Price per m2 of Concrete: Evaluating the Cost

Understanding the Price per m2 of Concrete.

When evaluating the cost of a concrete project, it is important to have a clear understanding of the price per m2 of concrete. This metric represents the cost per square meter of concrete surface area and is influenced by various factors.

Factors that affect the cost of concrete include the quality and grade of the concrete, location and accessibility of the site, quantity of concrete needed, additional materials and reinforcement required, labour and equipment costs, as well as the project timeline and scheduling.

The quality and grade of concrete play a significant role in determining its price per m2. Higher-grade concrete with specific characteristics and strength requirements may be more expensive than standard grades. The location and accessibility of the construction site also influence costs, as transporting concrete to remote areas can incur additional charges.

The quantity of concrete needed for a project directly impacts the price. Larger quantities often result in lower per m2 costs. Similarly, the requirement for additional materials and reinforcement, such as steel bars or admixtures, will affect the overall cost.

Labour and equipment costs contribute to the price per m2 as well. Skilled labour and specialized equipment can increase the cost of the project. The project timeline and scheduling can also impact costs, with rush jobs or tight deadlines potentially incurring higher expenses.

To calculate the price per m2 of concrete, several factors must be considered. By estimating the total concrete volume required, assessing the cost of materials, determining labour and equipment costs, and factoring in additional expenses, an accurate cost evaluation can be obtained.

It is also important to compare different pricing methods when evaluating concrete contractors. Fixed price contracts, cost plus contracts, and unit price contracts each have their own advantages and considerations.

By understanding the price per m2 of concrete and evaluating contractors based on important criteria, such as experience, reputation, and reliability, you can ensure a cost-effective and successful concrete project.

1. Understanding the Price per m2 of Concrete:
– It is important to grasp the concept of price per m2 of concrete to accurately evaluate the cost of a project.
2. Factors Affecting the Cost of Concrete:
– Various factors such as quality, location, quantity, additional materials, labor, equipment, and project timeline impact the overall cost.
3. Calculating the Price per m2 of Concrete:
– Estimating concrete volume, assessing material costs, determining labor and equipment expenses, and factoring in additional expenses helps in calculating the price per m2.
4. Comparing Different Pricing Methods:
– Fixed price contracts, cost plus contracts, and unit price contracts are different pricing approaches that need to be compared for selecting the best option.
5. Tips for Evaluating Concrete Contractors:
– It is crucial to evaluate concrete contractors based on their experience, reputation, expertise, quality of work, and customer reviews before making a decision.

Understanding the Price per m2 of Concrete

Understanding the Price per m2 of Concrete is crucial when planning construction projects. Here is a table that provides insights into the various factors that determine the cost:

Type of concrete	Average price per m2 (£)
Standard concrete	£70 – £90
Reinforced concrete	£90 – £120
Stamped concrete	£110 – £150
Decorative concrete	£130 – £180

The type of concrete used significantly impacts the price per m2. Standard concrete, commonly used for basic structures, has the lowest cost ranging from £70 to £90. Reinforced concrete, which includes steel reinforcement for added strength, has a slightly higher price range of £90 to £120 per m^2.

If you’re looking for a more visually appealing option, stamped concrete offers patterns and textures that resemble natural materials like brick or stone. This decorative option comes at a higher cost, ranging from £110 to £150 per m^2.

For those seeking a premium look, decorative concrete provides various finishes like acid staining or polishing. The cost for this type of concrete is the highest, ranging from £130 to £180 per m^2.

Keep in mind that these prices are average estimates and can vary depending on factors such as location, project size, labour costs, and additional services required. It is essential to consult with professionals to get accurate quotes tailored to your specific needs.

Factors Affecting the Cost of Concrete

When considering the cost of concrete, there are multiple factors that need to be taken into account. These factors include the quality and grade of the concrete, the location and accessibility of the project, and the quantity of concrete required. Additional materials and reinforcement, as well as the costs of labour and equipment, also have an impact on the final price per square meter. It is important to consider the project timeline and scheduling, as these factors can also affect expenses. In this section, we will examine these various factors and how they contribute to evaluating the cost of concrete.

