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Difference between revisions of "User:Duke Ironhelm/sandbox/Materials"
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Bastium's inventory icons, in ore and processed form
A chunk of Bastium ore
Ymrium ore's inventory icon
Bastium's inventory icons, in ore and processed form
A chunk of Bastium ore
Ymrium ore's inventory icon
Bastium's inventory icons, in ore and processed form
A chunk of Bastium ore
Bastium's inventory icons, in ore and processed form
A chunk of Bastium ore
Ymrium ore's inventory icon
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{{Otherlang2 | |||
|ru=Материалы | |||
|ua=Матеріали | |||
|fr=Matériaux | |||
|zh-cn=材料 | |||
|pl=Materials:pl | |||
|de=Materials:de | |||
|jp=マテリアル | |||
}} | |||
== Summary == | |||
[[File:Material_inventory_icons.png|350px|thumb|Image of all currently known materials and refined ores.]] | |||
All objects consist of certain material or materials.<br> | |||
Based on the material composition of the object, materials give them special properties.<br> | |||
These properties include: | |||
* '''Structural durability''': Has a high relevance in e.g. spaceship design. | |||
** Structural durability of a spaceship can be monitored by using the [[Durability tool]]. | |||
* '''Armor value''', '''Density''', and '''Transformability''' are important when choosing the material for armor. | |||
** The outer plating of spaceships and stations are categorized as armor as well. | |||
* '''Weight''' is a factor when using dense, heavy, or just a lot of materials clumped together for a large ship (such as a capital ship). | |||
** Ships with a large weight value need more [[Thrusters|thrust]] power to move. | |||
Materials can break or withstand [[Damage]] in different ways: | |||
* Materials can '''break'''. | |||
** Shape and depth of the breakage varies based on the material properties, and impact energy. | |||
* Materials can '''fracture'''. | |||
** The more durable materials don't immediately get destroyed or break off parts, but rather fracture. Some materials fracture faster than others. | |||
== Manufacturing cycle == | |||
Materials can be both created and used to make other [[Devices and machines|devices]] and parts in the world.<br> | |||
Here's a generic description of how the manufacturing cycle works: | |||
# Mining raw [[Ores]]. Either by using a [[Pickaxe]], a [[Mining laser (Assembly)]] or by transporting asteroids whole. | |||
# Refining materials to specific use. | |||
# Printing devices and parts from different processed materials. | |||
== Material statistics == | |||
* '''Armor Value''' - How much [[Damage#Projectile energy (PE)|Projectile Energy]] from weapons the material can resist. | |||
* '''Voxel Penetration Multiplier''' - Percentage multiplier to damage depth that weapons cause to materials. Value over 100% indicates that material takes increased voxel damage. | |||
* '''Heat''' - Threshold and reflect value for heat status. | |||
* '''Corrosion''' - Threshold and reduction value for [[Damage#Corrosive status|corrosion]]. | |||
* '''Transformability''' - Represents the material's ability to sustain its form over stressful events such as heat, melting and structural stress. Also represents Allotropic properties. | |||
* '''Structural durability''' - How much structural strain object can handle from other objects. | |||
* '''Density''' - How dense atomic structure the object has. Higher density improves resistance against radiation and impact damage. Density also improves material's ability to withstand corrosion. Higher Density also affects the object's weight. | |||
* '''Endurance''' - Material's Ability to resist overall durability from damage. Higher endurance score reduces threshold against object destruction when missing pieces of the material (fracturing). | |||
== Materials == | |||
Please note that the values listed below are for refined materials, not ore materials, ore materials have worse properties and are less dense. | |||
