This tutorial is set by the author to use the CC By-NC-SA protocol.
This tutorial is updated in version 6.11.19, which is suitable for 6.11.19 and several versions in the future
Table of contents
1. Principles and precautions
2. Basic: Take magnetite iron iron as an example
Third, advanced: maximize ironmaking (difficult)
Fourth, the melting of the alloy casting block
1. Principles and precautions
principle:
格 As long as there is more than a space, you can swallow the entire item
Note:
This method is mainly applicable to the melting of multi -mine powder out of a small metal and alloy casting. Please develop it by yourself for other applications
2. Basic: Take magnetite iron iron as an example
1. Calculate a pot of basic output
example:
Magnetic ore powder: carbon powder = 14: 3, refine 6 iron
Because one 多 can put up to 16 units
That is, a pot can be produced at most 15 iron at the same time
Because you have to leave a unit for a buffer
2. Calculate magnetite powder and carbon powder.
Need magnetic mineral powder 14/6*15 = 35, carbon powder 3/6*15 = 7.5
(Note: 1 carbon powder = 9 carbon waste = 4 small pile of carbon powder = 9 small carbon powder, the powder can be divided into small pieces of powder at the workbench, and the powder can be divided into small pile powder on the hand. It can also be put into other containing containing containing containing containing.Carbon material, but pay attention to the proportion. For example, 2 black ashes are equivalent to a carbon powder)
3. Food sequence
Small advanced quantity, and cannot exceed the maximum capacity of 16 units
If you enter a large amount, you must lose all the time and the number cannot be wrong.
So throw 7 carbon powder first, and then lose 2 small piles of carbon powder
In the end, throwing down 35 magnetic mineral powder as a whole, this is the most critical step
Then ignite the ignition
15 iron out of the last pot
4. Process introduction:
During the iron purification process of magnet ore, because the carbon powder is sufficient, the temperature will consume all the magnetite powder in the pot after the temperature reaches the iron production temperature and produces a part of the iron.Because it is a multi -mine powder out of a small metal, the interior space is empty, that is, there are fewer items inside.At this time, the items that were eaten for the last time changed, and did not appear, and added it, and at the same time, the temperature was reduced.So reciprocating.Until all the magnetite powder was refined into iron.
PS1: The calculation of other metals will be simpler, because the ironmaking is complicated, so it is used to give examples
PS2: When refining alloys, you can even start with decentralized powder. All are thrown into the pot. When the temperature is temperature, it will be shipped, such as stainless steel.Please develop other ones.
5. Recommend formula (update)
The order of material is the sequence of feeding.The principle is: first small, then big, throw in the whole
Crystal iron ore iron refining: 5 carbon powder+40 brown iron ore powder = 10 iron
Red Iron Mine iron: 5 carbon powder +7.5 CACO3+25 red iron ore powder = 10 iron
During construction ...
advantage:
Large pot production
High calories
Long smear time (this means you can do other things)
shortcoming:
Need calculations
It needs excessive heating, because the single pot production can export all metals, so the temperature of the whole pot of the whole pot is higher
Refining certain metals requires strict temperature control, such as cooked iron.
Cooked iron requires strict temperature control (recommended liquid furnace, gas furnace), as long as it blocks the front of the stove, it can stop heating.
Third, advanced: maximize iron refining
Regardless of which metal (multi -ore powder produces young metals), you must leave space in the pupae to maximize production.
In this way, there are 14 units left in the 坩埚, and then there are two options, one is absolutely maximized, and the other is relatively maximized.To maximize the maximum, that is, we fill in 14 units with carbon powder and can refine 28 iron.Then, put the appropriate magnetite powder according to the proportion.
After calculation, 14*2/3*7 = 65.3333333 magnet ore powder.We found that the maximum stacked quantity has been exceeded.We need to reduce the amount of iron out in an appropriate amount.Then calculate a suitable formula: 13.5 carbon powder, 63 magnetite powder, and 27 iron.
According to the sequence of feed on the previous, first throw 13 carbon powder and 2 small piles of carbon powder, and then invest 63 magnetite powder at one time.After the iron, the iron needs to be continuously exported to release the space.
For relative maximum, simply increase the final quantity according to the ironmaking ratio.
Magnetic ore powder: Carbon powder = 14: 3, refine 6 iron.
Zoom in the left and right 4.5 times to get the formula: 13.5 carbon powder, 63 magnet ore powder, and 27 iron.
Because it is ironmaking, the results of the two methods are the same, and may be different for other metals.
At the same time, I recommend counting the number of refining first, and then reasonably allocate the number of refining each time.
Remember the time required for the melting, and then do other parts at a time.
Such as 136 iron.I prepare 140 or 150 iron materials, and 10 pots are refined in one pot.It is easy to calculate and you can also know the progress.
Fourth, the melting of the alloy casting block
1. Taking the bronze block of melting and casting as an example:
In terms of density, tin If we want to export the metal of the unit, we must first export a small metal.Therefore, when the bronze is melted and the export is prepared, the amount of tin must be <9, and the amount of bronze must be ≥9.At the same time, 9 bronze needs 6.75 copper, so there are at least 7 copper in the 坩埚.After ensuring the number of copper, the remaining space in the pupae is 9.If these 9 spaces are filled with tin, after the first batch of bronze is refined, the amount of remaining tin is <9, the amount of bronze> 9.The entire smelting process will not make an error. Therefore, at the beginning, 9 tin was thrown to Lili. In order to consume all tin, you should throw 27 copper at one time after investing in tin.Because the first casting block can be generated and exported normally, the lattice block can also be generated and exported.A total of 36 units of bronze will be refined, and 4 cast bronze blocks can be exported. Of course, if you are already proficient and want to practice something else, please calculate yourself. 2. Recommend formula The order of material is the sequence of feeding.The principle is: first small, then big, throw in the whole bronze 9 tin+27 copper = 4 cast bronze blocks Stainless steel 3 manganese+3 chromium+3 nickel+18 iron = 3 cast stainless steel blocks (chromium should be lost in the end, remember) During construction ... ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Finally, when you look up, you must count the number of charcoal when using charcoal or coal as a fuel.If the temperature is too high, be sure to wait for the charcoal to be burned before letting the metal forming.Otherwise, constantly exporting metal will make the metal in the pot less, and the heat supply is unchanged, which will easily make the 坩埚 exceed 2500K and explode. So I recommend refining with liquid or gas furnace. At the same time, please manually do the physical backup of the archive.