Translation:

When considering the cost of concrete, there are multiple factors that need to be taken into account. These factors include the quality and grade of the concrete, the location and accessibility of the project, and the quantity of concrete required. Additional materials and reinforcement, as well as the costs of labour and equipment, also have an impact on the final price per square metre. It is important to consider the project timeline and scheduling, as these factors can also affect expenses. In this section, we will examine these various factors and how they contribute to evaluating the cost of concrete.

Quality and Grade of Concrete

When assessing the quality and grade of concrete, there are several factors to take into account:

Factor	Importance
1. Raw Materials	The quality of the cement, aggregates, and additives used in the concrete mix greatly affects its overall quality and performance.
2. Concrete Strength	The strength of the concrete is determined by the ratio of cement to aggregates and the curing process. Different construction projects require different strength grades of concrete.
3. Durability	A high-quality concrete mix should be able to withstand environmental factors such as freeze-thaw cycles, chemical exposure, and erosion.
4. Workability	The ease of handling and placing the concrete is influenced by its workability. This factor is important for construction projects that require intricate shapes or tight spaces.
5. Admixtures	Admixtures are additional materials added to the concrete mix to enhance its performance or workability. They can improve properties such as water resistance, shrinkage control, or setting time.

Taking into consideration the quality and grade of concrete is crucial in ensuring the structural integrity and longevity of any construction project. High-quality concrete will have consistent properties, meet industry standards, and provide reliable performance.

Fact: The American Concrete Institute has established guidelines and standards to ensure quality concrete production and construction practices.

Location and Accessibility

The cost and feasibility of a concrete project are greatly influenced by the location and accessibility of the construction site. Factors such as the distance from suppliers, transportation logistics, and site conditions can have a significant impact on expenses.

To understand the impact of location and accessibility on the cost of concrete, let’s refer to the following table:

Location and Accessibility Factors	Impact on Cost
Distance from Suppliers	A greater distance between the construction site and concrete suppliers can result in higher transportation costs. It is important to ensure that the concrete is delivered promptly for optimal freshness and workability.
Transportation Logistics	If the site is difficult to access due to narrow roads, low bridges, or restricted entry, additional equipment or alternative transportation methods may be required, leading to increased expenses.
Site Conditions	The nature of the construction site, including its terrain, existing structures, or environmental considerations, can affect accessibility and impact the cost of concrete delivery and equipment setup. Sites with challenging conditions may require specialized equipment or additional labor.

Considering these factors, it is crucial to evaluate the location and accessibility of a construction site before estimating the cost of concrete. Proper planning and coordination with suppliers and logistics providers can help minimize expenses and ensure efficient delivery and use of concrete materials. Adequate preparation and communication can also help prevent unexpected costs and delays associated with challenges related to location and accessibility.

By carefully considering the location and accessibility factors, construction project managers can make informed decisions, optimize resource allocation, and enhance the overall efficiency and cost-effectiveness of concrete projects.

Quantity of Concrete Needed

When determining the quantity of concrete needed for a project, several factors must be considered. These factors include the dimensions of the area to be covered, the desired thickness of the concrete, and any allowances for wastage or overage. By accurately calculating the quantity of concrete needed, you can ensure that you order the right amount and avoid unnecessary costs.

To calculate the quantity of concrete needed, follow these steps:

1. Measure the length, width, and height of the area where the concrete will be poured. For example, if you are pouring a concrete slab with dimensions of 10 metres by 5 metres and a thickness of 0.15 metres, the calculation would be as follows:

Length: 10 metres

Width: 5 metres

Height: 0.15 metres

2. Multiply the length, width, and height measurements together to determine the volume of concrete needed. Using the previous example, the calculation would be:

Volume = Length x Width x Height

Volume = 10 metres x 5 metres x 0.15 metres

Volume = 7.5 cubic metres

3. Consider any allowances for wastage or overage. It is recommended to add an additional 5-10% to the calculated volume to account for any potential errors or unexpected circumstances. Using the previous example, if we add a 5% allowance, the calculation would be:

Allowance = 7.5 cubic metres x 5%

Allowance = 0.375 cubic metres

4. Calculate the total quantity of concrete needed by adding the calculated volume and the allowance. Continuing the previous example, the calculation would be:

Total Quantity = Volume + Allowance

Total Quantity = 7.5 cubic metres + 0.375 cubic metres

Total Quantity = 7.875 cubic metres

By accurately calculating the quantity of concrete needed, you can ensure that you order the right amount and avoid excessive costs or shortages. It is always recommended to consult with a professional or concrete supplier to confirm your calculations and receive expert advice for your specific project requirements.

