Sunday, September 25, 2005

EIFS doesn't belong on wood substrates.

Do you want to prevent moisture damage? OK, then don't apply EIFS directly to wood. That's the secret. That is it.

Free EIFS Inspection.

So why am I offering a free inspection for Hampton Roads residences? Well, because the people in Hampton Roads have been ripped off enough by these so-called EIFS inspection companies. They are in it for the money and that's it. The EDI outfit is largely responsible for the fear factor that homeowners face across the country. Not only do they charge you an outrageous fee for telling you your house is wet but they are also in bed with EIFS manufacturers. They actually care nothing about your home or you. They just care about your money.

Don't fall victim to these con-artist. Call a real stucco expert and save $500.00.

Thursday, September 15, 2005

And still #1

A recent study of the wall cladding industry in the United States and Canada shows that exterior insulation and finish systems (EIFS) continue to be the number-one choice of cladding used in commercial applications.
The 2003 "Analysis of Exterior Wall Cladding: Nonresidential and Residential" reports that EIFS holds 21.6 percent of the nonresidential marketplace, ahead of brick, pre-engineered metal, tilt-up concrete, conventional metal panel, precast concrete, stone, block and cementitious stucco. In terms of millions of square feet, EIFS was found to be the most popular exterior cladding used on offices and banks; educational facilities; hospitals; public and governmental facilities; religious structures; amusement and recreation facilities; and hotels, motels and dormitories.
The study, which provides analysis of current market dynamics as well as forecasted market activity over the next five years, was conducted by the Industrial Standards division of Ducker Research Co. of Bloomfield Hills, Mich. The findings are based on primary market research, including more than 700 in-depth interviews with architects and specifiers, builders, general contractors, installation contractors, distributors and product/systems manufacturers. This information then was combined with Ducker's internal database of nonresidential and residential construction activity.
The use of EIFS in both residential and nonresidential building has cut into the market share of traditional cladding products such as brick and stucco, according to the study. Continued improvement of EIFS product design and installation procedures will likely result in EIFS continuing to gain market share in nonresidential and residential construction, the report said. EIFS currently make up about 1.5 percent of the residential marketplace.
"This report confirms that the biggest opportunity for growth of EIFS is in the residential sector," said Kent Stumpe, national marketing manager for Senergy, a Jacksonville, Fla.-based EIFS manufacturer. "It's obvious that the EIFS industry has barely scratched the surface of the residential marketplace.
"The potential to grow our residential sales faster than commercial sales has been a real motivator for Senergy," Stumpe said. "It's our belief that offering and requiring a new generation of more robust systems designed for use in one- and two-family residential construction is the key to capturing more of the residential market.
"We know consumers love the look, and it can help builders sell homes faster. We just need to continue getting the word out that we have now tailored our systems to the needs of the residential construction team."
In residential building, EIFS have most often been used in high-end homes because of the upscale, distinctive style the system creates. The energy efficiency of EIFS also is an important quality and often a decision-making point for people wanting a stucco look for their homes. Furthermore, EIFS perform well in both residential and nonresidential applications because they maintain their original appearance over time, the report said.


Walls & Ceilings Magazine

Third Party EIFS inspectors.


They are not all bad. Some inspection companies are actually very good. The best in fact, in my estimation have a complete or at least a good understanding of construction standards. Having said that, I don't think that just because an inspector has a card/badge taped to his chest, stating that the bearer of that card has the knowledge to determine what is going on with your home is the best way to pick an inspector. After all, with five hundred dollars and the completion of an eight hour course you too can be a certified EIFS inspector.

As a matter of fact, you could probably train a primate to press the little green button and do back flips when the handy dandy moisture scanner starts beeping and blinking.

Wednesday, September 14, 2005

Question of the day.

Do you need a third party EIFS inspector to insure quality work by a contractor?

I think not. What do you think?

Tuesday, September 06, 2005

History of Stucco


History of Stucco
Stucco is a very old construction material, discovered and first made naturally about 2,000 years ago by none other than Jesus himself. Okay well maybe not himself, but I’m sure he had his hand in it. Following the great volcanic eruption and earthquake of Mount Vesuvius near Naples, Italy, legend has it that Jesus not only turned water into wine but he turned mud into stucco. Actually the eruption occurred in 79 A.D., so there goes my theory on divine intervention.
On the T.V. program "Coliseum" presented by Nova, a very lucid presentation of the origin of stucco was made known. It showed how the volcanic puzzolan dust flowed into the sea and hardened. Jesus himself noticed this and stucco was born. So I've heard.