=== Rocks === | |||
''Surface material of many asteroids. Plentiful, cheap, and constantly in demand due to their wide use in base level manufacturing processes.'' | |||
{| class="wikitable" | |||
|+ style="text-align: left;" | Rock materials | |||
|+ | |||
! Name | |||
! Description | |||
! Armor/Kv | |||
! Min Armor/Kv | |||
! Voxel Penetration Multiplier | |||
! Corrosion Resistance | |||
! Transformability | |||
! Structural Durability | |||
! Density (Kg per Kv) | |||
|- | |||
! Valkite | |||
| Carbonate mineral that is used in station construction. | |||
| 0.3 | |||
| 0 | |||
| 177% | |||
| 400 | |||
| 20 | |||
| 40 | |||
| 9.95 | |||
|- | |||
! Ajatite | |||
| Abundantly found material used in making glass. basic electronic components and composite materials. | |||
| 0.2 | |||
| 0 | |||
| 261% | |||
| 500 | |||
| 40 | |||
| 30 | |||
| 8.60 | |||
|- | |||
! Talkite | |||
| Metamorphic rock material. | |||
| 1.50 | |||
| 0.00 | |||
| 81% | |||
| 500 | |||
| 65 | |||
| 70 | |||
| 13.75 | |||
|- | |||
|} | |||
=== Industrial metal ores === | |||
<br> | |||
{{SB Mini Infobox Wrap | {{SB Mini Infobox Wrap | ||
|{{#lst:User:Duke_Ironhelm/sandbox/Bastium|infobox}} | |||
|{{#lst:User:Duke_Ironhelm/sandbox/Ymrium|infobox}} | |||
|{{#lst:User:Duke_Ironhelm/sandbox/Bastium|infobox}} | |||
|{{#lst:User:Duke_Ironhelm/sandbox/Ymrium|infobox}} | |||
|{{#lst:User:Duke_Ironhelm/sandbox/Bastium|infobox}} | |||
|{{#lst:User:Duke_Ironhelm/sandbox/Bastium|infobox}} | |{{#lst:User:Duke_Ironhelm/sandbox/Bastium|infobox}} | ||
|{{#lst:User:Duke_Ironhelm/sandbox/Ymrium|infobox}} | |{{#lst:User:Duke_Ironhelm/sandbox/Ymrium|infobox}} | ||
}} | }} | ||
=== Minor noble metal ores === | |||
{| class="wikitable" | |||
|+ style="text-align: left;" | Minor noble metal ores. listed in rarity order | |||
|+ | |||
! Name | |||
! Description | |||
! Armor/Kv | |||
! Min Armor/Kv | |||
! Voxel Penetration Multiplier | |||
! Corrosion Resistance | |||
! Transformability | |||
! Structural Durability | |||
! Density (Kg per Kv) | |||
|- | |||
! Tengium | |||
| Lightweight metal that is a prevalently used material in tools. electronics and machinery. | |||
| 0.5 | |||
| 0.25 | |||
| 261% | |||
| 600 | |||
| 50 | |||
| 50 | |||
| 8.60 | |||
|- | |||
! Ilmatrium | |||
| Reactive alkali metal that is used in optics. energy storage and as heat transfer material. | |||
| 0.35 | |||
| 0.3 | |||
| 177% | |||
| 500 | |||
| 70 | |||
| 40 | |||
| 9.95 | |||
|- | |||
! Ukonium | |||
| Highly reactive metal. Used as heat transfer material and in some applications in electronics. | |||
| 0.2 | |||
| 0.15 | |||
| 261% | |||
| 100 | |||
| 100 | |||
| 20 | |||
| 8.60 | |||
|- | |||
! Vokarium | |||
| Ductile and light metal that is commonly used in electronics as a power transfer medium. | |||
| 0.25 | |||
| 0.15 | |||
| 232% | |||
| 200 | |||
| 80 | |||
| 60 | |||
| 9.01 | |||
|- | |||
! Exorium | |||
| Radioactive metal that is used in fission generators as fuel. Exorium also has uses in some sensors and in kinetic ammunition as penetrator. | |||
| 2.0 | |||
| 0.1 | |||
| 32% | |||
| 600 | |||
| 20 | |||
| 30 | |||
| 23.00 | |||
|- | |||
! Ymrium | |||
| Light and ductile metal that has excellent heat resistance. | |||
| 2.25 | |||
| 0.15 | |||
| 248% | |||
| 400 | |||
| 80 | |||
| 70 | |||
| 8.78 | |||
|- | |||
! Naflite | |||
| Conductive metal with wide use in advanced capacitors and energy production applications. | |||
| 0.90 | |||
| 0.10 | |||
| 209% | |||
| 700 | |||
| 100 | |||
| 70 | |||
| 9.36 | |||
|- | |||
|} | |||
=== Noble metal ores === | |||
{| class="wikitable" | |||
|+ style="text-align: left;" | Noble metal ores. listed in rarity order | |||
|+ | |||
! Name | |||
! Description | |||
! Armor/Kv | |||
! Min Armor/Kv | |||
! Voxel Penetration Multiplier | |||
! Corrosion Resistance | |||
! Transformability | |||
! Structural Durability | |||
! Density (Kg per Kv) | |||
|- | |||
! Kutonium | |||
| Strong and lightweight metal. commonly used in tools and weapons. | |||
