Bezdnacine

Abyssal Bezdnacine
Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.
Bezdnacine
Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.
Compressed Abyssal Bezdnacine
Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. This material is compressed and a much more compact form of the original material.
Compressed Bezdnacine
Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. This material is compressed and a much more compact form of the original material.
Compressed Hadal Bezdnacine
Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. This material is compressed and a much more compact form of the original material.
Hadal Bezdnacine
Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.