What are the proportions for grade 300 concrete made from M500 cement?

Is there a universal proportion for mixing concrete? Common recommendations “three parts sand to one part cement” or “part cement, 4 parts gravel, 2 parts sand, 1/2 part water” will produce a “certain” cement mortar. However, if it is necessary to make high-quality concrete with brand (or almost) characteristics, then a professional approach is needed to the proportions.

To make concrete, cement, crushed stone, sand and water are mixed in the correct ratio. Cement plays the role of a binder and hardener, crushed stone and sand increase strength, and water provides plasticity and facilitates mixing.

Speaking of proportions, it’s worth starting by analyzing the components of the concrete mixture.

Concrete is used to make large multi-storey buildings, paths and small sculptures

Concrete composition: components, dimensions and characteristics

Most concrete consists of three main components:

  • The binder is most often cement, sometimes lime.
  • Fillers - sand, crushed stone, pebbles.
  • Water.

Different amounts of just three components give a wide range of qualities and characteristics. To impart special properties, various additives are still used, which further expands the scope of application of this material.

All these brands of concrete are made from the same components, but in different proportions

The main characteristic of concrete is its strength or load, which it can withstand for a long time without losing its strength characteristics. This is a key parameter when choosing a concrete grade for the foundation. Water permeability and frost resistance are also important. But these are the characteristics of the “ripened” material, which depend on the recipe. And when mixing, you may be interested in characteristics such as workability. It reflects the degree of concrete fluidity and depends on the amount of water in the composition. You can increase fluidity without adding water using additives, as well as increase frost resistance and water-repellent properties.

The strength of concrete depends on how accurately the recipe was followed, on the quality of the ingredients and on how thoroughly everything was mixed. Only with a homogeneous composition and high-quality components can design characteristics be achieved. Read more about what components can be used and the requirements for them at the end of the article.

Additives to concrete m300

As with any other solution, the M300 concrete mixture can include various chemical additives, which are sold in specialized stores. They significantly improve such technical characteristics of the material as moisture resistance, frost resistance, ductility, etc. If increasing the technical parameters of M300 concrete with the help of additional means is relevant, it is necessary to carefully calculate the estimate. What would be advisable - the creation of M400 concrete or the cost of additives - depends on the final goals and capabilities of the builders.

To obtain a first-class product, it is important to do everything quickly, but in stages. It is imperative to use, albeit a small, but professional machine for mixing concrete (concrete mixer), since it is almost impossible to manually create sufficient uniformity of the composition of the solution.

Principle of concrete marking

The main characteristics of concrete are its strength and compressive class. The compression class is indicated by the letter “B”, followed by class numbers from 3 to 40, the strength grade is indicated by the letter “M”, followed by numbers from 50 to 1000. They indicate the maximum load that this type of concrete can withstand. For example, the M300 brand means that the maximum load per 1 cm² cannot be higher than 300 kg.

In private construction, the most popular grades are M200-M250; for the foundations of two-story houses, M300-M350 concrete can be used; M400 is much less often poured - for heavy buildings on difficult soils. Higher ones are generally rare. Their area of ​​application is industrial construction and objects with special properties (piers, dams, roads, etc.).

The correspondence between concrete grades in terms of strength and compression is given in the table (used in private construction).

Concrete class by compressive strengthCompressive strength of concrete kg/cm2The closest concrete grade in terms of strength
AT 565.5M 75
B 7.598.2M 100
B 10131.0M 150
B 12.5163.7M 150
B 15196.5M 200
B 20261.9M 250
B 22.5294.4M 300
B 25327.4M 350
B 30392.9M 400
B 35458.4M 450
B 40523.5M 500

How to make M300 concrete with your own hands?

How to make M300 concrete with your own hands? M300 is the most popular brand of concrete, as it is used in both private and urban construction for completely different purposes. M300 concrete is so durable that it can even be used in the construction of airfield pavements, foundations, bridges, hydraulic structures, etc. At the same time, the final price of the resulting concrete mixture is available for individual use on a small scale.

Proportions of concrete of different grades

This entire range and range of qualities is obtained by using the same materials, just in different quantities. To achieve the required characteristics, the recommended proportions must be strictly observed.