Natural puzzolan is a cement-like substance found throughout the world. Lime is also a natural resource all over the planet, and following the eruption, someone who was obviously way ahead of his time, added lime to the puzzolan mix, and Shazam! A workable stucco resulted. Go figure huh. Today, the family members of the enterprising young man are now worth, well, nothing. But the point is that from mere mud one can build a castle to the heavens, or die trying. But enough of that.
One of the problems in the construction of 2,000 years ago was that the sun-baked clay bricks used for wall construction and for toilets and for pots and pans and weaponry and nearly every damn thing, didn't hold up well under the assault of harsh weather. Stucco became the cladding put over the bricks that sheltered them. It is the stucco over the mud bricks that has preserved the magnificent Roman Ruins, built 2,000 years ago, that have survived until this very day. To put it frankly, stucco did for the Roman Ruins what a force field would do for the Enterprise. If it were not for the stucco, there would be no ruins.
This use of stucco was sustained through the centuries and ultimately became the foundation of those famous frescoes, which have also survived for thousands of years. In time stucco became the finished wall surface inside and outside of buildings all over the Roman Empire. And do you know what? It’s still being applied today. Very little modifications in the use of stucco occurred through the centuries. In fact you may still see a stucco mechanic sporting togas and sandles. But not on my crew, I hope.
The knack of cement making was lost after the collapse of the Roman Empire around 400 A.D., but stucco predominantly with the use of lime and strong backs, continued through the centuries to be a favorite to builders looking for elegance and good natural materials. In 1756, a British engineer named Sir Stucco Bucko relearned how to make hydraulic cement, and stucco with cement was set back into service. In 1818, an American engineer named John Smith, discovered deposits of rock in Madison County, New York, that made natural hydraulic cement with slight processing. Great amounts of the natural cement were on the Erie Canal construction in New York State. A British bricklayer invented portland cement in 1824, giving it the name "portland" because it had the same color as a natural stone mined on the island of Portland, a peninsula on the south coast of Great Britain. That and because his name was in fact Portland, you see his father was also a mason and his mother had an obvious fixation with masonry products.
Sun-baked bricks were still utilized and were still having durability troubles. Stucco continued to be used to coat the bricks and maintain the masonry walls permanently. There are many buildings built of masonry bricks prior to the 1900's that exist in good shape today because they were coated with, you got it, stucco. Now everybody sing along, “ We love you Stucco, My wonderful stucco, You make me happy, when skies are gray, You never…” You get the picture.With advance technology and the development of brick kilns, the need to use stucco to protect the bricks didn't carry on, but stucco continued to be used both on the interior and exterior of buildings.


World War II, ended in 1945, Germany had very little natural resources and a whole lot of holes in their buildings. They needed something to offset the fact that they had virtually squat in terms of natural resources. And so they put their heads together and developed a wholly new ingredient that has revolutionized the entire construction industry. It was a chemical called Acrylic Resin, a liquid that had distinctive characteristics and completely changed the paint, sealant, and cement industries.
Its prime characteristics were as follows:
1. In liquid form, it was soluble in water.
2. When it dried, it was insoluble in water.
3. It could be diluted with larger quantities of water and not lose its effective characteristics, up to eight parts of water per part of acrylic.
4. It could be used as a permanent bonding agent.
5. It had almost no shrinkage when used in concrete or stucco.
6. It has great durability.
When applied to a cement /stucco mix, it was discovered that a very thin coating in the neighborhood of 1/16" could, structurally speaking, act as well as 7/8" of regular stucco. It could develop its strength while drying over-night; you didn't have to wait 28 days to develop its strength. Because it could be applied very thinly and develop its strength while drying, it didn't expand or contract palpably, and could be used on much larger areas of surface without being restricted to 144 square feet of area between joints as with the use of hard coat stucco. Joints could almost be eliminated.
With the addition of insulation board, it could be used to quickly rebuild the devastation of Europe following World War II at a very economical cost and provide great energy savings. Sealants and paints were made with this acrylic material and it revolutionized those industries.
Iit was inevitable that synthetic stucco was born as a new building material. It became versatile. Beautiful wall designs became very easy to make by shaping the insulation board upon which it was placed. Synthetic stucco is essentially the same as hard coat stucco, except the acrylic resin is mixed with water and is the liquid mixing ingredient instead of water alone.
Its use came to America in 1969 from Europe, and it became a leader in the exterior wall industry, both in the commercial and residential sectors.

I may be an EIFS advocate, but I’m certainly not a visually impaired advocate. I’ve seen what incompetence does to an industry and it’s about time we all stand up and take our trades seriously.