| 2.1 | |||
| 0.1 | |||
| 209% | |||
| 200 | |||
| 40 | |||
| 60 | |||
| 9.36 | |||
|- | |||
! Arkanium | |||
| Rare transition metal that has wide use in electronics. alloys and weapons. | |||
| 0.45 | |||
| 0.25 | |||
| 357% | |||
| 700 | |||
| 80 | |||
| 20 | |||
| 6.99 | |||
|- | |||
! Corazium | |||
| Dense transition metal that is used in advanced electronics. | |||
| 0.35 | |||
| 0.05 | |||
| 100% | |||
| 500 | |||
| 50 | |||
| 20 | |||
| 12.50 | |||
|- | |||
! Xhalium | |||
| Very rare transition metal. Used in advanced energy weapons and high end electronics. | |||
| 0.33 | |||
| 0.25 | |||
| 357% | |||
| 750 | |||
| 90 | |||
| 30 | |||
| 7.36 | |||
|- | |||
! Daltium | |||
| Heavy precious metal that is formed in supernovae. Highly resistant to corrosive agents. | |||
| 3.80 | |||
| 0.07 | |||
| 72% | |||
| 1,400 | |||
| 45 | |||
| 50 | |||
| 14.50 | |||
|- | |||
|} | |||
=== Frozen materials === | |||
{| class="wikitable" | |||
|+ style="text-align: left;" | Frozen materials. listed in rarity order | |||
|+ | |||
! Name | |||
! Description | |||
|- | |||
! Ice | |||
| Compound of hydrogen and oxygen. | |||
|- | |||
! Surtrite | |||
| Often manifests in gas or crystalline form. Highly reactive material and when oxidized. Surtrite becomes highly corrosive to many materials. | |||
|- | |||
! Nhurgite | |||
| Corrosive gas which is used in explosives and as reaction propellant. | |||
|- | |||
! Haderite | |||
| Inert gas manifested from supernovae of dying stars. | |||
|- | |||
! Karnite | |||
| Radioactive gas which is often used in energy weapons and lights. | |||
|- | |||
|} | |||
=== Alloy materials === | |||
{| class="wikitable" | |||
|+ style="text-align: left;" | Materials made from two or more other materials | |||
|+ | |||
! Name | |||
! Description | |||
! Requires | |||
! Armor/Kv | |||
! Min Armor/Kv | |||
! Voxel Penetration Multiplier | |||
! Corrosion Resistance | |||
! Transformability | |||
! Structural Durability | |||
! Density (Kg per Kv) | |||
|- | |||
! Velidenum | |||
| Transparent glass-like material. | |||
| Ajatite. Bastium. Tengium | |||
| 1 | |||
| 0 | |||
| 177% | |||
| 500 | |||
| 10 | |||
| 40 | |||
| 9.95 | |||
|- | |||
! Ballistic Velidenum | |||
| More durable version of Velidenum. | |||
| | |||
| | |||
| | |||
| | |||
| | |||
| | |||
| | |||
| | |||
|- | |||
! Bastonium | |||
| Light material with a relatively high armor value. used for military purposes. | |||
| Bastium. Kutonium | |||
| | |||
| | |||
| | |||
| | |||
| | |||
| | |||
| | |||
|- | |||
|} | |||
[[Category:Materials]] | |||
[[Category:Collection]] | |||
Revision as of 15:37, 14 July 2021
Summary
All objects consist of certain material or materials.
Based on the material composition of the object, materials give them special properties.
These properties include:
- Structural durability: Has a high relevance in e.g. spaceship design.
- Structural durability of a spaceship can be monitored by using the Durability tool.
- Armor value, Density, and Transformability are important when choosing the material for armor.
- The outer plating of spaceships and stations are categorized as armor as well.
- Weight is a factor when using dense, heavy, or just a lot of materials clumped together for a large ship (such as a capital ship).
- Ships with a large weight value need more thrust power to move.
Materials can break or withstand Damage in different ways:
- Materials can break.
- Shape and depth of the breakage varies based on the material properties, and impact energy.
- Materials can fracture.
- The more durable materials don't immediately get destroyed or break off parts, but rather fracture. Some materials fracture faster than others.
Manufacturing cycle
Materials can be both created and used to make other devices and parts in the world.
Here's a generic description of how the manufacturing cycle works:
- Mining raw Ores. Either by using a Pickaxe, a Mining laser (Assembly) or by transporting asteroids whole.