Remember, it is important to accurately determine the quantity of concrete needed to ensure a successful and cost-effective construction project.

Additional Materials and Reinforcement

Additional Materials and Reinforcement

To ensure the strength and durability of concrete structures, it is essential to incorporate additional materials and reinforcement. These elements provide added support and enhance the overall quality of the concrete.

Additional materials, such as admixtures, fibres, and additives, can be added to the concrete mix to enhance specific properties. Admixtures are used to improve the workability, durability, and strength of the concrete. Fibres, such as steel or synthetic fibres, can be included to control cracking and reinforce the concrete. Additives like superplasticisers are used to improve the flow and reduce the water content in the mix, resulting in a denser and stronger concrete.

To further reinforce the concrete, steel reinforcement bars, also known as rebar, are commonly used. Rebar is placed within the concrete to provide tensile strength and help resist tension forces. It is strategically positioned to counteract the weak points where tension would typically occur.

The additional materials and reinforcement play a crucial role in enhancing the structural integrity and longevity of concrete structures. By carefully selecting and incorporating these elements, the concrete can withstand various external forces and environmental conditions, ensuring its long-term performance and safety.

Fact: Incorporating additional materials and reinforcement in concrete can significantly improve its strength and durability, extending the lifespan of structures.

Labour and Equipment Costs

Labour and equipment costs play a crucial role in determining the price per m2 of concrete. These costs have a significant impact on the overall cost of a concrete project. To gain a clear understanding of labour and equipment costs, the following table highlights various aspects of these expenses:

Aspect	Description
Labour Costs	Include wages and benefits for the workers involved in the concrete project. The cost may vary depending on the skill level and experience of the workers. Skilled labour, such as concrete specialists or finishers, may be more expensive than general labour.
Equipment Costs	Refer to the expenses associated with the machinery and tools required for the concrete project. The cost of equipment may vary depending on the type and size needed. Common equipment used in concrete projects include concrete mixers, pumps, and finishing tools.

Labour and equipment costs are typically calculated based on the project’s duration and the number of workers and equipment required. It is essential to accurately account for these costs to ensure an accurate estimate of the total project cost.

When evaluating concrete contractors, it is advisable to consider their labour and equipment costs along with other factors such as experience, reputation, and project timeline. Choosing a contractor who offers competitive labour and equipment costs is crucial to ensure the project remains within budget.

By carefully assessing and factoring in labour and equipment costs, you can make informed decisions when estimating the price per m2 of concrete and selecting the right contractor for your project.

Project Timeline and Scheduling

The project timeline and scheduling are important factors to consider when undertaking a concrete project. Proper planning and efficient scheduling can help ensure the project is completed on time and within the allocated budget. Here is a table outlining the key factors related to project timeline and scheduling:

Factors	Explanation
Detailed project plan	A well-defined project plan helps establish the timeline for each phase of the project, including excavation, formwork, reinforcement, pouring, and curing.
Resource allocation	Assigning the correct number of workers and equipment to the project is essential for meeting deadlines. Efficient utilization of resources can avoid delays and ensure the project progresses smoothly.
Coordination with suppliers	Timely delivery of concrete and other materials is vital for uninterrupted project progress. Effective communication and coordination with suppliers help ensure the availability of materials as per the project schedule.
Proper sequencing	Sequencing the different activities in the project is crucial for efficient utilization of time. Ensuring that each step is completed before moving to the next minimizes rework and prevents delays.
Contingency plan	Having a contingency plan in place allows for unforeseen circumstances or delays. This can include factors such as adverse weather conditions or equipment breakdowns. Having alternatives prepared helps minimize the impact on the project timeline.

By considering these factors and implementing effective project timeline and scheduling strategies, you can ensure a successful and timely completion of your concrete project.

Calculating the Price per m2 of Concrete

Calculating the Price per m2 of Concrete
When assessing the cost of concrete, it is crucial to calculate the price per m2. This section will explain the process and discuss the key factors involved. We will explore each aspect that influences the final price per m2, such as estimating the total concrete volume, assessing the cost of materials, determining labour and equipment expenses, and factoring in additional expenses. Let’s delve into the detailed calculations of concrete cost!

