Corn oil: benefits and harms, tips for use. Corn oil Specifications according to GOST

Corn (maize) oil is not the most popular among vegetable oils, and it cannot be said that it is much more useful than others, for example, sunflower or soybean. It cannot boast of history either. Many vegetable oils were known and widely used in antiquity, and edible corn oil was obtained only in late XIX century in the USA. However, this oil also has its advantages.

Rich set found in corn oil useful substances: beta-carotene, vitamin C, vitamin K, B1, B2, B3, and the content of vitamin E in it is especially high (almost 2 times higher than in). It also contains a complex of polyunsaturated fatty acids called vitamin F, lecithin and other useful substances.

Corn oil contributes to the normalization of fat metabolism.

Nutritionists advise people suffering from illnesses to use this vegetable oil. of cardio-vascular system and atherosclerosis. The complex of polyunsaturated fatty acids and lecithin contained in the oil contribute to the normalization of fat metabolism in the body, which leads to a healthy level of cholesterol in the blood. It is especially important that the level of so-called bad cholesterol decreases and the risk of atherosclerotic plaques and blood clots in the vessels decreases.

Due to the normalization of fat metabolism, corn oil helps to get rid of excess weight Therefore, it is often a component of diets. Like most vegetable oils, it has a laxative effect by gently stimulating intestinal motility. In addition, the digestive processes are activated due to the choleretic action of the oil, since it increases.

Corn oil in varying degrees is useful for almost all body systems. When it regular use food reduces the risk of cancer, diseases of the nervous system, slows down the aging process of the body and improves the immune status. Due to the high content of vitamin E, this product is able to improve the condition of the skin and hair, which is why it is recommended to add it to the diet of people with dry and flaky skin.

Corn oil is very useful for children, it is considered the safest (allergy to it is extremely rare), it is easily absorbed by the body and contains a whole range of substances that contribute to normal growth and development.

Harm of corn oil

Healthy people should not abuse corn oil because of its high calorie content and a large amount of vitamin E in the composition. In order for the body to receive a portion of useful substances, it is enough to consume 1-2 tablespoons of this oil per day.

Production and application of corn oil

Corn oil is produced from corn germ, which is a by-product of the processing of this raw material. Oil is obtained by pressing (cold or hot raw materials) or extraction. Refined and deodorized corn oil is used for food. Depending on the processing method, several brands of this product are distinguished (we note those that can be found on store shelves):

brand D - refined and deodorized corn oil intended for baby and diet food;

brand P - also refined and deodorized oil, is supplied to the retail trade network and for catering enterprises.

Other brands of butter are used in the production of margarine and for technical purposes.

Refined corn oil should be clear, light yellow in color, practically tasteless and odorless. Many people believe that unrefined vegetable oils are much healthier than refined ones, so they are in no hurry to purchase the latter. However, a refining process is required for corn oil that will be used for food purposes. This is due to the fact that when preparing raw materials for pressing, various chemicals are used, which are then completely removed from the finished product. In addition, when growing corn on an industrial scale, various fertilizers are often used, as a result of which harmful substances can enter the oil, which are also removed from it during refining.

Calories, kcal:

Proteins, g:

Carbohydrates, g:

Corn oil is a fatty vegetable oil obtained from corn seeds. Corn oil has a pleasant smell and taste. Color - from light yellow to reddish brown.

corn oil calories

The calorie content of corn oil is 899 kcal per 100 grams of product.

The composition and useful properties of corn oil

The main advantage of this food type of oil compared to other vegetable oils is a large amount (), which is the strongest antioxidant that protects the body from premature aging, as well as corn oil, thanks to, promotes the proper functioning of the gonads, will be useful for women during pregnancy , protects cells from possible mutations (calorizator). Corn oil strengthens the body's defenses, fights fatigue and muscle weakness, due to the presence, this type vegetable oil contributes to the prevention of atherosclerosis, reduces the likelihood of blood clots.

Due to its balanced composition, corn oil is easily absorbed by the body. It is an easily digestible dietary product.

The use of corn oil in cooking

Corn oil is widely used in cooking. Sauces, mayonnaise are prepared from it, used in baking culinary products, used in the manufacture of food for children.

Types and brands of corn oil

Corn oil is divided into types and grades:

• unrefined,
• refined non-deodorized,
• refined deodorized brand D (for the production of baby and diet food),
• refined deodorized grade P (for delivery to retail chains and public catering establishments).