- Refining materials to specific use.
- Printing devices and parts from different processed materials.
Material statistics
- Armor Value - How much Projectile Energy from weapons the material can resist.
- Voxel Penetration Multiplier - Percentage multiplier to damage depth that weapons cause to materials. Value over 100% indicates that material takes increased voxel damage.
- Heat - Threshold and reflect value for heat status.
- Corrosion - Threshold and reduction value for corrosion.
- Transformability - Represents the material's ability to sustain its form over stressful events such as heat, melting and structural stress. Also represents Allotropic properties.
- Structural durability - How much structural strain object can handle from other objects.
- Density - How dense atomic structure the object has. Higher density improves resistance against radiation and impact damage. Density also improves material's ability to withstand corrosion. Higher Density also affects the object's weight.
- Endurance - Material's Ability to resist overall durability from damage. Higher endurance score reduces threshold against object destruction when missing pieces of the material (fracturing).
Materials
Please note that the values listed below are for refined materials, not ore materials, ore materials have worse properties and are less dense.
Rocks
Surface material of many asteroids. Plentiful, cheap, and constantly in demand due to their wide use in base level manufacturing processes.
| Name | Description | Armor/Kv | Min Armor/Kv | Voxel Penetration Multiplier | Corrosion Resistance | Transformability | Structural Durability | Density (Kg per Kv) |
|---|---|---|---|---|---|---|---|---|
| Valkite | Carbonate mineral that is used in station construction. | 0.3 | 0 | 177% | 400 | 20 | 40 | 9.95 |
| Ajatite | Abundantly found material used in making glass. basic electronic components and composite materials. | 0.2 | 0 | 261% | 500 | 40 | 30 | 8.60 |
| Talkite | Metamorphic rock material. | 1.50 | 0.00 | 81% | 500 | 65 | 70 | 13.75 |
Industrial metal ores
Bastium
Classification Industrial metals
Rarity Common
Usage Structural frames, foundations
Market priceN/A
Material properties
Structural durability 80
Armor rating 0.75 / kv
Minimum armor rating 0.1 / kv
Penetration multiplier 177%
Corrosion resistance 400
Plasticity 40
Density 9.95 kg/kv
Bastium Ore
Ore density 8.08 Kg/Kv
Ore stack mass 13962.24 kg
Ore sell price 0.5 Credits/Kv
Ymrium
Classification Minor noble metals
Rarity Rare
Usage Thruster and generator components
Market priceN/A
Material properties
Structural durability 70
Armor rating 2.25 / kv
Minimum armor rating 0.15 / kv
Penetration multiplier 248%
Corrosion resistance 400
Plasticity 80
Density 8.78 kg/kv
A chunk of Ymrium ore
Ymrium Ore
Material properties
Density ? kg/kv
Ore stack mass ? kg
Bastium
Classification Industrial metals
Rarity Common
Usage Structural frames, foundations
Market priceN/A
Material properties
Structural durability 80
Armor rating 0.75 / kv
Minimum armor rating 0.1 / kv
Penetration multiplier 177%
Corrosion resistance 400
Plasticity 40
Density 9.95 kg/kv
Bastium Ore
Ore density 8.08 Kg/Kv
Ore stack mass 13962.24 kg
Ore sell price 0.5 Credits/Kv
Ymrium
Classification Minor noble metals
Rarity Rare
Usage Thruster and generator components
Market priceN/A
Material properties
Structural durability 70
Armor rating 2.25 / kv
Minimum armor rating 0.15 / kv
Penetration multiplier 248%
Corrosion resistance 400
Plasticity 80
Density 8.78 kg/kv
A chunk of Ymrium ore
Ymrium Ore
Material properties
Density ? kg/kv
Ore stack mass ? kg
Bastium
Classification Industrial metals
Rarity Common
Usage Structural frames, foundations
Market priceN/A
Material properties
Structural durability 80
Armor rating 0.75 / kv
Minimum armor rating 0.1 / kv
Penetration multiplier 177%
Corrosion resistance 400
Plasticity 40
Density 9.95 kg/kv
Bastium Ore
Ore density 8.08 Kg/Kv
Ore stack mass 13962.24 kg
Ore sell price 0.5 Credits/Kv