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Calculating the Price per m2 of Concrete
When assessing the cost of concrete, it is crucial to calculate the price per m2. This section will explain the process and discuss the key factors involved. We will explore each aspect that influences the final price per m2, such as estimating the total concrete volume, assessing the cost of materials, determining labour and equipment expenses, and factoring in additional expenses. Let’s delve into the detailed calculations of concrete cost!

Estimating the Total Concrete Volume

1. To estimate the total concrete volume, you need to measure the length, width, and height of the space where you will be pouring concrete. Make sure all measurements are in the same units, such as metres or feet.
2. Multiply the length, width, and height together to calculate the total volume of the space in cubic metres or cubic feet. For example, if the length is 4 metres, the width is 3 metres, and the height is 0.15 metres, the total volume would be 1.8 cubic metres.
3. If the space has irregular shapes or multiple sections, separate them and calculate the volume of each section individually. Then, add the volumes together to get the total concrete volume.
4. To account for any potential deviations or loss, it is recommended to add a percentage of extra concrete. A common rule of thumb is to add 5-10% extra concrete to the estimated volume.
5. Consider any voids or spaces within the structure that need to be filled with concrete. Subtract the volume of these voids from the total volume calculated in the previous steps to get the net concrete volume.
6. Now you have an estimation of the total concrete volume required for your project. This estimation will help you determine the quantity of materials, such as cement, aggregates, and water, needed for the concrete mix.
7. Keep in mind that this estimation is just a guide and may vary depending on factors such as the desired strength of the concrete, the placement method, and any special considerations for the project.

By following these steps, you can accurately estimate the total concrete volume needed for your project. This estimation will provide a foundation for calculating the cost of materials, labour, and equipment, as well as help you make informed decisions throughout the concrete construction process.

Assessing the Total Cost of Materials

To assess the total cost of materials for a concrete project, several factors need to be considered. Here is a breakdown of the key elements that impact the overall cost:

1. Raw Materials	Concrete requires various raw materials such as cement, aggregates (such as sand and gravel), and water. The cost of these materials will depend on market prices and the quantity required for the project.
2. Additional Materials	There may be additional materials needed for specific project requirements, such as admixtures for enhancing concrete properties (such as strength or workability), fibers for reinforcement, or sealants for protection. The cost of these materials should be factored into the overall cost.
3. Waste and Overage	It is important to anticipate the amount of waste and overage that may occur during the concrete mixing and pouring process. This excess material adds to the overall cost and should be accounted for in the budget.
4. Delivery and Transportation	The cost of delivering the materials to the construction site should also be considered. Factors such as distance, accessibility, and local transportation rates will affect the transportation costs.
5. Quality and Grade	The quality and grade of the materials used will impact the cost. Higher-quality materials may come at a higher price, but they can contribute to the durability and longevity of the concrete structure.

Assessing the total cost of materials is crucial for accurate budgeting and cost estimation for any concrete project. By carefully considering these factors, you can ensure that you have an accurate understanding of the expenses involved and make informed decisions when it comes to material choices and project planning.

Pro-tip: It is always recommended to consult with professionals or suppliers in the construction industry to get specific pricing information for your project. They can provide expert advice and help you assess the total cost of materials accurately based on your project’s unique requirements.

Determining the Labour and Equipment Costs

is a crucial aspect when calculating the price per m2 of concrete. Here is a breakdown of the factors to consider:

Factors	Possible Considerations
Labour Costs	– Number of workers required for the project
	– Hourly wage rate of workers
	– Overtime costs, if required
	– Additional costs such as insurance and benefits for the workers
Equipment Costs	– Type and size of equipment needed
	– Rental or purchase costs of equipment
	– Fuel or energy costs for operating equipment
	– Maintenance and repair expenses for the equipment

To determine the labour costs, calculate the number of workers required based on the project’s size and timeline. Consider their hourly wage rates, including any additional costs like overtime, insurance, and benefits.

For equipment costs, identify the specific equipment needed for the project and its size. Determine whether it will be rented or purchased, and factor in fuel or energy costs for its operation. Include the expenses for equipment maintenance and repair.

By accurately determining the labour and equipment costs, you can ensure an accurate calculation of the price per m2 of concrete.