To obtain oil, corn germ is pressed or extracted. Refined corn oil has a golden yellow color; it is used in the manufacture of confectionery.

Oil from corn kernels cannot be stored for a long time, so it acquires an unpleasant odor. Therefore, on the shelves of stores it comes refined. The deodorization process removes specific odorous substances from corn oil.

Polyethylene heat-shrinkable film with folding (folded) grade "P" is made exclusively from virgin polyethylene high pressure(PVD) brand 15303-003 (15313-003), the highest grade. Designed for packing products on pallets in fully automatic lines using robotic arms. It combines two properties - firstly, it protects products on pallets from dust, dirt, moisture and damage, and secondly, due to high shrinkage properties, it securely fastens products on pallets, excluding their mobility and eliminates additional fastening methods such as tying with polypropylene and metal tapes. All over the world, this technology has existed for several decades and today remains a leading and promising one. This method simplifies the packaging process, reduces the number of people involved in product packaging, is the most reliable and cheapest way..

Polyethylene heat-shrinkable film with folding (grade "P") is produced with a thickness of 0.040 to 0.220 mm, a sleeve width of up to 1500 mm, a fold depth of up to 600 mm. It is wound on cardboard and paper spools of foreign production, the weight of the rolls depends on the desire of the customer and can be in the range from 50 to 500 kg. All rolls are packed in a polyethylene film; on an additional order, it is possible to pack rolls in rigid paper or cardboard.

Most consumers of shrink films and folded bags (grade "P") are faced with the problem of storing finished products for a long time in open areas. As a rule, the film (especially in the spring-summer period) becomes unusable, cracks and completely loses its properties after 2-3 months, you have to repack and reject products, spending more effort and money on this than in the initial period. It is possible to slow down the aging process of the film by introducing special stabilizers into it during the production, which can extend its service life. But, unfortunately, these additives that are on sale are very expensive, on average, with the "honest" introduction of such additives, the film becomes more expensive by 8-10 rubles per 1 kg of film, while it is virtually impossible to calculate the actual service life of the film, and testing for its weather resistance takes up to 30 days and their cost reaches 50,000 rubles. At the same time, all additives are sold in the form of superconcentrates made on the basis of linear polyethylene, therefore, with their large introduction (more than 3%) into the film, they can change its physical and mechanical properties, which can adversely affect the storage and further transportation of finished products on pallets.

We were able to completely solve this problem thanks to our own scientific base and many years of experience in the production of films for the agro-industrial complex. in 1993, the film and component were developed and patented stable , which fundamentally changed the idea of ​​polyethylene films used to cover temporary and greenhouse structures. Thanks to the additive stable service life of a polyethylene film in the temperature range from -65°C to +80°C has reached 15 years (with year-round use). In 2002, we introduced this technology to films used for packaging various products. Products (roofing materials, bricks, glass containers, etc.) released in the autumn period are quite calmly packaged until spring, summer or autumn, without causing any worries to the manufacturer and consumer. When adding an additive stable the physical and mechanical properties of the film do not change, the price increases by no more than 5 rubles per 1 kg, while the service life of such a film can reach three years. Taking into account the initially low prices for our products, such additional properties make it irreplaceable.

In the process of building a house or structure, as well as in the case of roof repairs milestone is a roofing material. To date, there are a huge number of them, so the optimal choice is quite problematic. First of all, such a material must meet the operating conditions, design and loads.

Material Description

Glassine, which performs the function of a vapor barrier and roofing material, is in great demand. The main material is cardboard (intended for roofing), which is further impregnated with bitumen. The cardboard itself includes about 20-40 layers of flax fibers, cotton, wood or straw, rag masses and other components.

The non-woven materials that make up the cardboard are necessary for its good absorbency. Giving glassine the best technical performance is carried out if the cardboard lends itself to a press under a pressure of about 300 g/m2. The material itself has become a modern and improved continuation of roofing felts.

Glassine in construction

Types and brands of glassine

Glassine can be both liquid and roll material. In the first case, glassine is a polymeric water-displacing composition designed to protect wooden surface from decay. It is used in the construction of baths, log cabins and houses made of wood, as well as in protecting the concrete base of the foundation from negative impact moisture.

The second variety is rolled glassine. Its production is carried out in accordance with GOST and is a cardboard that is impregnated with bitumen.