Bastium
Classification Industrial metals
Rarity Common
Usage Structural frames, foundations
Market priceN/A
Material properties
Structural durability 80
Armor rating 0.75 / kv
Minimum armor rating 0.1 / kv
Penetration multiplier 177%
Corrosion resistance 400
Plasticity 40
Density 9.95 kg/kv
Bastium Ore
Ore density 8.08 Kg/Kv
Ore stack mass 13962.24 kg
Ore sell price 0.5 Credits/Kv
Ymrium
Classification Minor noble metals
Rarity Rare
Usage Thruster and generator components
Market priceN/A
Material properties
Structural durability 70
Armor rating 2.25 / kv
Minimum armor rating 0.15 / kv
Penetration multiplier 248%
Corrosion resistance 400
Plasticity 80
Density 8.78 kg/kv
A chunk of Ymrium ore
Ymrium Ore
Material properties
Density ? kg/kv
Ore stack mass ? kg
Minor noble metal ores
| Name | Description | Armor/Kv | Min Armor/Kv | Voxel Penetration Multiplier | Corrosion Resistance | Transformability | Structural Durability | Density (Kg per Kv) |
|---|---|---|---|---|---|---|---|---|
| Tengium | Lightweight metal that is a prevalently used material in tools. electronics and machinery. | 0.5 | 0.25 | 261% | 600 | 50 | 50 | 8.60 |
| Ilmatrium | Reactive alkali metal that is used in optics. energy storage and as heat transfer material. | 0.35 | 0.3 | 177% | 500 | 70 | 40 | 9.95 |
| Ukonium | Highly reactive metal. Used as heat transfer material and in some applications in electronics. | 0.2 | 0.15 | 261% | 100 | 100 | 20 | 8.60 |
| Vokarium | Ductile and light metal that is commonly used in electronics as a power transfer medium. | 0.25 | 0.15 | 232% | 200 | 80 | 60 | 9.01 |
| Exorium | Radioactive metal that is used in fission generators as fuel. Exorium also has uses in some sensors and in kinetic ammunition as penetrator. | 2.0 | 0.1 | 32% | 600 | 20 | 30 | 23.00 |
| Ymrium | Light and ductile metal that has excellent heat resistance. | 2.25 | 0.15 | 248% | 400 | 80 | 70 | 8.78 |
| Naflite | Conductive metal with wide use in advanced capacitors and energy production applications. | 0.90 | 0.10 | 209% | 700 | 100 | 70 | 9.36 |
Noble metal ores
| Name | Description | Armor/Kv | Min Armor/Kv | Voxel Penetration Multiplier | Corrosion Resistance | Transformability | Structural Durability | Density (Kg per Kv) |
|---|---|---|---|---|---|---|---|---|
| Kutonium | Strong and lightweight metal. commonly used in tools and weapons. | 2.1 | 0.1 | 209% | 200 | 40 | 60 | 9.36 |
| Arkanium | Rare transition metal that has wide use in electronics. alloys and weapons. | 0.45 | 0.25 | 357% | 700 | 80 | 20 | 6.99 |
| Corazium | Dense transition metal that is used in advanced electronics. | 0.35 | 0.05 | 100% | 500 | 50 | 20 | 12.50 |
| Xhalium | Very rare transition metal. Used in advanced energy weapons and high end electronics. | 0.33 | 0.25 | 357% | 750 | 90 | 30 | 7.36 |
| Daltium | Heavy precious metal that is formed in supernovae. Highly resistant to corrosive agents. | 3.80 | 0.07 | 72% | 1,400 | 45 | 50 | 14.50 |
Frozen materials
| Name | Description |
|---|---|
| Ice | Compound of hydrogen and oxygen. |
| Surtrite | Often manifests in gas or crystalline form. Highly reactive material and when oxidized. Surtrite becomes highly corrosive to many materials. |
| Nhurgite | Corrosive gas which is used in explosives and as reaction propellant. |
| Haderite | Inert gas manifested from supernovae of dying stars. |
| Karnite | Radioactive gas which is often used in energy weapons and lights. |
Alloy materials
| Name | Description | Requires | Armor/Kv | Min Armor/Kv | Voxel Penetration Multiplier | Corrosion Resistance | Transformability | Structural Durability | Density (Kg per Kv) |
|---|---|---|---|---|---|---|---|---|---|
| Velidenum | Transparent glass-like material. | Ajatite. Bastium. Tengium | 1 | 0 | 177% | 500 | 10 | 40 | 9.95 |
| Ballistic Velidenum | More durable version of Velidenum. | ||||||||
| Bastonium | Light material with a relatively high armor value. used for military purposes. | Bastium. Kutonium |