Pro-tip: It’s essential to regularly evaluate and adjust your labour and equipment costs. Consider market rates, equipment efficiency, and worker productivity to optimize your expenses and ensure cost-effectiveness in your concrete projects.

Factoring in Additional Expenses

Factoring in Additional Expenses

Factors to Consider	Numerical Details
Cost of materials	Assess the total cost of materials, including concrete, reinforcement, and any additional materials required for the project.
Labour and equipment costs	Determine the cost of labour and equipment needed for the concrete work. Consider the number of workers required and the duration of the project.
Transportation expenses	Calculate the cost of transporting materials and equipment to the construction site. Take into account the distance and accessibility of the site.
Permits and fees	Factor in any permits or fees required for the project. These costs can vary depending on the location and local regulations.
Site preparation	Consider the cost of preparing the site for the concrete work. This may involve excavation, levelling, and other site preparation activities.
Waste disposal	Include the cost of waste disposal, such as concrete debris, during and after the construction process.
Contingency fund	Allocate a contingency fund to account for any unforeseen expenses that may arise during the project.

Comparing Different Pricing Methods

Comparing different pricing methods in the world of concrete can be a fascinating exploration. Fixed price contracts, cost plus contracts, and unit price contracts all offer their own distinct viewpoints. This section will delve into the realm of pricing and reveal the advantages and factors to consider for each method. Say goodbye to doubting costs or uncertainties – this section will illuminate the diverse approaches to evaluating concrete pricing, equipping you with the information needed to make well-informed decisions.

Fixed Price Contracts

1. A fixed price contract is a type of agreement where the contractor agrees to complete a project for a predetermined price.
2. In a fixed price contract, the payment terms are typically set upfront, with the contractor receiving a fixed amount for the project upon completion.
3. Fixed price contracts provide both the client and the contractor with a sense of predictability. The client knows exactly how much they will be paying for the project, while the contractor is assured of a fixed income.
4. In a fixed price contract, the contractor takes on most of the risk. They are responsible for completing the project within the agreed-upon budget, even if unexpected expenses arise.
5. It is important for the scope of work to be clearly defined in a fixed price contract. Any changes or additions to the scope may result in additional costs for the client.
6. Fixed price contracts provide clients with budget certainty and allow for better cost control. They also incentivize contractors to complete the project efficiently and within budget.
7. Contractors may inflate their initial bids to account for potential risks, and if unforeseen issues arise, they may need to cut corners or request additional funds from the client.
8. Fixed price contracts are suitable for projects that have a well-defined scope and relatively low risk of changes. It is important to carefully review the contract terms and negotiate any necessary modifications before signing.

Fixed price contracts provide a clear and predictable financial structure for both clients and contractors. It is crucial to thoroughly assess the scope of work and negotiate terms to ensure a fair agreement for all parties involved. History has shown that fixed price contracts have been widely used in various industries, including construction, software development, and manufacturing, to facilitate transparent transactions and promote project completion within predetermined budgets.

Cost Plus Contracts

Cost Plus Contracts

To understand the pricing structure of cost plus contracts in the concrete industry, it is important to consider certain factors. These factors are typically taken into account when determining the overall cost of a concrete project.

Factor	Description
1	Contractual Agreement
2	Direct Costs
3	Indirect Costs
4	Profit Margin
5	Scope Changes
6	Project Timeline

Cost plus contracts involve a contractual agreement where the contractor is reimbursed for the direct and indirect costs incurred, along with a certain percentage of profit margin. These contracts are typically used when the scope of the project is uncertain or subject to change.

Direct costs refer to expenses that are directly related to the concrete project, such as materials, labour, and equipment costs. Indirect costs include expenses that are not directly attributable to the project, but are necessary for its completion, such as administrative expenses, insurance, and overhead costs.

The profit margin is determined by the contractor and is added to the direct and indirect costs to calculate the total cost of the project. This margin ensures that the contractor makes a profit on the project.

Scope changes may arise during the course of the project, leading to adjustments in the overall cost. These changes are agreed upon between the contractor and the client, and the cost is adjusted accordingly.

The project timeline plays a crucial role in cost plus contracts. Any delays or extensions to the project timeline can affect the overall cost, as it may lead to additional expenses incurred by the contractor.