According to the thickness of the cardboard and the type of bitumen, there are such brands of glassine:

• Mark P250. Such glassine has the smallest thickness and at the same time it is characterized by high strength and elasticity. When the material is stretched, the breaking force is from 15 kgf. With a pressure of 0.001 MPa, glassine of this brand will provide protection from water for 10 hours.
• Brand P300. The material is quite strong and elastic. Breaking force in case of stretching - 22 kgf. About 20 hours glassine of this brand will protect the surface from moisture.
• Brand P350. Breaking force - more than 27 kgf, and water absorption - up to 20% of the mass of the material. About 20 hours there will be no sign of water on the surface of the material at a pressure of 0.001 MPa.

It is worth noting that the higher the brand of glassine, the better and more durable it is.

In the photo - liquid and rolled roofing glassine

Liquid glassine Roofing glassine in rolls

Specifications according to GOST

GOST 2697-83 standards apply to glassine, which is a lining material. This material is used as the initial layer of the roofing system.

Glassine brand P350 is a type of roll with a size of 100, 125 or 150 cm +/- 0.5 cm. The total area will be 20 or 40 m2 and weighing 15 kg and 30 kg, respectively. A slight deviation in weight is not a sign of marriage.

Technical requirements and properties:

1. The ratio of the mass of bitumen and cardboard is from 1.25 to 1 part of the cardboard.
2. Explosive load in the process of stretching from 27 kgf.
3. The degree of water absorption (vapor permeability) up to 20%.
4. With a pressure of 0.001 MPa, after 10 minutes, no sign of water ingress should appear on the reverse side.
5. Uniform impregnation over the entire surface and thickness of the web. When cutting glassine, it should be black, a brown tint is possible.
6. The thickness of the matte surface of glassine without irregularities is more than 1 mm.
7. No cracks, holes or other damage. A maximum of two tears with a length of 1 cm to 3 cm are allowed along the edges.
8. The length of the canvas in a roll is at least 3 m.
9. Straight cut ends.

Glassine is enough safe material. This is due to the fact that no harmful substances are used in the process of its production, and the production itself does not harm environment. But at the same time, with an increase in the temperature in the environment, a chemical smell will come from the glassine.

Glassine is a new roofing material produced in the form of a roll. It serves as an improved continuation of roofing felts, as it is cardboard impregnated with bitumen. - this is the retention of moisture and steam from their ingress into thermal insulation materials.

Glassine or isospan

Izospan is a vapor and moisture insulating material that protects the building from the negative effects of moisture both outside and inside the house or building. To make the right choice in favor of glassine or isospan, it is necessary to study their advantages and disadvantages.

Benefits of parchment:

• High mechanical strength;
• Low price;
• Availability;
• High resistance to water.

Isospan benefits:

• High strength;
• Environmental Safety;
• Possibility of adding fire-fighting components;
• Moisture resistant.

It looks like isospan

Disadvantages of parchment:

1. Strong smell. It appears when the temperature in the environment rises. Weathered for too long;
2. Short service life (5-7 years);

Isospan disadvantages:

1. Low strength;
2. Lets water through in a horizontal position.

If we compare these two materials, then it is better to choose isospan for vapor barrier of a dwelling, and for a garage, attic and others non-residential premises parchment is the best option.

Table 1. Comparative characteristics on a 5-point scale

Glassine or ruberoid

Ruberoid is used as a roofing and waterproofing material. It is made by bituminous impregnation of roofing paper, like glassine, but with an additional coating of both sides with refractory bitumen and sprinkling with talc or asbestos.

Both roofing material and glassine are rolled insulating materials. In glassine, due to the lack of an additional coating, resistance to biological effects is several times worse. In the process of ignition, the roofing material will begin to melt, and the glassine will burn.

Glassine is often used in front of the roofing felt as a heat and vapor barrier. And for waterproofing outside - not suitable. Roofing material, in turn, is able to protect the roof and walls from moisture and the negative effects of the environment.

Table 2. Comparative characteristics on a 5-point scale

The process of making parchment

Works on the production of glassine include a number of stages:

• Unwinding and gluing roofing type cardboard;
• Its watering and impregnation with bitumen in a special bath;
• Additional impregnation with the same composition in the chamber;
• Cooling of finished products;
• Winding in rolls.

In order to make glassine, roofing aggregates of universal use are used, which are designed for most roll materials. Finished products must have a certificate of conformity.

Concrete is simply an indispensable material for construction, which is used everywhere. But in order to choose the right type of mortar, it is necessary to take into account the main characteristics of the mass, such as workability, draft of the cone and mass mobility. And just about what is the mobility of concrete and will be discussed in this article.

