How to Perform a Concrete Air Test

Concrete air testing, or concrete air test, may seem like a minor aspect of construction, but it plays a pivotal role in ensuring the durability, performance, and resilience of concrete structures. In this blog post, we will dive deep into the world of concrete air test, providing vital information and guidance on various air meters, testing procedures, and factors that affect air content in concrete. Get ready to enhance your understanding and improve the quality of your concrete projects!

Concrete Air Test: Key Takeaways

• Understand the importance and applications of concrete air test.
• Familiarize yourself with Type A and B meters, their features, benefits, and uses for the concrete air test
• Follow a step-by-step guide to perform an accurate concrete air test. Understand volumetric & gravimetric methods for testing air content in concrete mixes. Identify factors that affect results & troubleshoot common issues. Use essential accessories & equipment for testing. Maintain/calibrate your meter regularly.

Understanding Concrete Air Content Test: Importance and Applications

Testing the air content in concrete contributes significantly to the longevity, strength, and freeze-thaw durability of structures exposed to various environmental conditions. A concrete air entrainment meter measures the air in freshly-mixed concrete, offering valuable insights about the mixture’s quality.

To test the air content in concrete, follow these steps:

1. Fill a glass with a predetermined volume of concrete.
2. Subject the glass to vacuum to remove trapped air bubbles.
3. Pressurize the glass to release the trapped air.
4. Collect the released air in a calibration cylinder.
5. Calculate the air content as a percentage of the total volume of concrete.
6. Ensure compliance with ASTM C231, which provides a standardized method for determining air content in concrete samples.

Types of Concrete Air Meters: A Comprehensive Overview

Familiarizing oneself with the various types of concrete air meters aids in selecting suitable equipment for testing needs. The focus here is on two primary types of concrete air meters: Type A and Type B. Their features, benefits, and applications in air content testing will be discussed. Additionally, the use of an air pot in air content testing is also noteworthy.

Type A Concrete Air Meter

Type A concrete air meters are designed to measure the air content in fresh concrete using the pressure method. The process involves the following steps:

1. Consolidate the sample.
2. Tighten the cover to ensure no water leaks out.
3. Fill the meter with water.
4. Use an external pump or squeeze bulb to apply the specified pressure to the assembly, ensuring the calibration cylinder is properly used.
5. The compression of air voids in the specimen lowers the water level.
6. Release the pressure and observe the rise in water level.
7. Read the difference between the two levels from the cylinder graduations to accurately determine the air content.

These meters are generally accepted as reliable and accurate for measuring air content in fresh concrete. Some popular Type A meters in the industry include the Humboldt concrete air meter, which is known for its precision and compliance with ASTM C-231 and AASHTO T-152 specifications. Nevertheless, regular calibration and correct usage of the meter are necessary to ensure precise results.

Type B Concrete Air Meter

Type B concrete air meters are crucial for freeze-thaw durability testing. They measure air content to ensure the quality and performance of freshly poured concrete. These meters work by equalizing a set volume of air at a specific pressure in a sealed chamber with the unknown air volume in the concrete. The air content is then displayed on a calibrated dial.

Some of the key features of a Type B concrete air meter include measuring entrained air in normal weight fresh mixed concrete, a heat-treated aluminum body for precision, and a shock-proof pressure gauge. These air entrainment meters are commonly employed in the ASTM C231 test, which uses a pressure method to measure the entrained air in the concrete sample.

Performing a Concrete Air Test: Step-by-Step Guide

Correct preparation and execution of a concrete air content test are pivotal for achieving precise results. To ensure a successful test, follow this step-by-step guide based on the knowledge provided in this post:

1. Obtain the concrete sample according to ASTM Designation C 172.
2. Perform the test on a level surface away from moving vehicles.
3. Prepare the concrete sample for testing using the specified method, such as rodding and tapping or using a pressure meter. Use strike-off bars for leveling the concrete surface.
4. Adhere to the instructions provided by the testing equipment manufacturer or the testing standard to apply air pressure to the concrete sample.
5. Carry out the air content test within the specified time frame, typically within 5 minutes of obtaining the sample.
6. Document the results of the air content test for further analysis and record-keeping.

Following these steps and adhering to the specific testing standard or method being used will help ensure accurate and reliable air content measurements, including the apparent air content.

Volumetric and Gravimetric Methods for Air Content Testing

The volumetric and gravimetric methods are commonly used for testing air content in concrete. This discussion covers these procedures, their benefits and drawbacks, along with their applications in air content testing.

One drawback of the volumetric method is that it can be less accurate due to the potential for diluting the concrete during the testing process.

Volumetric Method

The volumetric method involves washing air voids out of a concrete specimen and recording the difference in fluid levels before and after agitation to determine air content. The process includes:

1. Preparing a concrete specimen of a known volume
2. Consolidating the concrete specimen into a container
3. Sealing the container with an integral graduated marking
4. Measuring and recording the initial volume of the concrete specimen
5. Applying pressure to the container to expel the air from the concrete
6. Measuring and recording the final volume of the concrete specimen
7. Calculating the air content by subtracting the final volume from the initial volume and dividing by the initial volume.

This method is standardized by ASTM C173 and is commonly employed in the industry. However, it has some drawbacks, such as:

• The necessity of diluting the concrete with water, which can affect its properties
• The requirement for more time and water compared to other methods
• The graduations on the volumetric air meter can be difficult to interpolate.

