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Measurement of Air Content in Concrete01:23

Measurement of Air Content in Concrete

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Air content measurement in concrete is critical for ensuring structural integrity and durability of concrete structures, especially in environments prone to severe weather conditions. Accurate air content analysis optimizes concrete's resistance to freeze-thaw cycles and enhances its workability and strength. Several methods are standardized under ASTM guidelines to measure the air content in fresh concrete, each suitable for different concrete types and conditions.
The pressure method,...
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Abrasion Resistance of Concrete01:23

Abrasion Resistance of Concrete

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Abrasion resistance is an essential characteristic of concrete that determines its durability and longevity under various wear conditions. Concrete surfaces are vulnerable to different types of abrasion. For instance, surfaces may wear down due to the constant movement of vehicles or be eroded by solids carried in water, as seen in concrete canal linings. Specific tests are conducted to measure the abrasion resistance of concrete.
One such test is the revolving disc test, where three plates...
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Non-destructive Tests for Concrete Strength01:12

Non-destructive Tests for Concrete Strength

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The rebound hammer test, also known as the Schmidt hammer test, is a non-destructive technique for evaluating the hardness of concrete and, indirectly, the strength of concrete. It operates on the principle that the rebound of a spring-driven mass from a concrete surface correlates to the surface's hardness. The device comprises a mass within a tubular housing, a spring mechanism, and a plunger that strikes the concrete. Upon release, the energy imparted to the mass by the spring causes it...
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Fineness of Cement01:15

Fineness of Cement

334
The fineness of cement directly influences the rate of hydration, as the hydration begins at the surface of the cement particles. In addition to hydration, the fineness of cement is vital for various properties of concrete including workability, gypsum requirement, and long-term behavior. The fineness of cement is represented in terms of the specific surface of cement which is typically measured in square meters per kilogram, with several methods available for this determination.
Direct...
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Vebe Test01:22

Vebe Test

349
The Vebe test is a method used to measure the workability of concrete, particularly effective for dry concrete mixes. This test employs a specific apparatus that includes a cylindrical chamber, a standard slump cone, and a transparent disc-shaped rider, all mounted on a vibrating table. The cylindrical chamber has dimensions of nine and a half inches in diameter and eight inches in height.
To conduct the test, concrete is placed into the slump cone. The concrete is filled in layers and...
349
Slump Test01:20

Slump Test

597
The slump test is a widely used method to measure the workability of concrete. It employs a 12-inch high truncated cone mold that tapers from eight inches at the base to four inches at the top. Before testing, the mold is securely attached to a flat base and dampened.
Concrete is poured into the mold in three layers to conduct the test. Each layer is compacted 25 times with a steel tamping rod, which has a five-eighths-inch diameter and a rounded end, to ensure even distribution and eliminate...
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Related Experiment Video

Updated: Nov 23, 2025

Author Spotlight: Efficient Image Recognition Using Directional Gradient Histogram Technique and Support Vector Machines
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A Novel Camera-Based Measurement System for Roughness Determination of Concrete Surfaces.

Barış Özcan1, Raimund Schwermann1, Jörg Blankenbach1

  • 1Geodetic Institute and Chair for Computing in Civil Engineering & Geo Information Systems, RWTH Aachen University, Mies-van-der-Rohe-Str. 1, 52074 Aachen, Germany.

Materials (Basel, Switzerland)
|January 5, 2021
PubMed
Summary

A new camera-based system accurately measures concrete surface roughness, offering an advanced alternative to the traditional sand patch method for engineering applications.

Keywords:
3D reconstructionconcrete surface roughnessdigital photogrammetrynon‑destructive testing

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Area of Science:

  • Civil Engineering
  • Materials Science
  • Metrology

Background:

  • Surface roughness is critical for bonding in civil engineering applications like concrete repair.
  • The sand patch method is the current standard but has significant limitations.
  • Advanced measurement techniques are needed for accurate surface roughness assessment.

Purpose of the Study:

  • To introduce a novel camera-based system for technical surface roughness measurement.
  • To present the hardware and software developed for 3D reconstruction and roughness estimation.
  • To evaluate the system's performance on concrete specimens.

Main Methods:

  • A mechanical cross slide guides an industrial camera for image acquisition.
  • 3D reconstruction is performed using the captured images.
  • Roughness is estimated from the reconstructed point clouds.

Main Results:

  • The developed system successfully performs 3D reconstruction of surfaces.
  • Experiments demonstrate effective camera calibration and system evaluation.
  • Roughness estimates show strong linear correlation with sand patch method results.

Conclusions:

  • The novel camera-based system provides a viable and accurate alternative for concrete surface roughness measurement.
  • This technology addresses the drawbacks of traditional methods, improving reliability in engineering applications.
  • Further research can explore broader applications in technical surface analysis.