Strange Matter: Difference between revisions

Revision as of 11:28, 23 April 2022

Strange Matter

Material

Strange matter has a great gravitational negative pressure, which exceeds its energy density, so that the space around the strange matter is warped and meets the negative energy demand of the warp engine.

Made In		Particle Collider Cannot make in replicator
Stack Size		100

1

8 s

2

10

Summary

Strange matter has a great gravitational negative pressure, which exceeds its energy density, so that the space around the strange matter is warped and meets the negative energy demand of the warp engine.

Production Chain

Recipe	Building	Replicator?	Technology
1 8 s 2 2 10		✖

Production Progression Chart

For more information on reading and using these charts, see Production Progression Chart.

Click here to show or hide the Production Progression Charts.

Critical Photon and Unipolar Magnet-based production
Stage 1	Stage 2	Stage 3	Stage 4
20		2	1 10
4	4	2
10	10 10	10 10
2	2

Fire Ice-based production
Stage 1	Stage 2	Stage 3	Stage 4	Stage 5	Stage 6	Stage 7
480	8 480		8 240	4 120	4 60 60	4 30 60
240	4 240	4 240
240	6 240	2 240
120	2 120	2 240
240	6 240	2 240
120	2 120	2 240
120	2 120
120	2 120 60
60	1 60
300
Buildings Required		31 28 2
Raw Materials Required (per minute)		1260 360 120 300
Raw Materials Required (per unit)		42 12 4 10

Critical Photon-, Coal- and Sulfuric Acid-based production
Stage 1	Stage 2	Stage 3	Stage 4	Stage 5	Stage 6	Stage 7
16	16		8	4	2	1 10
8	8	8
8	8	8
4	4	8
8	8	8
4	4	8
4	4
12	6	4
2		4
10	10 10	10 10
2	2

Crude Oil- and Sulfuric Acid-based production
Stage 1	Stage 2	Stage 3	Stage 4	Stage 5	Stage 6	stage 7
16	16		8	4	2 2 12	1 2 2
8	8	8
8	8	8
4	4	8
8	8	8
4	4	8
4	4
8	8 4	8 12	4 2 12	4 2 12
2			4 2 12	4 2 12
2	2

Note: Hydrogen created during Crude Oil-based production must be recycled through the system to ensure full efficiency. Hydrogen quantity shown in Stage 6 is remaining surplus Hydrogen which can be diverted elsewhere.

Used In

Recipe	Building	Replicator?	Technology
1 6 s 4 1		✔	$Tech Gravitational Wave Refraction.png$

Player Tips & Tricks

The only use for Strange Matter is to make Graviton Lenses with them. One Miniature Particle Collider can make enough Strange Matter for one Assembling Machine Mk.I making Graviton Lenses. A single machine can make enough Graviton Lenses to run 40 Ray Receivers. When using Mk.II and Mk.III Assembling Machines they will need more Particle Colliders, since their production speed can't be upgraded.
One Assembling Machine Mk.II making Particle Containers is enough to supply one Particle Collider making Strange Matter.