When building your house, you want to do everything as best as possible, and therefore, when making concrete, you want to add more cement to make it stronger. This should not be done. It's unlikely to get better, but it could easily get worse. To gain strength, concrete needs a certain amount of water and other components. If there is little water, there is a lot of cement, bonds between particles are formed in insufficient quantities, which is why the concrete can crack and crumble. The same applies to the number of fillers. Both their too high and insufficient content negatively affects the qualities of concrete stone.

Concrete proportions are usually displayed in fractions. The amount of cement is taken as a unit, and the remaining components are prescribed in relation to it. The data is presented in the form of tables for the corresponding brands; the units of measurement must be indicated. You can see such a table of concrete components below.

Proportions of concrete of different grades from Portland cement M400 and M500

How to determine the required proportions of concrete using this table? In the second column, find the required grade of concrete. For example, you need an M250. Depending on which Portland cement you will use M 400 or M 500, choose one of two lines. The third column shows the proportions for concrete in kilograms: for 400 cement it is 1/2.1/3.9. This means this: to obtain concrete grade M 250, for 1 kg of Portland cement M400 you need to add 2.1 kg of sand and 3.9 kg of crushed stone. Similarly, determine the proportions for concrete M200 - the data for it in the table is slightly higher, or concrete M 300 - slightly lower.

The fourth column presents volume fractions: all components are given per 10 liters. They are selected in the same way.

Such tables do not indicate the amount of water. It depends on how thick the solution is needed. The water-cement ratio is given in separate tables. For example, below are data on the number of inputs in relation to a kilogram of cement, provided that medium-sized aggregates are used.

The amount of water to obtain concrete of the required grade when using medium-sized crushed stone and sand

For example, to obtain concrete grade M 300, the proportions of cement M 500 and water are defined as 0.61. This means that for 1 kg of cement, 0.61 liters of water (610 ml) are added to the solution. This produces a medium-plastic solution, which is used most often. >But when pouring foundations or other structures with dense reinforcement, a plastic solution may be needed. Then, when determining the amount of water, in addition to the brand of cement, it is also necessary to take into account the size of the aggregates and how fluid the solution should be. These data are presented in the table below.

The amount of water in concrete depending on the size of crushed stone/gravel and the fluidity of the solution

Sometimes it is necessary to determine how much cement you will need for a particular task. To do this, you need to know how much cement is contained in a cubic meter of concrete. Data on concrete and cement grades can be found in the table below.

Amount of cement per cube of concrete

How to make M300 concrete

Concrete proportions m300. There are no special features in the composition of the M300 concrete mixture, unlike M200, except for a wider range of fillers. In this case, gravel, limestone and granite are added.

So, in order to prepare one cubic meter (1m3) of M300 concrete, you will need:

  • 1 share of cement (this is approximately 382 kg);
  • 1.9 shares of dry sand (about 705 kg);
  • 3.9 shares of gravel/granite/limestone aggregate (total: about 1080 kg);
  • 0.5 parts of water (approximately 220 l).

Concrete weight m300 per 1m3 = 2393 kg.

To obtain a high-quality concrete mixture, it is necessary to carefully measure the proportions of the ingredients, mix them thoroughly and follow all technological processes for preparing the material.

Areas of use

We have decided what materials are required for concrete in what proportions, but what brand is needed? This depends on the purpose of the structure and its operating conditions. It will be easier to navigate if you know which grades of concrete can be used for what (let’s name only those that are used in the construction of a private house, its renovation or landscaping).

M100 (B7.5). This is the so-called lean concrete. It is used to prepare sites for critical structures. For example, when building a strip foundation, a layer of lean concrete is laid on a gravel-sand backfill, and then reinforcement work begins. The same composition is used when laying curb stones, for example, when making paths or blind areas around the house.

M150 (B12.5). This composition is used in preparation for slab foundations, for screeds, pouring concrete floors or garden paths. This type of concrete can be used to make foundations for small lightweight buildings such as a wooden bathhouse or a small guest house made of timber or logs.

M200 (B15). One of the most popular brands of concrete. It is used to make foundations of any type for light houses on normal soils, screeds, stairs, blind areas, paths. Cement blocks are made from this brand of concrete at home, and it is also used in factories for the production of foundation and building blocks.

