You are here: Blog
 

New Video Demonstrates Proper Paver Installation for Clay Brick Pavers


A new video on BIA's YouTube channel demonstrates for landscape professionals and homeowners the proper installation techniques for clay brick pavers. The video - "Installing Clay Pavers” - covers the unique steps for laying clay pavers on a sand setting bed, including measuring modules, laying chalk lines, and proper joint spacing.

“While fired clay brick pavers do last much longer and retain their color much better than other paving surfaces, proper installation is critical for optimal appearance and performance — just as they are for every paving surface,” said Ray Leonhard, BIA’s president and CEO.

This new 18-minute video combines shared content from the Brick Industry Association and the School for Advanced Segmental Paving in Franksville, Wisconsin. More detailed instructions with graphics can be found in BIA Technical Note 14A: Paving Systems Using Clay Pavers on a Sand Setting Bed.

Additional BIA paving resources for landscape designers and installation guides for homeowners may be found on BIA's website.






Innovation in Paver Installation


Well, this is different! For anyone thinking that clay pavers must be laid by hand and one at a time, take a look at the video below.  It's an innovative and automated way to lay pavers quickly and in a variety of patterns. All while remaining standing!




Seven Emerging Design Trends in Brick Buildings


In the July 2014 issue of Building Design + Construction magazine, the editors looked at emerging design trends when it comes to using brick in a variety of buildings.  Some of the building trends include:

  • Using unique patterns at different depths and orientations
  • Mixing gray and white shades of brick
  • Incorporating different textures to the brick's exterior

To find out the all design trends and see photos of example projects, read the full article at Building Design + Construction.



Building Design + Construction is the only magazine published for the Building Team—architects, engineers, contractors, building owners, and facilities managers—involved in design and construction of nonresidential buildings. The audience is concentrated to the most influential decision-makers, with 100% of Building Design + Construction's 72,142 readers involved in the selection of building products and services.





Building Safety Month: Week 4 - Building a Brighter, More Efficient Tomorrow


Most people already know many of the superior qualities of brick – durability, aesthetics, and low maintenance – but brick masonry is also advantageous when considering the energy efficiency of buildings.

Today’s energy codes require that building walls meet certain thermal performance criteria, usually expressed as U- or R-values. The codes are more sophisticated by taking into account many things including climate, percentage and area of windows, insulation location, and interior heat generated by lighting and people. Despite these added factors, the good news is that clay brick walls can easily meet the energy requirements because of their heavy weight, or thermal mass.


Thermal Mass

Thermal mass, simply stated, is the use of heavy, dense materials to store and then slowly release heat at a later time. Brick masonry wall systems exhibit superior thermal mass properties.

 

Current energy codes recognize the benefits of thermal mass. They do this by requiring lightweight walls to have higher R-values to achieve the same energy performance as brick masonry walls with lower R-values. In other words, brick masonry walls require less insulation than lightweight walls for the same energy performance.

 

Thermal Lag

The thermal storage properties of brick masonry help shift peak heating or cooling loads to off-peak and dampen the peak temperatures. Instead of the outside temperature being felt immediately on the inside, the mass of brick slows down the transfer of heat to the interior or from the interior out. This is known as thermal lag. The thermal lag property of a solid brick masonry wall causes as much as a 6 hour time lag between the peak outdoor temperature and the peak indoor temperature.

 

The benefits of thermal lag can be utilized to economic advantage by shifting the maximum heating or cooling loads to off-peak hours. Utility rates often vary based on demand throughout the day, with rates the highest when demand is greatest. Shifting the peak load to the later part of the day during off-peak hours results in lower electric charges and lower overall operating costs for owners. Many utilities will work with customers to create this off peak demand.


 

Temperature Damping

In addition to shifting the peak heat loss or gain, the heat capacity of brick masonry walls causes a reduction in the total heat loss or gain. This property is called temperature damping and can be considerable, especially for areas with large heat gain differences. Many people have a feel for this property from experience. On the hottest summer days, a brick masonry building or home is typically cooler, even without mechanical cooling. Temperature damping reduces total energy consumption.


E
nergy usage continues to be a prime concern in today’s society and by using clay brick, architects and designers can help optimize the energy performance of their buildings and conserve energy.





Building Safety Month: Week 3 - Surround Your Building with Safety


Safety measures come in all shapes and sizes.  Fortunately for homeowners, clay brick exteriors have its occupants covered in many different ways.  Be safe and secure from harmful mold, ongoing repairs, damaging fires, and unpredictable storms inside a brick building.

Safe from Mold
Brick construction is a multi-layered system that prevents moisture and mold better than anything else. Of the eight types of materials that account for 90% of home construction, the National Association of Home Builders' Research Center confirmed brick is the best for moisture control. That’s because behind the outer wall of brick is a one-inch column of air that allows any moisture that might get in to either quickly evaporate or exit the wall through weeps at the base of the house.

Safe from Repair
People who own brick homes often say they need no maintenance. Ever. While that may be a bit of a stretch, the fact is that the brick on your new home will need no maintenance for about 100 years. So, while almost every other material requires repeated work, costing thousands of dollars each time you paint or clean or replace, your brick simply won’t.

