• Production process:
1. Obtain raw materials :
- Stone crusher: Convert "eggshells", "crab shells", and "fossils" into "lime".
- Kiln furnace: Convert "coal" into "refined carbon".
- Metal Refiner: Use "Iron Ore" to refine it into "Iron", and then combine it with "Refined Carbon" to become "Steel".
• Notes :
- The use of coal for power generation needs to be maintained in an appropriate amount to avoid premature exhaustion.
- Fossil resources are limited, so it is necessary to consider cultivating shell-throwing crabs.
• Key uses :
-Space Age : Used to build bunker doors and bunker tiles to withstand meteor strikes.
• Advanced applications :
-Aerospace : The production of aerospace devices requires high temperature resistance.
-Industrial equipment : Precision components used in high-temperature environments such as liquid temperature regulators and air pumps.
• Control oxygen content: Customize steel with different strengths and heat resistance by adjusting the melting process.
• Power Management :
- Generator signal: red means full load, green means power is restored.
-Carbon dioxide environment :
- Put the refrigerator or food box in carbon dioxide to keep the oxygen inside low and make it easier to operate.
Frequently Asked Questions from Users :
1. How to obtain enough oxygen-deficient steel?
- Actively collect and rationally utilize resources to maintain the continuous operation of the refiner.
2. What are the specific usage scenarios of oxygen-deficient steel in the space age?
- Mainly used for bunker construction to protect the base from meteor threats.
3. How to adjust the properties of oxygen-deficient steel during the smelting process?
- Adjust the oxygen supply during the smelting process to adapt to the performance needs of different projects.