The ratio of cement and sand for concrete affects the strength characteristics

M250 (B20). The scope of application is almost the same, but in more difficult conditions. They make any foundations on difficult soils, or on normal ones, but for houses built from heavy materials. They make blind areas that will be used as paths, external stairs, concrete porches, fences, etc. It is also used to make floor slabs for light loads.

M300 (B22.5). Also suitable for all areas listed above, but under even more severe operating conditions. They make foundations for heavy houses on heaving soils, make monolithic walls, paths, waterproof blind areas, etc. This brand of concrete is mainly used to make floor slabs and grillages for pile-grillage foundations.

M350 (B25). The strength of this brand for private construction is generally excessive. This concrete is used for the construction of monolithic pool bowls or for the manufacture of foundations at high groundwater levels, for other structures that require high water resistance. This brand is already more often used in industrial construction.

M400 (B30). This is already an expensive brand of concrete, which is used in facilities with special requirements: for large swimming pools, dams, bank storage facilities, etc.

Why M 300

Concrete M300 is the most common grade of concrete with the widest range of uses. The density of M300 concrete allows it to be used in the construction of road and airfield pavements, bridges, foundations, various reinforced concrete structures, hydraulic structures, etc.

The composition of M300 concrete is no different from similar brands. The same cement, water, sand and filler. To prepare M300 concrete, different types of fillers are used:

To mix concrete of this brand, cement grades M400 or M500 are used. In order to obtain high-quality concrete, you need to adhere to the technology of mixing the solution, use only high-quality fillers and strictly adhere to the proportions of the composition.

Preparation of concrete

For large volumes of work, it is better to order concrete from the factory. Making large quantities of mortar by hand or even using concrete mixers is a difficult task, and laying it in batches requires additional effort to ensure that the layers adhere well. However, you can prepare concrete manually. In this case, there are two sequences of actions:

  1. First, concrete and sand are mixed dry. It is mixed until the color becomes uniform. Then crushed stone is poured in, everything is mixed again, and water is added last.
  2. First, water is poured into it and cement is poured into it. When everything is mixed, add sand and then coarse aggregate.

The order of adding components for concrete during mixing may be different.

In the first option, there is a possibility that during manual mixing, unmixed composition will remain at the bottom, near the walls of the container, which will lead to a decrease in the strength of the concrete. The solution is to mix everything well and thoroughly. But you can’t spend too much time on this: the solution will begin to set.

The second option has its disadvantages: obtaining a homogeneous cement laitance (a mixture of water and cement) sometimes takes a lot of time. As a result, there is simply not enough of it to form bonds with the backfill: the cement “seizes” and the strength of the concrete also decreases.

All this is not so critical when using concrete mixers, but it is also not ideal. There is another difficulty here. Concrete is usually delivered to the construction site in carts. The entire volume does not fit into one, and the remainder is left to spin in a concrete mixer. This is better than leaving it just standing, but if you mix it too long, the solution may begin to delaminate, resulting in lower concrete strength. The solution is two carts and two people to carry them. The filling method - first or second - choose for yourself.

For small volumes, concrete can be mixed by hand

So after all, how to prepare concrete. The choice is yours. If the volumes are small, you can knead by hand. Just do it carefully. To pour the foundation, it is better to order a mixer, but you can also use a concrete mixer (or two, depending on the volume). And to solve problems with the heterogeneity of the mixture (although it is better that it is good), treat the concrete being laid with a vibrator. Most of the problems will go away.

Next, we will talk about the requirements for concrete components, their sizes and qualities.

Requirements for cements for concrete

For most construction work, cement concrete is used, where Portland cement is used as a binding component. There is also limestone, but its scope of application is limited mainly to finishing work, which is done “the old fashioned way.”

Types of Portland cement and their storage

There are several types of Portland cement: Portland slag cement, aluminous cement and pozzolanic cement. They all differ slightly in characteristics, but any are suitable for private construction. The difference can only affect the setting time: slag Portland cement takes the longest to harden - up to 12 hours, followed by standard Portland cement - up to 10 hours, and aluminous binder hardens the fastest - no more than 8 hours.

Cement for concrete must be dry, free-flowing and fresh

Cement is demanding on storage conditions, and especially humidity. For the manufacture of important structures - foundations, floors, etc. It is advisable to use fresh one, recently released from the factory. Within a month it loses up to 10% of its properties, and after 6 months they deteriorate by 30-35%. Therefore, for example, when pouring a foundation, it is better to take it a maximum of two weeks ago and purchase it shortly before use.

