How do you make a fire at 100 degrees Celsius?

1 3 Step by Step Reading.

First of all, find two cans, and then use a knife to cut off the ground of the can, two centimeters up, then twist the first one with your hand to make the mouth bigger, and then cut the second can, which is also two centimeters on the ground, and then add cotton wool to the first one, and buckle the second and first one up and down.

The second step is to use a mushroom nail to drill a circle of holes in and around the ground of the second can, note that it should be spaced one centimeter apart, or it will be too hot, and then a few holes should be drilled in the center of the ground of the can, which can also be drilled into a pattern, but not too big.

The third part is to pour the alcohol into it, just pour it almost too much, don't let the alcohol fill up, and put it in an overhead place, or you can build a stone or something, put a small stove in it, and then use a lighter to light it, and then you can make your own coffee and boil water.

In the scene materials to be created (such as a pile of carbon and wood branches), click "Create" - "Auxiliary Object" - "Atmospheric Device", select the outline type of the effect to compose in the scene; Here we choose the "sphere" type to compose in the scene, then click on it as a hemisphere in its modifier, and then stretch it on the z-axis to scale it so that the general outline of the flame comes out;

2. After the above, click on its box, find the "Atmosphere and Effects" below in its modifier list, click the "Add" column, select "Fire Effect" and click OK; After it is determined, there is a "Fire Effect" in the "Atmosphere and Effects" column of the modifier (as shown below), at this time, it should be noted that although the effect is added, there is no fire effect in the rendering, we need to select it and then set it (as shown below), and the fire effect will be rendered;

3. In the pop-up dialog box of setting "Fire Effect Parameters" mentioned above (as shown below); adjustment of various parameters of fire; During the adjustment process, you can enable the renderer real-time rendering side by side, so that the adjusted parameter effect can be corresponded.

Objects with a boiling point below 100 degrees Celsius cannot be heated to more than 100 degrees Celsius. And a fire of 100 degrees Celsius is still relatively difficult to do.

The temperature at which white phosphorus burns is about 40 degrees Celsius, and the flame of red phosphorus is about 100 degrees Celsius.

The fire mentioned in the recipe is also called a hot fire, and the temperature is 100 degrees Celsius and above; medium heat at 80-60 degrees Celsius; Low heat at 50-40 degrees Celsius. There is also a fire called a micro fire, and its temperature is 30-20 degrees Celsius. When cooking, you can look at the shape of the flame to determine what kind of fire it is and the approximate temperature of the fire.

The pillar of fire will stick out of the edge of the pot, the flame is high and stable, the fire color is blue-white, and the heat is pressing; The firepower of the medium fire is between the strong fire and the small fire, the fire pillar is slightly protruding from the edge of the pot, the flame is low and unstable, the fire is blue-red, and the luminosity is bright; The pillar of fire of the small fire will not protrude from the edge of the pot, the flame is small and sometimes high and sometimes low, the fire is blue-orange, the luminosity is dim and the heat is low; The flame of the micro-fire is weak, the fire color is blue, the luminosity is dark and the heat is low.

If it means cooking:

The big fire of the gas stove refers to the maximum fire, and the small fire refers to the various cooking styles set by the induction cooker in the weak state of the fire, but some use the power display, 120W to 600W is a small fire, 700W to 1600W is a medium fire, 1700W to 2100W is a large fire, and it is also the so-called fierce fire, which is about 280 -300.

If it refers to fire:

According to research, the face shields and cigarette caps used by firefighters can withstand 200 degrees of heat, and even if the masks are exposed to 200 degrees Celsius, the air inside the hood can still maintain the 60 degrees Celsius that the human body can breathe, but if the temperature exceeds 200 degrees, the masks may be burned. Based on this calculation, the fierce fire is more than 300, which can directly kill people. The fire is about 200, and it can still resist.

Medium fire refers to between 100-200, and low fire refers to less than 100. I guessed it myself, hehe.

If it refers to **. Then there is no standard, how many degrees are completely based on the needs of the author's plot.

The key is to have a point of ignition, the temperature of the hot is too high, it will catch fire, and when you iron your clothes, it will smoke if it is too hot.

Do you make your own oven, I don't think it's safe, because you haven't learned to make this oven, and it's not expensive to buy it online, and now you have to sell everything online.

Temperature, combustibles, oxygen, all three conditions are reached, and it can be burned.

Hello, homemade firearms are not allowed in our country.

The musket, sometimes called the "fire barrel", is the world's earliest metal shooting firearm and belongs to the musket gun.

You just pour gunpowder into a tube of metal, add a lead, and ignite it to make a ham system, I personally advise you not to do it yourself.

First of all, you need to find a steel pipe, then make a small hole in it, plug in the lead, and you're done. However, I advise you not to go for a firebolt, as it is dangerous and illegal.

Saltpeter and charcoal and sulfonic acid form black powder, and after pouring black powder into a tubular metal object, plus a lead, it becomes an ignition system.

Now it's illegal, don't ask, it's easy to have problems.

I don't think I've heard of the movie "Production Contract", I don't know, I haven't seen it.

High-temperature resistant materials.

High-temperature resistant materials include refractory and heat-resistant materials, inorganic compounds, and polymer materials. Refractory materials usually refer to inorganic materials that can withstand temperatures above 1580. They are used to build kilns, combustion chambers, and other building materials that need to withstand high temperatures.

Quartz sand is generally used.

Clay, magnesite, dolomite.

and so on as raw materials made, high temperature resistant heat insulation coating Zhisheng, is a component inorganic coating.

The temperature resistance range is -80-1800, and the thermal conductivity.

In order to suppress the heat radiation and conduction heat of high-temperature objects and low-temperature objects, 70% of the heat can be maintained for high-temperature objects without loss. Zhisheng coating is coated with 8mm high-temperature heat-resistant insulation coating on the surface of 1100 objects, and the surface temperature of the object can be reduced from 1100 to less than 100. In addition, high-temperature heat-resistant thermal insulation coatings also have the characteristics of insulation, light weight, convenient construction, long service life, etc., and can also be used as high-temperature-resistant acid-alkali resistant adhesive for inorganic materials, and the attached objects are firm.

Such as refractory cement, magnesia brick, etc. Broadly speaking, inorganic refractory and heat-resistant materials refer to these compounds with high hardness, good brittleness, good chemical corrosion resistance, and a melting point of more than 1500. It is mainly divided into two categories: metallic and non-metallic compounds and non-metallic compounds.

The former such as tungsten, molybdenum, tantalum, niobium, vanadium, chromium, titanium, zirconium and other refractory metals and rare earth metals boride, carbide, nitride, silicide, phosphide and sulfide; The latter such as boron carbide and silicon carbide.

Boron nitride, silicon nitride.

Boron phosphide, silicon phosphide, etc. The latter has extremely important uses, and can be used as high-temperature refractory materials (such as abrasives, casting molds, nozzles, high-temperature thermowells), heat-resistant materials (such as rocket structural elements, nuclear engineering materials, electric heating elements), electrical materials (such as high-temperature thermocouples, ignition electrodes), in addition to being used as chemical-resistant materials and hard materials. Heat-resistant polymers can be used as high-temperature film insulating materials, high-temperature resistant fibers, high-temperature resistant coatings, high-temperature resistant adhesives, etc.

According to the time of high temperature resistance, it is divided into instantaneous high-temperature resistant materials and long-term high-temperature resistant materials. The former can last from a few seconds to a few minutes at 1000 10000. Among them, the ablative material is also a high-temperature resistant material.

For example, at 300 600, it can maintain its mechanical strength, chemical resistance, etc. in the air.