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MJOLNIR Powered Assault Armor: Difference between revisions
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===Pre-production prototypes=== | ===Pre-production prototypes=== | ||
<!-- They should call this GEN0 in canon --> | <!-- They should call this GEN0 in canon --> | ||
====Mark I==== | ====Mark I==== | ||
Initiated in [[2515]], the Mark I took a significant amount of time to develop,{{Ref/Reuse|ENCY}}{{Ref/Note|The 2009 and 2011 editions of the ''Halo Encyclopedia'' state that it took a decade to develop the MJOLNIR Mark I. However, given that development of MJOLNIR only began in 2515, and that Mark IV was submitted to evaluation for mass production in February 2525, this would leave only 2 months for Mark II, III and IV to be produced. Given the implausibility of this, and the fact that the 2009 and 2011 ''Halo Encyclopediae'' are known to be frequently inaccurate, this article chooses to ignore this stated timeframe.}} but was bulky, unwieldy and needed to be tethered to a power source due to the tremendous amount of energy needed to power it. This caused the system's downfall, as it required a physical connection to a fusion generator at all times when operated. The Mark I prototype improved the strength and stamina of the wearer and allowed the user to lift two tons (4,000 pounds) and run at 32 km/h (19.88 mph) for extended periods of time. The Mark I contained a cutting-edge onboard computer that could assist the wearer by transmitting tactical and communications information to the standard neural implant issued to a soldier, though the suit did not possess the ability to carry an AI.{{Ref/Reuse|ENCY}} | Initiated in [[2515]], the Mark I took a significant amount of time to develop,{{Ref/Reuse|ENCY}}{{Ref/Note|The 2009 and 2011 editions of the ''Halo Encyclopedia'' state that it took a decade to develop the MJOLNIR Mark I. However, given that development of MJOLNIR only began in 2515, and that Mark IV was submitted to evaluation for mass production in February 2525, this would leave only 2 months for Mark II, III and IV to be produced. Given the implausibility of this, and the fact that the 2009 and 2011 ''Halo Encyclopediae'' are known to be frequently inaccurate, this article chooses to ignore this stated timeframe.}} but was bulky, unwieldy and needed to be tethered to a power source due to the tremendous amount of energy needed to power it. This caused the system's downfall, as it required a physical connection to a fusion generator at all times when operated. The Mark I prototype improved the strength and stamina of the wearer and allowed the user to lift two tons (4,000 pounds) and run at 32 km/h (19.88 mph) for extended periods of time. The Mark I contained a cutting-edge onboard computer that could assist the wearer by transmitting tactical and communications information to the standard neural implant issued to a soldier, though the suit did not possess the ability to carry an AI.{{Ref/Reuse|ENCY}} | ||
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On top of the inner skinsuit is a gel-filled layer, which regulates the temperature of the suit and can change its density to conform to the wearer's shape. The temperature inside the suit is controlled by the moisture-absorbing cloth suit underneath the hydrostatic layer. The hydrostatic gel layer can also be pressurized to various levels to potentially save the wearers life should the wearer be subjected to high G forces or a high velocity impact; however, overpressurizing this layer can cause nitrogen embolisms.<ref>'''Halo: First Strike''' ''page 13'' ''page 20'' (2010 edition)</ref><ref>'''Halo: Ghosts of Onyx''' ''page 36''</ref> | On top of the inner skinsuit is a gel-filled layer, which regulates the temperature of the suit and can change its density to conform to the wearer's shape. The temperature inside the suit is controlled by the moisture-absorbing cloth suit underneath the hydrostatic layer. The hydrostatic gel layer can also be pressurized to various levels to potentially save the wearers life should the wearer be subjected to high G forces or a high velocity impact; however, overpressurizing this layer can cause nitrogen embolisms.<ref>'''Halo: First Strike''' ''page 13'' ''page 20'' (2010 edition)</ref><ref>'''Halo: Ghosts of Onyx''' ''page 36''</ref> | ||
*'''[[Polymerized lithium niobocene|Liquid metal crystal piezoelectric | *'''[[Polymerized lithium niobocene|Liquid metal crystal piezoelectric layer]]:''' | ||
The inner structure of the suit{{Ref/Book|Id=encyc91|[[Halo Encyclopedia (2011 edition)]]|Section=Project: MJOLNIR|Page=91}} is a layer of piezoelectric liquid crystal that deforms along a preferred axis when exposed to an electric charge.{{Ref/Reuse|journaljul}} This layer acts as a sheath or a suit of artificial muscle; this reactive piezoelectric effect increases the mobility, speed, and all-around physical performance of the suit's user,{{Ref/Reuse|journaljul}} doubling their strength and increasing the reaction time of the user by a multiple of five. The material is amorphous, which circumvents a major obstacle in its design: custom fitting millions of the polygonal pieces under the second armor layer.{{Ref/Reuse|journalsep}} Knitted together at a molecular level the liquid crystal material is merely "poured" into a multilayered Sierpinski capillary system where microelectric fields can direct crystallization geometries.{{Ref/Reuse|journalsep}} The only downfall is the material's production, which involves classified super-toxic precursor materials and requires a zero-gravity environment.{{Ref/Reuse|journalsep}} | The inner structure of the suit{{Ref/Book|Id=encyc91|[[Halo Encyclopedia (2011 edition)]]|Section=Project: MJOLNIR|Page=91}} is a layer of piezoelectric liquid crystal that deforms along a preferred axis when exposed to an electric charge.{{Ref/Reuse|journaljul}} This layer acts as a sheath or a suit of artificial muscle; this reactive piezoelectric effect increases the mobility, speed, and all-around physical performance of the suit's user,{{Ref/Reuse|journaljul}} doubling their strength and increasing the reaction time of the user by a multiple of five. The material is amorphous, which circumvents a major obstacle in its design: custom fitting millions of the polygonal pieces under the second armor layer.{{Ref/Reuse|journalsep}} Knitted together at a molecular level the liquid crystal material is merely "poured" into a multilayered Sierpinski capillary system where microelectric fields can direct crystallization geometries.{{Ref/Reuse|journalsep}} The only downfall is the material's production, which involves classified super-toxic precursor materials and requires a zero-gravity environment.{{Ref/Reuse|journalsep}} | ||