronium. Standard sensors and electromagnetic energy would still have their work cut out for them.
OUT OF CHARACTER INFORMATION
Intent: To create a type of stealth armor plating for starships.
Image Source: Juuso Voutilainen, Artstation (x)
Canon Link: N/A
Primary Source: Nutronium, Pyronium, Bandorium, Nykkalt
Manufacturer: Primo Victorian (x)
Affiliation: Primo Victorian | Closed Market
Model: VLM-CCM “Bykronium”
Modularity: None
Production: Semi-Unique
Material:
Nutronium Alloy
Refined Pyronium
Bandorium
Nykkalt
PHYSICAL SPECIFICATIONS
Classification: Metal
Weight: Average
Resistances:
Blasters/Plasma: Average
Kinetic: Low
Lightsabers: Average
EMP/Ion: Extreme
Sonic: None
Radiation: High
Heat: Average
Cold: Low
[*]
Color: Silver w/ Visible Spectrum Colors
SPECIAL FEATURES
Capable of blocking sensors, keeping them blind in the process.
Absorbs electromagnetic energies.
Reflects hyper-space frequencies - but does not do so completely.
Holds up to some blaster/plasma weaponry but not all.
Sensors: Capable of blocking sensors, keeping them blind.
Electromagnetics: Innate abilities to reflect/absorb electromagnetic energies.
Frequencies: Able to reflect some hyper-space frequencies.
Frequencies: While it’s able to reflect some hyper-space frequencies, an advanced sensor may still be able to pick up the resonant frequencies that Bykronium misses.
Kinetic: Susceptible to kinetic damage, the metal can be broken by slugs quite easily. It can also be broken by impact, so throwing it at say a wall, or having a heavy enough hammer should do the trick.
Cold: Freezing temperatures do well to break the metal down and thus it’s important to keep it in room temperature or in heated dry rooms. Moisture itself isn’t an issue, it’s when the moisture freezes and gets into the crevices of the metal.
Bykronium was developed by Primo Victorian engineers on Scillal. The intent for developing this compound was to create a new alloy to be used as a basis for stealth recon armor for starships. While the CEO of Primo Victorian dislikes the use of stealth technology. There is admittedly a use for them, and thus there was a desire to go beyond what may be considered a standard for stealth starships.
Nutronium, for this reason, was used as a base alloy to build what would be Bykronium. Nutronium, on its own, was capable of blocking sensor equipment. Added to this was Nykkalt a rare and precious, highly vibrative metal that was only found in liquid form. This highly vibrative metal reflected any light, air or even hyper-space frequency.
Because Nykkalt could only be found in liquid form, Nutronium was then smelted in an industrial furnace. From there Nykkalt would be folded into the molten form and the two would be reforged as, Nykaltronium. Batches of Nykaltronium were seperated, and sent out a master batch sent to Primo Victorian storage bunkers while the later batches would be tested out with other metals.
Other metals such as Pyronium and Bandorium, Pyronium an already intriguing metal when refined. For when refined it possessed an interesting property; absorbing electromagnetic energy. While doing so it would change colors through the visible spectrum. In the past, Bandorium was another liquid metal and this one had been used in advanced counter-sensor packages. Considering both metals were rare and valuable Primo Victorian engineers took great care when deciding how to use them in tandem.
Pyronium and Bandorium were then smelted together, creating Byandronium. Like the Nykaltronium a master batch would be sent to storage bunkers. This time the batches of Byandronium would not sit and wait to be tested with numerous metals. Instead, engineers immediately went to work on smelting and forging the two compounds together.
Creating Bykronium, an advanced compound alloy that works to absorb electromagnetic energy, reflect hyper-space frequencies, and would also be capable of blocking sensors. Perhaps some of the more advanced anti-stealth sensors or advanced counter sensors as some may call them may still have trouble finding the metal, and still, others may indeed find the metal anyway as it does not do the complete job of reflecting air, light or hyper-space frequencies.
Bykronium, the result of folding, refolding, adding and readding each of the aforementioned properties. Each refold saw a few more drops of Nykkalt, level with Bandorium and Nutronium as the base being readded. Pyronium would be one of the last elements readded and refolded into the mix. Giving the metal its rainbow-like shine.
The effectiveness of Bykronium on its own is perhaps most useful against electromagnetic pulses and/or ion-based weapons. This is again going for the metal on its own, blasters, kinetics and plasma weapons even, still, have the ability to break this metal down. It is highly effective against the standard sensor arrays/scanners due to some of the base properties that went into the metal itself. It did, however, lose the complete ability to reflect air, light and hyper-space frequencies. It doesn’t do it as well as Nykkalt does on its own. Still, standard sensors and even what may be considered standard anti-stealth technology in this day and age may have trouble finding it.
More advanced sensors and anti-stealth may still be able to locate and find the resonant hyper-space frequencies that are not reflected by Bykronium. Standard sensors and electromagnetic energy would still have their work cut out for them.
