2,150 F
There's no city there. That point is in the sea, about 5 miles off the coast of China near Qinhuangdao. If you're fishing for 'Beijing', your cast has landed in the water about 190 miles east of the center of the target.
There's no city there. That point is in the sea, about 6 miles off the southwest coast of Hokkaido, the northernmost of Japan's major islands. If you're fishing for 'Tokyo', your cast has landed in the water about 430 miles north of the target.
Steel is a valuable alloy which is used in many applications. The four properties which make it important are rust resistance, low melting point, it is easy to weld, and it is possible to cast it in molds.
Cast aluminum alloys contain significant amounts of silicon which results in low melting points. This silicon leaves a poor surface finish when electropolishing.
Short answer: Very carefully Longer answer: Melt chunk aluminum in a crucible at 1500 degrees F skim the slag, and pour into sandmold. be careful!!
There is no definitive answer to this. It is determined by the melting point of the metal. It is also determined by the purity of the metal. For example, Mercury has a melting point of -38.2 degrees Fahrenheit while Tungsten has a melting point of 6,170 degrees Fahrenheit.
1538 degrees Celsius.
Compared to common air temperatures, yes. It is equal to 2264 °F, which is higher than the melting points of the metals copper and gold, and only slightly lower than the melting point of cast iron (about 1260 °C).
The ADC12 Melting Tempreture arround 550+/-50 degree.
aluminum about 1200 deg F zinc about 800 deg F
Knowing the melting point of a substance provides information to determine what the substance is if its unknown. If you are making a substance, checking the melting point will let you know if you have made what you set out to make, (because impurities can mess up the melting point)
The low carbon concentrations (0.05-0.15%) in mild steel do not have a major effect on the melting point of iron, which is 1538 centigrade. Looking at the Iron-Carbon phase diagram show that the reduction from this melting temperature will be only a few degrees. At higher concentrations of carbon (2-4%), as in cast iron, the melting temperature is substantially reduced. The alloy starts melting at 1154 centigrade, and is completely molten by 1200-1400 centigrade depending on carbon content.
1500 degrees CThe melting point of pure iron is 2800 degrees F. Stainless steel is iron mixed with other elements. Normally, the purpose of the mixture is to increase the melting point. So I would say stainless steel melts at a temperature higher than 2800 F.
So far it's very good however very heavy, aluminum can be used but has a klow melting point.
I am not aware of a cast iron rod for oxy acetylene welding, I am for arc welding, For cast, I use a brazing rod, a brass or copper alloy, but what do I know. If there is a cast rod available, it would be the same process, get the cast you are welding hot almost to the point of melting, bring in the rod, heat it at the same place and bring both to a melting point. Work from that point along the crack or joint you are welding. ----------------------------------------------------------------------------------------------------------------- You need not use brazing rod for case iron welding. You get arc welding electrodes for cast iron. Use appropriate grade of rod for your case iron under welding.
It can be recycled just like any other type of glass. Simply heat it past its melting point, and re-cast it into something new.
The cast of Fahrenheit - 2003 includes: Ismael Fritschi