Cost plus contracts in the concrete industry involve a contractual agreement where the contractor is reimbursed for direct and indirect costs, along with a profit margin. The overall cost is influenced by factors such as contractual agreements, direct and indirect costs, profit margin, scope changes, and the project timeline.

Unit Price Contracts

Unit Price Contracts

Unit price contracts offer a pricing structure based on unit prices. The cost is calculated by multiplying the unit price by the quantity required for the project. This type of contract provides flexibility as it allows for adjustments in quantity, ensuring fair pricing even if the final quantity differs from the initial estimate.

One of the key advantages of unit price contracts is that they provide transparency and control over costs. Clients can easily understand and track the cost of each item or unit in the project, fostering trust and accountability.

Unit price contracts are commonly used in small-scale construction projects where the quantity of materials may vary. Accurate estimating of quantities is crucial to ensure the contract remains valid and costs are correctly calculated.

It’s important to note that any rework or change orders may affect the unit price specified in the contract. In such cases, a revision of the contract may be required to adjust the unit prices accordingly.

Unit price contracts are particularly suitable for accommodating change orders, as they allow for easy and fair adjustments based on the updated quantity requirements.

Contractors are responsible for accurately measuring and documenting the quantities used, while clients have the responsibility of reviewing and approving these quantities.

Unit price contracts can bring benefits to both contractors and clients. Contractors have the opportunity for additional profit if the quantities exceed the estimates, while clients have control over costs during construction.

Examples of projects where unit price contracts are commonly used include road construction, landscaping, and small building projects.

Tips for Evaluating Concrete Contractors

1. Experience: Look for contractors with a proven track record in the industry. Consider their years of experience, completed projects, and client testimonials to gauge their expertise and reliability.
2. Licences and Certifications: Ensure that the contractor holds the necessary licences and certifications required by local authorities. This guarantees that they meet the legal standards and possess the necessary skills for the job.
3. Insurance Coverage: Verify that the contractor has adequate liability insurance coverage. This protects you from any potential damages or accidents that may occur during the project.
4. Portfolio: Examine the contractor’s portfolio to assess the quality of their work. Look for projects similar to yours in terms of scope and complexity.
5. Communication and Responsiveness: Effective communication is crucial for a successful contractor-client relationship. Pay attention to their responsiveness and willingness to address your concerns and answer your questions promptly.
6. Price Estimates: Compare price estimates from different contractors, considering the scope of work, materials, and timelines. Remember, the cheapest option may not always be the best, so carefully evaluate the overall value offered.

When considering these factors, keep in mind that the final decision should align with your specific needs, budget, and project requirements. It’s also helpful to consult with previous clients or industry professionals for their recommendations or referrals. Taking the time to thoroughly evaluate concrete contractors will increase the likelihood of a successful and satisfactory outcome for your project.

Frequently Asked Questions

1. How can I evaluate the cost of concrete for my project?

When evaluating the cost of concrete, it is important to consider factors such as the specified grade, the total area or volume needed, and the prices provided by selected suppliers. Comparing quotes and selecting a competitive offer can also help you save money.

2. What are the estimated costs of common concrete types?

The estimated costs of common concrete types vary depending on their strength and purpose. Factors such as the grade, additional materials required, and delivery expenses should be taken into account. It is advisable to consult with suppliers for accurate pricing details.

3. How can I obtain quotes for my concrete project?

Obtaining quotes for your concrete project is free and without any obligation. You can use services like HouseholdQuotes to find the right concrete tradespeople and compare quotes. Comparing quotes could potentially save up to 40% on your project.

4. What should be considered when bidding for a construction job involving concrete?

When bidding for a construction job involving concrete, it is essential to build up the rate for the specified grade. Factors such as equipment, labor, transport facilities, and adequate preparations should be taken into account to ensure the job runs smoothly and remains profitable.

5. What are the potential uses of ready-mixed concrete?

Ready-mixed concrete is a commonly used construction material and has various potential uses. It can be used for floor slabs, driveway renovations, back garden patio overhauls, and other construction projects at both residential and commercial sites.

6. How can I determine the cost of casting a cubic meter of concrete?

To determine the cost of casting a cubic meter of concrete, contractors should consider the cost of materials, plant, transportation, labor, and their desired profit margin. The mix ratio, specified grade, and selected suppliers’ prices all play a role in building up the rates for concrete.