Store in a dry, ventilated area. If there is no room, they are stored under a roof or wrapped in several layers of film to protect them from moisture. Please note - wrapped, not covered. And preferably not on the ground, but on a wooden floor. The thing is that when moisture gets in, even in a vapor state, the cement becomes lumpy, which greatly worsens the characteristics of concrete. If there is an abundance of moisture, it simply becomes a stone and there is no way to use it. Therefore, take care of a place to store cement in advance.

Cement marking

What brand of cement should be used is usually indicated in the concrete recipe. It is designated by the letter M and numbers that indicate the maximum concrete strength that can be achieved with this binder. For example, with M400 grade cement you can get maximum concrete grade M400, as well as lower ones.

Next comes the letter “D” and numbers indicating the amount of impurities. M400 D15, means that there are 15% impurities in the binder. For construction work, this figure should not be more than 20%.

Fillers - crushed stone and sand

The composition of concrete is determined by the functions and characteristics of concrete that are necessary during its operation. The most common are sand and crushed stone. They are subject to no less stringent requirements than the quality of cement. Sometimes pebbles are used, but only if they have sharp edges and not round ones. In the presence of broken lines, the adhesion of the aggregate to the solution is better, as a result, the strength of the concrete is much higher.

Sand

Construction sand can be river or quarry sand. River water is more expensive, but it is usually cleaner and has a more uniform structure. It is best used when preparing concrete for pouring foundations and screeds. For masonry or plastering, it is appropriate to use cheaper quarry sand.

In addition to its origin, sand is distinguished by fractions. For construction work, large or medium ones are used. Small and dusty ones are not suitable. The normal size of sand grains is from 1.5 mm to 5 mm. But optimally in solution it should be more homogeneous, with a difference in grain size of 1-2 mm.

The sand must be clean, preferably with the same grain sizes

The cleanliness of the sand is also important. It should definitely not contain any foreign organic inclusions - roots, stones, pieces of clay, etc. Even the dust content is standardized. For example, when mixing concrete for a foundation, the amount of contamination should not exceed 5%. This is determined empirically. 300 ml of sand is poured into a half-liter container, everything is filled with water. After a minute, when the grains of sand settle, the water is drained and refilled. This is repeated until it is transparent. After this, determine how much sand is left. If the difference is no more than 5%, the sand is clean and can be used when mixing concrete for the foundation.

For those jobs where the presence of clay or lime is only a plus - when laying or plastering - there is no need to take special care of the cleanliness of the sand. There should be no organic matter or stones, and the presence of clay or lime dust will only make the solution more plastic.

Crushed stone

For critical structures - floors and foundations - crushed crushed stone is used. It has sharp edges that adhere better to the mortar, giving the structure greater strength.

Crushed stone fractions are standard:

  • extra small 3-10 mm;
  • small 10-12 mm;
  • average 20-40 mm;
  • large 40-70 mm.

In the batch, crushed stone is used in several fractions - from small to coarse

Several different fractions are used simultaneously in concrete. The largest fragment should not exceed 1/3 the size of the smallest element of the structure being poured. Let me explain. If a reinforced foundation is being poured, then the structural element that is taken into account is the reinforcement. Find the two elements closest to each other. The largest stone should not be more than 1/3 of this distance. In the case of pouring a blind area, the smallest size is the thickness of the concrete layer. Choose crushed stone so that it is no more than a third of its thickness.

Fine crushed stone should be about 30%. The remaining volume is divided between medium and large in arbitrary proportions. Pay attention to the dustiness of the crushed stone. Lime dust is especially undesirable. If there is a lot of it, the crushed stone is washed, then dried, and only then poured into concrete.

Aggregate storage

It is clear that a construction site is not the cleanest and most organized place, and sand and crushed stone are often dumped directly onto the ground. In this case, when loading, you must ensure that no soil gets into the mix. Even a small amount will negatively affect the quality. Therefore, it is advisable to pour aggregates onto solid areas.

It is also necessary to protect them from precipitation. In concrete formulations, the number of components is given based on dry components. You learn to take into account the moisture content of components with experience. If you don’t have one, you have to take care of the condition and cover the sand and gravel from rain and dew.

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