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Masonry in Cold and Hot Weather Conditions01:21

Masonry in Cold and Hot Weather Conditions

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In cold weather, masonry construction requires specific precautions to ensure mortar does not freeze before curing, as this can significantly weaken its strength and watertightness. Mortar temperature should be maintained between 60°F and 80°F to support proper hydration and curing. Below 40°F, mortar water must be heated, but should not exceed 120°F as high temperatures can reduce mortar's compressive and bond strength.
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Mass Concreting01:22

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Mass concreting refers to the process of placing large volumes of concrete, such as in gravity dams. The heat generated during the cement hydration process and differential cooling rates within the concrete mass can lead to a temperature gradient, which can result in thermal cracks in the concrete mass.
To reduce the risk of such cracking, the concrete mix may incorporate low-heat cement and pozzolans to reduce the temperature rise. Pre-cooled angular aggregates and water-reducing admixtures...
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Frost Action on Concrete01:27

Frost Action on Concrete

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Concrete structures in cold climates, such as those along roadsides, can retain moisture. This moisture makes them susceptible to frost-related damage when temperatures fall below freezing. Adding moisture worsens the damage during temperature fluctuations, leading to repeated freezing and thawing. De-icing salts, spread over these structures to melt ice, add to the freeze-thaw cycle, and draw even more moisture into the concrete.
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Cavity Drainage and Flashings in Masonry walls01:20

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Typically, a cavity wall consists of two wythes separated by a gap of at least 2 inches, which may contain insulation while still maintaining a minimum clear space of 1 inch to facilitate adequate drainage. Advanced methods like the insertion of a continuous drainage mat can further reduce this space while ensuring effective moisture expulsion.
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Thermal Expansion01:22

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The expansion of alcohol in a thermometer is one of many commonly encountered examples of thermal expansion, which is the change in size or volume of a given system as its temperature changes. The most visible example is the expansion of hot air. When air is heated, it expands and becomes less dense than the surrounding air, which then exerts an upward force on the hot air to, for example, make steam and smoke rise, and hot air balloons float. The same behavior happens in all liquids and gases,...
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As the construction industry moves towards more eco-friendly practices, concrete's adaptability and its ability to incorporate sustainable features make it a key material in the drive towards greener building solutions.
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Related Experiment Video

Updated: Jul 30, 2025

The Preparation of Electrohydrodynamic Bridges from Polar Dielectric Liquids
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Thermal Bridges on Building Rooftops.

Zoe Mayer1, James Kahn2,3, Markus Götz4,5

  • 1Karlsruhe Institute of Technology, Institute for Industrial Production, 76187, Karlsruhe, Germany. zoe.mayer@partner.kit.edu.

Scientific Data
|May 10, 2023
PubMed
Summary
This summary is machine-generated.

The Thermal Bridges on Building Rooftops (TBBR) dataset offers multi-channel remote sensing data for UAV thermal imaging. This publicly available dataset aids research in detecting thermal anomalies on rooftops.

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Area of Science:

  • Remote Sensing
  • Computer Vision
  • Building Science

Background:

  • Thermal bridges on rooftops contribute to building energy loss.
  • Accurate identification of thermal bridges is crucial for energy efficiency assessments.
  • Existing datasets may lack the multi-channel and annotation detail required for advanced analysis.

Purpose of the Study:

  • Introduce and describe the Thermal Bridges on Building Rooftops (TBBR) dataset.
  • Provide a comprehensive resource for training and evaluating object detection and instance segmentation models.
  • Facilitate broader community uptake and research in remote sensing for building thermal analysis.

Main Methods:

  • Acquired multi-channel imagery (RGB, thermal, height map) using UAVs over Karlsruhe, Germany.
  • Collected 926 high-resolution images with 6927 manual thermal bridge annotations.
  • Organized data according to FAIR principles for accessibility and reusability.

Main Results:

  • The TBBR dataset contains 926 images with 6927 annotations across five channels.
  • Data is pre-split into training and testing sets, suitable for object detection and instance segmentation.
  • The dataset is publicly accessible via the Zenodo data repository.

Conclusions:

  • The TBBR dataset is a valuable, FAIR-compliant resource for the remote sensing and computer vision communities.
  • It enables advanced research into automated detection of thermal bridges on building rooftops.
  • Facilitates improved building energy efficiency analysis through enhanced data availability.