Basic terms and definitions

Before defining the main characteristics of the solution, it is necessary to clearly understand what this construction material.

Concrete is a composition consisting of four main components:

1. Cement;
2. Sand;
3. Water;
4. Rubble.

Note! If in, then it's just cement.

The main task . Achieving this goal is possible only if the correct proportions of the two main components such as water and cement are observed.

Sand and crushed stone are referred to as composition fillers, and are used to give strength to the mass and reduce possible deformations of a monolithic product after solidification. It is these fillers that make up the structural frame of a monolithic product, which makes it possible to increase the elasticity of the structure and reduce deformations under severe loads.

Mobility

The mobility or elasticity of the solution is an important property that can affect the choice of material for the construction of buildings and structures for various purposes. Mobility is the ability of a mass to fill the form in which it is placed.

Note! The ability of the mass to fill the form can be manifested both under the influence of external forces and under the influence of its own mass.

The mobility of the concrete mixture according to GOST is divided into 4 categories from p2 to p5, depending on the amount of added liquid. The less liquid, the thicker the solution, the thickest has an indicator of n2, the most liquid, respectively, n5.

In terms of plasticity, building materials are divided into 2 groups:

1. Slow-moving mixtures or rigid. They contain a small amount of water and are not capable of filling the form in which they are placed under the weight of their own weight without the influence of external forces. Such compositions have indicators n2 or n3. Laying of a slow-moving mass is carried out using vibrating and compacting equipment, which allows you to remove voids from the monolith;

Advice. If construction work using rigid concrete is carried out in winter, the solution must first be heated.

1. Mixtures with high mobility, liquid or pourable. Solutions of this type have indicators equal to n4 or n5. Such masses are used in the process of pouring formwork, heavily reinforced products and do-it-yourself columns.

Dilution with water

The low elasticity of the material can significantly increase the production time construction works provided that the necessary equipment is not available at the construction site. And in order to solve this problem, many resort to the dilution method, making mixtures of p2-p3 mixtures of p4-p5.

If the compaction is done correctly and the thinning method is eliminated, you will get a solid, reliable structure that can be machined by methods such as cutting reinforced concrete with diamond wheels and diamond drilling holes in concrete.

Mobility indicators

In the case when the concrete grade for mobility was chosen correctly, but it is ordered from the supplier and you have doubts about the compliance of the delivered product with the declared characteristics, and the price of the mixture is not so low, then you can check at the construction site.

The determination of the mobility of the concrete mixture can be made directly during unloading in 2 ways:

• Determination by the monolith analysis method;
• Cone for determining the mobility of the concrete mixture.

Elasticity determination by monolith analysis

The instruction for such a check stipulates the possibility of determining any indicator of the plasticity of the mixture:

1. Before starting the test, you should build from wooden planks several boxes in the shape of a cube with a side size of 10-15 cm;
2. Before pouring concrete into prepared forms, the wood should be slightly moistened to prevent moisture from being taken from the solution;
3. The solution is poured into boxes, after which the mass must be pierced with a sharp bar of reinforcement, thus compacting the monolith and releasing air;

Advice. Additional sealing can be achieved by tapping the sides of the drawers with a hammer.

1. The cubes must dry for 28-30 days at a temperature of at least 20 0 C and a humidity of at least 90%;
2. After the created samples dry, they should be sent to the laboratory, where the mixture will be checked for compliance with the declared indicators.

A clear disadvantage of this method is its duration, therefore, the method of determining plasticity using a cone is more often used.

Determination of elasticity by a cone

In the photo - a diagram of the cone

To apply this method, you will need a cone to test the mobility of concrete with a height of about 30 cm. In this form, no more than 6 liters of material should be placed.

This check is performed as follows:

1. The cone is filled with a solution;
2. Concrete is bayoneted to compact and remove voids;
3. The cone is removed and placed next to the solution;
4. We perform an elasticity test:
   • If the concrete settlement is 5 cm, then you have hard concrete;
   • If the draft is more than 5 cm, then you have moving concrete in front of you.

Finally

When working with concrete, it is necessary to choose the right brand of material in accordance with the elasticity of the mass and the purpose for which it will be used. Well, if you doubt that, for example, the mobility of P3 concrete, it is easy to check using the methods described.

The video in this article will tell you even more about how important it is to correctly select concrete in accordance with the mass elasticity parameters.