Safe from Fire
According to most building codes, brick is officially listed as “non-combustible.” If an exterior fire starts, for example, from leaves burning, from another house on fire, or from any other source, brick will not burn. Fire will not penetrate brick walls from the outside. In a one-hour severe fire test, brick withstood the flames the entire time. Compare that to fiber cement which crumbled before the end of the test and vinyl siding that was completely destroyed in 18 minutes. Brick's one-hour fire rating protects your family better than any other non-masonry building material.

Safe from Storm Damage
When it comes to severe storms and flying debris, an independent university sponsored an experiment to find out how brick fares. A machine was constructed to hurl wood 2x4s at hurricane speeds into brick, vinyl, and fiber cement walls. The boards didn’t even nick the brick, but they went right through the vinyl and fiber cement and right into the imaginary living rooms behind them.


So what's the conclusion? The three pigs had it right. Brick is safer.




Building Safety Month: Week 2 - Helping Homeowners Weather the Storm


Independent tests continue to show that genuine clay brick outperforms other home exteriors in severe weather conditions, such as protection from wind-blown debris and earthquakes.

  • Videos from a wind-blown debris study at the Wind Science and Engineering Research Center at Texas Tech University demonstrate that a medium-sized and wind-blown object, such as a 7.5-foot long 2 x 4, would penetrate homes built with vinyl siding or fiber-cement siding at a speed of 25 mph, but would need to exceed 80 mph in order to penetrate the wall of a genuine clay brick veneer home. The tests also showed that a single wythe of brick exceeded the impact resistance for high velocity hurricane zones in the Florida building code.



  • A brick seismic study funded by the National Science Foundation showed that buildings built with genuine clay brick veneer can resist earthquakes above the Maximum Considered Earthquake for Seismic Design Category D without collapse.
  •  



Clay brick is long known for its extreme durability and 100-year life span, but combined with proper installation and maintenance, brick remains an essential element of strong, safe homes that can help reduce property damage and increase survival odds.





Building Safety Month: Week 1 - Keeping Fire in Its Place


Building Safety Month is presented by the International Code Council (ICC), a member-focused association dedicated to helping the building safety community and construction industry provide safe, sustainable and resilient construction through the development of codes and standards used in the design, build and compliance process.

To help raise awareness of building safety, the International Code Council (ICC) is presenting Building Safety Month during May. Building Safety Month is a public safety awareness campaign to help individuals, families, and businesses understand what it takes to create safe, resilient, affordable and energy-efficient homes and buildings.  The ICC is a member-focused association dedicated to helping the building safety community and construction industry provide safe, sustainable and resilient construction through the development of codes and standards used in the design, build, and compliance process.

As part of the building community, BIA is keenly aware of the need for safer structures and will be presenting a series of posts here that correspond with each of the weekly themes.  This first week's theme is "Keeping Fire in Its Place", and as a durable, fire-resistant material, brick is a perfect exterior cladding choice to help create safer buildings.  In fact, these articles will help you learn more about exactly why that is the case:




Join Us in Booth 508 at the 2014 APA Conference


This week the American Planning Association is hosting their annual conference in Atlanta, Georgia.  If you're attending the show, be sure to stop by BIA at Booth 508 to learn about how using clay brick can benefit communities across the country.

We'll also have a brick sculptor on hand, where you can try your hand at sculpting your own green brick.  Be sure to enter to win an iPad mini before the drawing on Tuesday, April 29.

We hope to see you there!

APA Invitation 2014




Update Complete on Technical Note 28C: Thin Brick Veneer


This month, a major revision to Technical Note 28C on Thin Brick Veneer and an updated Technical Notes Index were added to the BIA website.

Technical Note 28C: Thin Brick Veneer provides design and construction information on the use of thin brick in adhered veneer systems. Methods of thin brick construction discussed include thick set, thin set, modular panels, and prefabricated panels consisting of architectural precast concrete, tilt-up concrete, and wood or steel stud frame panels.

Major topics presented in Technical Note 28C include properties of thin brick veneer, system descriptions, system selection, system design, materials, installation, and maintenance. Specific recommendations for design are provided for water-resistive barriers, means of drainage, flashing/weep screeds, foundations, deflection, movement joints, continuous insulation, thin brick units, reinforcing lath and mesh, mortar, flashing, and cement backer board. Information on the installation and maintenance of thin brick veneer systems is also provided.

With the completion of the revision of Technical Note 28C, the entire 28 series on masonry veneer has been updated within the last few years.

For access to all of the Technical Notes, visit www.gobrick.com/Technical-Notes.
For questions, contact Chip Clark at cclark@bia.org or 703-674-1531.

Technical Note 28C Thin Brick Veneer




What Do Americans Want - and Not Want - In A Green Home?


After 10 years studying Americans’ thoughts on environmental and energy issues, researcher Suzanne Shelton has found that many home builders often make big mistakes when marketing their high-performance homes. In a recent Builder magazine article published in March, Shelton talks about the green features Americans want—and don’t want—in a home.

For example:

  • Homeowners don’t find the term “high-performance housing” to be useful because most of them don’t know what it is.
  • The term “green” is over-used.  Americans care more about comfort, their health, keeping their family safe, resale value, and lower utility bills than they do about “green.”  Instead, they care about the benefits of green.
  • Some people will pay a premium for green features, but the home still has to look attractive. 

To read the story in full, visit Builder magazine.




 
 
Search