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Difference between revisions of "Alliages"

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====Métallurgie avancée (1)====
 
====Métallurgie avancée (1)====
 
'''[[Laiton]]''' (100% = 8)
 
'''[[Laiton]]''' (100% = 8)
:7 [[Cuivre]], 1 [[Etain]], 1 [[Resin]]:[[Stout Palm]], 5 [[Charcoal]]
+
:7 [[Cuivre]], 1 [[Etain]], 1 [[Résine]]:[[Palmier robuste]], 5 [[Charcoal]]
  
 
'''[[Bronze]]''' (100% = 8)
 
'''[[Bronze]]''' (100% = 8)
:7 [[Cuivre]], 1 [[Zinc]], 1 [[Resin]]:[[Fern Palm]], 5 [[Charcoal]]
+
:7 [[Cuivre]], 1 [[Zinc]], 1 [[Résine]]:[[Fougère]], 5 [[Charcoal]]
  
 
'''[[Fer blanc]]''' (100% = 12)
 
'''[[Fer blanc]]''' (100% = 12)
:7 [[Fer]], 4 [[Antimonie]], 1 [[Laiton]], 1 [[Resin]]:[[Royal Palm]], 5 [[Charcoal]]
+
:7 [[Fer]], 4 [[Antimonie]], 1 [[Laiton]], 1 [[Résine]]:[[Palmier royal]], 5 [[Charcoal]]
  
 
'''[[Steel]]''' (100% = 8)
 
'''[[Steel]]''' (100% = 8)
:7 [[Fer]], 1 [[Etain]], 1 [[Resin]]:[[Towering Palm]], 5 [[Charcoal]]
+
:7 [[Fer]], 1 [[Etain]], 1 [[Résine]]:[[Grand palmier]], 5 [[Charcoal]]
  
 
====Advanced Metallurgy (2)====
 
====Advanced Metallurgy (2)====
 
'''[[Acier lunaire]]''' (100% = 13)
 
'''[[Acier lunaire]]''' (100% = 13)
:7 [[Acier]], 3 [[Laiton]], 3 [[Fer blanc]], 1 [[Resin]]:[[Hawthorn]], 5 [[Charcoal]]
+
:7 [[Acier]], 3 [[Laiton]], 3 [[Fer blanc]], 1 [[Résine]]:[[Aubépine]], 5 [[Charcoal]]
  
 
'''[[Sun Steel]]''' (100% = 13)
 
'''[[Sun Steel]]''' (100% = 13)
:7 [[Acier]], 3 [[Laiton]], 3 [[Bronze]], 1 [[Resin]]:[[Umbrella Palm]], 5 [[Charcoal]]
+
:7 [[Acier]], 3 [[Laiton]], 3 [[Bronze]], 1 [[Résine]]:[[Arbre parasol]], 5 [[Charcoal]]
  
 
====Advanced Metallurgy (3)====
 
====Advanced Metallurgy (3)====
 
'''[[Métal de Thot]]''' (100% = 15)
 
'''[[Métal de Thot]]''' (100% = 15)
:7 [[Acier]], 4 [[Acier lunaire]], 4 [[Acier solaire]], 1 [[Resin]]:[[Folded Birch]], 5 [[Charcoal]]
+
:7 [[Acier]], 4 [[Acier lunaire]], 4 [[Acier solaire]], 1 [[Résine]]:[[Folded Birch]], 5 [[Charcoal]]
  
 
'''[[Water Metal]]''' (100% = 14)
 
'''[[Water Metal]]''' (100% = 14)
:7 [[Acier]], 4 [[Acier lunaire]], 3 [[Argent]], 1 [[Resin]]:[[Pratyeka Tree]], 5 [[Charcoal]]
+
:7 [[Acier]], 4 [[Acier lunaire]], 3 [[Argent]], 1 [[Résine]]:[[Pratyeka Tree]], 5 [[Charcoal]]
  
 
====Advanced Metallurgy (4)====
 
====Advanced Metallurgy (4)====
 
'''[[Métal Bleu]]''' (100% = 21)
 
'''[[Métal Bleu]]''' (100% = 21)
:7 [[Acier]], 5 [[Métal de Thot]], 5 [[Métal aqueux]], 4 [[Tungsten]], 1 [[Resin]]:[[Cerulean Blue]], 5 [[Charcoal]]
+
:7 [[Acier]], 5 [[Métal de Thot]], 5 [[Métal aqueux]], 4 [[Tungsten]], 1 [[Résine]]:[[Cerulean Blue]], 5 [[Charcoal]]
  
 
====Advanced Metallurgy (5)====
 
====Advanced Metallurgy (5)====
 
'''[[Alliage d'octet]]''' (100% = '''21''')
 
'''[[Alliage d'octet]]''' (100% = '''21''')
:7 [[Acier]], 5 [[Métal de Thot]], 5 [[Métal aqueux]], 4 [[Tungsten]], 1 [[Resin]]:[[Oil Palm]], 5 [[Charcoal]]
+
:7 [[Acier]], 5 [[Métal de Thot]], 5 [[Métal aqueux]], 4 [[Tungsten]], 1 [[Résine]]:[[Oil Palm]], 5 [[Charcoal]]
 
::* Cannot reheat.  The batch must be abandoned using the Utility menu.
 