@@ Line 53: / Line 53: @@
 {| class="wikitable" style="text-align:center; background-color:#0b161c
-|+Fire Ice-based production
+|+ Fire Ice-based production
-!Stage 1
+! Stage 1
-!Stage 2
+! Stage 2
-!Stage 3
+! Stage 3
-!Stage 4
+! Stage 4
-!Stage 5
+! Stage 5
-!Stage 6
+! Stage 6
-!Stage 7
+! Stage 7
 |-
-| {{riq|Iron Ore|16}}
+| {{riq|Iron Ore|480}}
-| {{riq|Iron Ingot|16}}
+| {{riq|Smelter|8}} {{to}} {{riq|Iron Ingot|480}}
 | {{ppc skip}}
-|rowspan=4| {{riq|Electric Motor|8}}
+|rowspan=4| {{riq|Assembling Machine Mk.II|8}} {{to}} {{riq|Electric Motor|240}}
-|rowspan=6| {{riq|Electromagnetic Turbine|4}}
+|rowspan=6| {{riq|Assembling Machine Mk.II|4}} {{to}} {{riq|Electromagnetic Turbine|120}}
-|rowspan=8| {{riq|Particle Container|2}} {{riq|Graphene|36}} {{riq|Deuterium|10}}
+|rowspan=8| {{riq|Assembling Machine Mk.II|4}} {{to}} {{riq|Particle Container|60}} {{riq|Hydrogen|60}}
-|rowspan=9| {{riq|Strange Matter|1}} {{riq|Graphene|36}}
+|rowspan=10| {{riq|Assembling Machine Mk.II|4}} {{to}} {{riq|Strange Matter|30}} {{riq|Hydrogen|60}}
 |-
-| {{riq|Iron Ore|8}}
+| {{riq|Iron Ore|240}}
-| {{riq|Iron Ingot|8}}
+| {{riq|Smelter|4}} {{to}} {{riq|Iron Ingot|240}}
-| {{riq|Gear|8}}
+| {{riq|Assembling Machine Mk.II|4}} {{to}} {{riq|Gear|240}}
 |-
-| {{riq|Iron Ore|8}}
+| {{riq|Iron Ore|240}}
-| {{riq|Magnet|8}}
+| {{riq|Smelter|6}} {{to}} {{riq|Magnet|240}}
-|rowspan=2| {{riq|Magnetic Coil|8}}
+|rowspan=2| {{riq|Assembling Machine Mk.II|2}} {{to}} {{riq|Magnetic Coil|240}}
 |-
-| {{riq|Copper Ore|4}}
+| {{riq|Copper Ore|120}}
-| {{riq|Copper Ingot|4}}
+| {{riq|Smelter|2}} {{to}} {{riq|Copper Ingot|120}}
 |-
-| {{riq|Iron Ore|8}}
+| {{riq|Iron Ore|240}}
-| {{riq|Magnet|8}}
+| {{riq|Smelter|6}} {{to}} {{riq|Magnet|240}}
-|rowspan=2| {{riq|Magnetic Coil|8}}
+|rowspan=2| {{riq|Assembling Machine Mk.II|2}} {{to}} {{riq|Magnetic Coil|240}}
 |rowspan=2| {{ppc skip}}
 |-
-| {{riq|Copper Ore|4}}
+| {{riq|Copper Ore|120}}
-| {{riq|Copper Ingot|4}}
+| {{riq|Smelter|2}} {{to}} {{riq|Copper Ingot|120}}
 |-
-| {{riq|Copper Ore|4}}
+| {{riq|Copper Ore|120}}
-| {{riq|Copper Ingot|4}}
+| {{riq|Smelter|2}} {{to}} {{riq|Copper Ingot|120}}
 |colspan="3"| {{ppc skip}}
 |-
-| {{riq|Fire Ice|40}}
+| {{riq|Fire Ice|120}}
-| {{riq|Graphene|40}} {{riq|Hydrogen|20}}
+| {{riq|Chemical Plant|2}} {{to}} {{riq|Graphene|120}} {{riq|Hydrogen|60}}
-| {{riq|Graphene|40}} {{riq|Deuterium|20}}
+|colspan="3"| {{ppc skip}}
-|colspan="2"| {{ppc skip}}
 |-
-| {{riq|Iron Ore|2}}
+| {{riq|Iron Ore|60}}
-| {{riq|Iron Ingot|2}}
+| {{riq|Smelter|1}} {{to}} {{riq|Iron Ingot|60}}
 |colspan="4"| {{ppc skip}}
+|-
+| {{riq|Deuterium|300}}
+|colspan="5"| {{ppc skip}}
+|-
+!colspan="2"| Buildings Required
+|colspan=5 align=left| {{riq|Smelter|31}} {{riq|Assembling Machine Mk.II|28}} {{riq|Chemical Plant|2}}
+|-
+!colspan="2"| Raw Materials Required<br>(per minute)
+|colspan=5 align=left| {{riq|Iron Ore|1260}} {{riq|Copper Ore|360}} {{riq|Fire Ice|120}} {{riq|Deuterium|300}}
+|-
+!colspan="2"| Raw Materials Required<br>(per unit)
+|colspan=5 align=left| {{riq|Iron Ore|42}} {{riq|Copper Ore|12}} {{riq|Fire Ice|4}} {{riq|Deuterium|10}}
 |}
-'''Note:''' The Fire Ice-based process produces a large amount of excess Graphene for use in other processes.
 {| class="wikitable" style="text-align:center; background-color:#0b161c