Sulphur-concrete is obtained by adding sulphur to a concrete mix instead of portland cementand is claimed to be corrosion resistant, of high strength, and with fast-curing time.
SULPHUR is the English spelling whereas SULFUR is the American spelling.
I have also seen it spelled as SULFER
For a more technical explanation see "What is Sulphur Concrete?"
I did a science project on producing concrete with molten (heated) sulfur to see if it was possible to make concrete without water. (It was.) I boiled my sulfur at 302 degrees fahrenheit, which is 150 degrees celsius. I am not sure if this is the exact boiling point, but the sulfur does boil at this temperature.
Sulfur dioxide can react with moisture in the air to form sulfuric acid, which can corrode building materials such as metal, stone, and concrete. This can lead to degradation of building structures and surfaces, causing potential structural damage and aesthetic deterioration. Regulatory measures are in place in many regions to control sulfur dioxide emissions to mitigate these effects.
Both sulfur and sulfur dioxide molecules contain atoms of sulfur. However, sulfur is a diatomic molecule (S2) while sulfur dioxide is a triatomic molecule (SO2), consisting of one sulfur atom and two oxygen atoms. Additionally, both molecules have a distinct sulfur smell.
Sames as English - sulfur. Also spelled 'Sulpur.'
1 mol Sulfur is 32 g Sulfur So 2.5 mol Sulfur is 80 g Sulfur
The main components of concrete are calcium silicates. However, it always has a small portion of plaster, in order to slow down the solidification process, so that it does not become solid too soon. As plaster is hydrated calcium sulphate, the answer is YES, concrete has a small portion of sulfur in sulphate form.
I did a science project on producing concrete with molten (heated) sulfur to see if it was possible to make concrete without water. (It was.) I boiled my sulfur at 302 degrees fahrenheit, which is 150 degrees celsius. I am not sure if this is the exact boiling point, but the sulfur does boil at this temperature.
William C. McBee has written: 'Modified-sulfur cements for use in concretes, flexible pavings, coatings, and grouts' -- subject(s): Sulphur cement 'State-of-the-art guideline manual for design, quality control, and construction of sulfur-extended-asphalt (SEA) pavements' -- subject(s): Asphalt Pavements, Sulfur, Sulphur 'Corrosion-resistant sulfur concretes' -- subject(s): Corrosion, Sulphur concrete 'Sulfapave' -- subject(s): Concrete Pavements, Corrosion, Sulphur concrete 'Isothermal aging of vapor deposited aluminum-copper alloy films' -- subject(s): Aluminum-copper alloys 'Sulfur construction materials' -- subject(s): Sulphur in building
Sulfur-32, Sulfur-33, Sulfur-34, Sulfur-36
Sulfur oxide can refer to both sulfur dioxide (SO2) and sulfur trioxide (SO3). The word equation for sulfur dioxide is sulfur + oxygen → sulfur dioxide. The word equation for sulfur trioxide is sulfur + oxygen → sulfur trioxide.
SCl4 is the chemical formula for sulfur tetrachloride.
The combustion of sulfur is called sulfur combustion or sulfur burning. When sulfur combusts, it reacts with oxygen to produce sulfur dioxide gas.
One if it is pure sulfur. Sulfur is an element so the on atom is sulfur!
Sulfur is a nonmetal. Sulfur is a solid.
Sulfur dioxide can react with moisture in the air to form sulfuric acid, which can corrode building materials such as metal, stone, and concrete. This can lead to degradation of building structures and surfaces, causing potential structural damage and aesthetic deterioration. Regulatory measures are in place in many regions to control sulfur dioxide emissions to mitigate these effects.
Sulfur dioxide (SO2) consists of one sulfur atom and two oxygen atoms. The percentage of sulfur in sulfur dioxide is calculated as the mass of sulfur divided by the total mass of the compound, which is 32.07 grams per mole for sulfur and 64.07 grams per mole for sulfur dioxide. This means that sulfur represents 50% of the total mass of sulfur dioxide.
There are several allotropes of sulfur, with the most common ones being rhombic sulfur and monoclinic sulfur. Other allotropes include cyclo-sulfur and plastic sulfur.