::* Cannot reheat.  The batch must be abandoned using the Utility menu.
  

Revision as of 15:03, 8 February 2011

Overview

Les alliages sont fabriqués à partir de métaux fondus dans un Réacteur.

Le démarrage initial d'un lot d'alliage demande : 5 Charbon de bois, des métaux, et 1 résine d'arbre. Le type de résine dépend du type d'alliage. Après avoir travaillé sur le lot d'alliage jusqu'à sa cristalisation, vous pouvez prendre l'alliage produit, ou re-chauffer le lot. Vous souhaiterez re-chauffer le lot et recommencer tant que la quantité d'alliage produite n'est pas satisfaisante. Re-chauffer le lot coûte 3 Charbon de bois et 1 résine.

Types d'alliage et Coûts

If you update this list, please also update the table on the Reactory page.

Métallurgie avancée (1)

Laiton (100% = 8)

7 Cuivre, 1 Etain, 1 Résine:Palmier robuste, 5 Charcoal

Bronze (100% = 8)

7 Cuivre, 1 Zinc, 1 Résine:Fougère, 5 Charcoal

Fer blanc (100% = 12)

7 Fer, 4 Antimonie, 1 Laiton, 1 Résine:Palmier royal, 5 Charcoal

Steel (100% = 8)

7 Fer, 1 Etain, 1 Résine:Grand palmier, 5 Charcoal

Advanced Metallurgy (2)

Acier lunaire (100% = 13)

7 Acier, 3 Laiton, 3 Fer blanc, 1 Résine:Aubépine, 5 Charcoal

Sun Steel (100% = 13)

7 Acier, 3 Laiton, 3 Bronze, 1 Résine:Arbre parasol, 5 Charcoal

Advanced Metallurgy (3)

Métal de Thot (100% = 15)

7 Acier, 4 Acier lunaire, 4 Acier solaire, 1 Résine:Folded Birch, 5 Charcoal

Water Metal (100% = 14)

7 Acier, 4 Acier lunaire, 3 Argent, 1 Résine:Pratyeka Tree, 5 Charcoal

Advanced Metallurgy (4)

Métal Bleu (100% = 21)

7 Acier, 5 Métal de Thot, 5 Métal aqueux, 4 Tungsten, 1 Résine:Cerulean Blue, 5 Charcoal

Advanced Metallurgy (5)

Alliage d'octet (100% = 21)

7 Acier, 5 Métal de Thot, 5 Métal aqueux, 4 Tungsten, 1 Résine:Oil Palm, 5 Charcoal
  • Cannot reheat. The batch must be abandoned using the Utility menu.

Mechanism

The rules governing the behavior of the Reactory are as follows (more detail and historical information can be found in the discussion page):

  • We define the active circle as the circle that has its center nearest your mouse click, that circle will not move (no matter if you click in overlaps or not).
  • Circles overlapping with the active circle will move towards it like magnets, the nearer they are, the more they will move.
  • If the click results in 2 or more circles congealing completely, the batch crystalizes. The crystalization percentage depends on the number of circles that congeal with the last active circle. So your last click is important: don't just click in the middle of the bright white blob, but try to attract the max number of circles with that last click.
  • Estimate of when 2 circles congeal after a click: if a circle has center to center distance to active circle of less than half the circle radius, they will congeal and crystallization will be the result.

Output

A batch's percentage of crystallization is calculated as follows:

Crystallization = (N - 1) / (T - 1)

   N = number of circles perfectly overlapping after crystallization
   T = total number of circles

This number is shown as an integer, but likely keeps any fractional part for the purposes of calculating the output.

Output is calculated as follows:

Output (debens) =  M * (X - F) / (100% - F)

   M = Total debens of metals put into the batch
   X = Crystallization percentage of the batch
   F = Floor crystallization percentage

The floor percentage is different for each metal, and its calculation method is unclear, but it appears to be determinable as the highest crystallization percentage at which no output is received (example, F=25% for steel, and F=33% for pewter).

Put plainly, the output is exactly 0 at or below the floor crystallization, equal to the sum of the input metals at 100% crystallization, and scales linearly between the two points.

Note that because fractions are kept internally, a larger batch from an upgraded Reactory will not necessarily produce an exact multiple of the output from a normal-sized batch at the same crystallization.

Guides

Here is a quick do and do not guide by wyked avoiding crystalization

Here is a beginner's guide to practical alloys by Daniels: Practical Beginning Alloys

Here is a youtube video guide for alloy by Daniels: Video Guide