Silicon dioxide is a trace mineral found naturally in many plant foods and is added to many multivitamin supplements. It is necessary for healthy bones, skin, hair and nails. It is often added to processed foods to keep them fresh and appetizing. You can find the important mineral in foods sources.
As a trace mineral, only a small amount is needed daily. Many nutritionists believe the human body requires about 5-10 mg of this mineral each day.
Since the recommended daily allowance of silicon dioxide is relatively low, it is easy to get the correct amount if you eat a well-balanced diet.
The fruits highest in the mineral include raisins, grapes, oranges, apples, cherries and plums.
Vegetables high in the mineral include artichokes, beans, peas, asparagus, beet, greens of all kinds, celery, cucumbers, lettuce, radishes and onions.
In addition to the other nutrients in nuts, almonds and peanuts contain moderately high amounts.
Also known for high nutritional value, roasted sunflower seeds also contain a healthy amount of silicon dioxide.
Roasted pumpkin seeds have a moderate amount so make a simple but healthy snack.
Rice, oats and whole grain breads have high contents. Eating whole grains is an easy way to fill the daily requirement for this trace mineral.
Normal drinking water is a possible source of silicon dioxide. Hard water has higher levels of the mineral than soft water.
Coffee, tea and other beverages made with water will contain some amount of it. Beer is an excellent source of the mineral in addition to being a tasty drink. The silicon dioxide in beer is in the form of orthosilicic acid, which is important for bone health and to prevent osteoporosis.
Horsetail has the most amount of all the herbs. Parsley and garlic are two other herbs that provide a relatively high amount of the mineral. Horsetail is believed to be highest in silicon dioxide. You can find extracted horsetail powder from pharmaceutical companies.
It is added to powdered foods and other health food supplements to keep other ingredients from binding together. For example, manufacturers add silicon dioxide to salt and many spices to keep those dry substances from clumping.
Silicon dioxide is critical for the development of strong nail, bones, teeth and hair. Research indicates that a lack of this mineral may lead to arthritis, poor bone formation, unhealthy skin and poor tooth development. It also counteracts the effects of aluminum in the body, which may help prevent Alzheimer's disease.
Because it's a crystal, it can be an eye irritant if direct exposure occurs. When eyes are exposed to this mineral, the result will be red and watery eyes. If skin is directly exposed to silicon dioxide, the skin may become irritated and itchy. If silicon dioxide is inhaled over time such as can happen with miners, lung damage and potentially lung cancer may result.
When used in food, the proportion must be strictly controlled. The mineral should be no more than 2 percent of the total weight of the food. It is also critical that the particle size of silicon dioxide be within limits defined by the Food and Drug Administration.
In addition to its use in food, there are also manufacturing uses. These include:
This element has an extremely high melting point so is useful in electronics where high heat is produced. The mineral is essential for manufacturing fiber optic cables, semi-conductors, and insulation for wires.
Silicon dioxide has piezoelectric properties. These properties allow the mineral to convert one form of energy to another. For example, it allows mechanical energy to be converted to electrical energy. This conversion of energy enables television and radio stations to transmit signals.
Silica is one of the primary components of glass. Mixed with soda and boron oxide, silicon dioxide creates glass that is highly heat resistant. Thus, in addition to other glass products, it is critical in the creation of heat resistant cooking utensils.
Silicon dioxide is critical in the production of cement. Cement is added to other ingredients to make concrete -- the building block of much of the world's infrastructure.
Finally, this element is critical for production of refractory materials. These materials used in building and other areas are highly shock resistant.