Gravimetric Method

The gravimetric method calculates air content in concrete through a series of calculations using specimen weight and actual batch weights, providing an alternative approach to air content testing. According to ASTM C138 and AASHTO T 121 standards, engineers calculate the difference between the total volume of fresh concrete and the absolute volumes of its components like cement, water, fine aggregate, and coarse aggregate.

The gravimetric method is suitable for all types of concrete mixes, as it can be used to determine the density or unit weight of freshly mixed concrete and the air content of the concrete. However, it has some disadvantages, such as being a lab-intensive and time-consuming testing method, not being appropriate for testing concrete with low-density aggregates, and not offering real-time results for immediate decision-making.

Factors Affecting Air Content in Concrete Mixes

A variety of factors can influence the air content in concrete mixes, which subsequently may affect the concrete’s overall performance. Some of these factors include:

• Surface area (fineness) of cement
• Cement factor
• Soluble alkali content of cement
• Water content
• Fine aggregates grading
• Coarse aggregates
• Temperature of concrete
• Mixing action

The fineness of cement, for example, can directly impact air content, as finer particles possess greater surface area, allowing for more air to be entrapped in the concrete mix. Similarly, the cement factor, or the ratio of cement to the total amount of cement and aggregate in the mix, can also influence air content, with an increase in the cement factor leading to an increase in air content. Additionally, the aggregate correction factor plays a role in determining the overall properties of the concrete mix.

The temperature of the concrete mix also affects the air content, as an increase in temperature can reduce air content, and vice versa. By understanding these factors and their impact on air content, it is possible to optimize the concrete mixture design and ensure the desired performance and durability of the concrete structure.

Troubleshooting Common Issues in Concrete Air Testing

Common issues in concrete air testing can include inaccurate readings, equipment malfunctions, and procedural errors. For troubleshooting equipment malfunctions in Type A and Type B air meters, consider field-stripping the gauge, evaluating the calibration, cleaning the meter to eliminate debris, checking for damage or malfunctions in the meter, and consulting the operating manual for guidance. For Type B air meters, consider using a concrete air meter rebuild kit to ensure accurate measurements.

Procedural errors, such as improper sample collection, inadequate mixing, incorrect test equipment calibration, insufficient sample consolidation, and failure to follow testing procedures, can also lead to inaccurate air content measurements. To prevent these errors, it is essential to adhere to the appropriate sampling, mixing, and testing procedures, regularly calibrate equipment, and ensure complete consolidation of the concrete sample.

Essential Accessories and Equipment

Having the right accessories and equipment is vital for conducting accurate and efficient air content testing. Essential accessories for concrete air testing include:

• Tamping rods for removing air voids in concrete and consolidating the fresh concrete
• Strike-off bars for leveling the concrete surface
• Replacement gauges for ensuring accurate measurements

The American Cube Mold ACM-6 Concrete Air Entrainment Kit with Rubber Mallet is an example of a concrete air meter. It includes a tamping rod, making it perfect for admixture measurement. By having the proper accessories and equipment, you can ensure that your air content testing procedures are accurate, efficient, and compliant with industry standards.

Maintenance and Calibration of Concrete Air Meters

Frequent maintenance and calibration of concrete air meters are necessary to maintain accuracy in air content measurements and comply with ASTM C231 standards. To calibrate a Type A concrete air meter, follow these steps:

1. Open the petcocks and pump air into the system.
2. Close the petcocks and press the thumb lever to release air into the base.
3. Observe the percent of air in concrete on the dial.
4. Open the petcocks to release the pressure and remove the cover.
5. Clean the base, cover, and petcock openings.
6. Calibrate the unit every three months using the CALIB program and the included calibration instructions.

Using a concrete air meter rebuild kit can also help ensure accurate measurements.

Calibrate both Type A and Type B concrete air meters every three months to ensure accuracy. Regular maintenance, including cleaning, inspection, and calibration, is crucial. This guarantees accurate air content measurements, ensuring the quality and durability of concrete structures.

Summary

In summary, understanding concrete air content testing and its applications is crucial. Knowing the types of air meters, testing procedures, and factors affecting air content ensures the durability and performance of concrete structures.

Regularly maintain and calibrate air meters. Use essential accessories and equipment properly for accurate measurements. Master these concepts and techniques to optimize your concrete mix designs. This ensures the long-lasting performance of your concrete projects.

Certified MTP has the largest selection of concrete testing supplies, showcasing industry-leading brands for Concrete Compression Testing Machines, Concrete Air Entrainment Meters, slump testers, Concrete Test Cylinder Molds, and fresh concrete testing equipment.

Frequently Asked Questions

What is the acceptable air content in concrete?

The acceptable air content in concrete is typically 6%, plus or minus 1 12%.

How do you test for air in concrete?

Testing for air in concrete involves pressurizing the upper chamber of an air pot and releasing the volume into the lower chamber, and then measuring the change in pressure with a gauge. The bottom cover should be dampened prior to placing it on top and fastening the clamps.

What is the air content test on fresh concrete?

The air content test on fresh concrete involves adding water to the unit, pressurizing it, and measuring the pressure difference to determine the total percent air content.

What is the main purpose of concrete air content testing?

The main purpose of concrete air content testing is to ensure the structural integrity, strength, and performance of concrete structures exposed to various environmental conditions.

What are the two main types of concrete air meters?

The two main types of concrete air meters are Type A and Type B air meters.

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