How to Find a Good Patio Contractor
Have you decided you want a flagstone, limestone or concrete patio for your FLORIDA home. Wondering how to get it done and who you should use? Well, I’m going to tell you how. I’m going to give you a step by step process stating the 3 red flags that signal a bad or uneducated [tag] contractor. These 3 things will ensure you get it done the right way, by the right concrete foundation companies contractor in FLORIDA .
Steps To Finding The Right Concrete Contractor in FLORIDA
First step, first things first. Every Stone Installation Needs A Concrete Footing which might also be called a concrete foundation . This is not opinion but fact. If you want it done right and want it to withstand the test of time, this is the way it’s done, no exceptions. A red flag should go up when any contractor is offering bypassing a concrete foundation as a cost saving option. Unfortunately 85% of the concrete foundation companies contractors out there will tell you they can lay the stone right on top of compacted granite or base material. This type of contractor is exactly who you want to avoid. While what they are recommending to you gives the appearance of a patio, it won’t withstand the climate, erosion and soil movement beneath the patio in FLORIDA .
BEWARE OF CONCRETE CONTRACTOR SCAMS
You might get a few crackless years at best, until it begins to fall apart. This method is the most recommended scam or shortcut of trying to lower pricing and still get the job. Notice the price came down because the concrete footing was removed from the job cost. This option of ” no concrete necessary” is most often offered to those with strict financial limitations. The contractors offering this solution don’t care about your patio or home, they just want your money.With no concrete foundation you get a type of patio, but it’s really just a veneer laid on the ground.
How much concrete do i need?
A concrete patio or sidewalk slab or footing should be a minimum of 4 inches thick. This is sometimes reduced to around 3 1/2 inches due to preexisting structural limitations for concrete foundation companies in FLORIDA . If you encounter space limitations, you really do need a good masonry contractor to resolve the issues with other options. this leads us to our next step.
The 2nd step is hire a knowledgeable masonry contractor in FLORIDA . Do a little research before you start getting pricing. Most good masonry contractors will be able to talk concrete chemistry and technology with you. Yes, I said technology. In the last 10 years there have been some really cool advances in concrete additives and mixes. These advances have provided solutions for the problems and limitations of old. A true patio or masonry professional will be able to talk shop with you, it’s his livelihood. A contractor who can’t do this or doesn’t seem comfortable is more than likely a novice at best. This should be the other red flag that goes up. Basically, Concrete slabs and mortar are like a cake mix. Correctly mixing the ingredients and correctly letting the slab or masonry product cure, are the factors that determine a good solid installation. Again, Talk with your contractor and Make sure he’s knowledgeable about the chemistry, additives and curing process of concrete & masonry. If he is this will ensure the likelihood of a great patio. 3rd step and last but definitely not least, Check references, check reviews and ask to see work they’ve done. Really check this stuff out and try to look at at least 1 job they have done. Ask point blank if the previous client is related to the contractor. Any resistance or confusion in this process would be red flag number
3.So, in order from 1 to 3. All masonry installations need a concrete footing. Make sure your patio contractor is knowledgeable about masonry chemistry, additives and enhancing solutions. Check references, reviews and stay away from the dirt cheap deals of a lifetime from any concrete contractor in FLORIDA .If you get even 1 red flag, get another contractor. There are enough guys out there that do know what they’re doing.
Concrete: Its Types and Uses
Concrete scanning service is deemed as a dependable and non- harmful method of detecting targets inside concrete structures.
This is ideally performed before drilling, cutting or mechanical coring functions. This procedure is important to avoid serious effects on current facility infrastructure, concrete cutting equipment, as well as worker wellbeing and safety.
- It can track down conduits, reinforcing bars, tension cable systems, and PVC (Polyvinyl) pipes.
- Concrete scanning service is also a way of averting radiant floor heating.
- This ascertains thickness of concrete slabs and can be applied on floors, walls, ceilings, columns, and rafters.
- It provides for a quick and correct inspection results which can also be obtained on the same day that the test was conducted.
GeoScan Utility & Structural Investigation boasts of concrete scanning service that utilizes high-tech systems such as Ground Penetrating Radar or GPR.
This is a national and industry-accredited firm based in Victoria that makes available a variety of services such as structural, underground utility and geophysical investigation.
The commitment of GEO Scan is to provide clients with state-of-the-art technology, equipment and knowledge. The enterprise also specialises in locating cables, underground pipes and cable faults.
Using Ground Penetrating Radar can also gauge concrete depth and trace cavities in sink holes (natural depression) beneath the earth surface.
As part of the concrete scanning service, GPR employs the most recent ground penetrating know-how and provides essential information about utilities, concrete and other probable glitches inside existing structures.
This radar charts the position of secondary surface barriers directly into the surface.
It provides contractors with a comprehensible indication of safe places to make a hole, cut, or dig and where additional precaution is needed. The technique is proven secure and cost-effective.
GPR equipment is a form of non-destructive examination. This form of radar detection in concrete scanning service from GEO Scan Utility & Structural Investigation enables you to inspect the job site without any interference.
Moreover, it facilitates the preservation of structures and avoidance of task downtime.
It also leads to cost reduction because the GPR can eliminate the possibilities of costly job downtime or stumbling blocks arising from potential structure damage, facility closure due to detached utility lines, or injuries to workers.
The cost of this radar is fairly negligible compared to the actual project value as well as cost of mishaps, structural impairment, or injuries.
You do not have to worry about risks because the as Ground Penetrating Radar does not produce radiation while the job site is being scanned.
It protects not only the workers but residents of adjacent communities as well. GPRS technology does not deliver any radiation as we scan your job site.
There is quality assurance from GEO Scan Utility & Structural Investigation. It will assist you in keeping track of issues like built as designed in existing structures.
The technology will find out if concrete slabs or weep walls were built as specified and if reinforcing bars were placed based on the appropriate design plan.
Overall, this sophisticated equipment in concrete scanning service is a useful implement.
How to Hire a Local Concrete Cutting Company
What can be done to combat climate change?
Most scientists believe that the earth’s climate is warming, because automobiles and various smokestack industries are pumping more carbon into the atmosphere than the planet’s ecosystem can absorb, potentially leading to the calamities of climate change about which folks have been hearing for many years. Most of the change appears to be in the Arctic and Antarctic, where ice is melting at an alarming rate. For those who don’t believe the earth’s climate is warming, look there!
Fortunately many people, countries and companies throughout the world are trying to reduce carbon emissions. One major way to accomplish this task is to produce “green” cement. Please read further and find out how using green cement could greatly reduce humankind’s “carbon footprint” and perhaps help save the planet in the process.
What Is Cement?
The Romans invented concrete and built their marvelous empire with it, using a mixture of lime, volcanic ash and chunks of stone to construct immense buildings such as the Pantheon and Colosseum. These days, the primary ingredient in concrete is cement, commonly known as Portland cement, which is produced by burning limestone, mostly calcium carbonate and loaded with CO2, to which clay is added, and then water, sand and aggregate to produce concrete, which is inexpensive, pourable and dries as hard as a rock. Concrete is essentially artificial stone.
According to the article “Green Cement” in the December 2011 issue of Smithsonian magazine, in 2010 the world produced about 3.6 billion tons of cement, and that amount could increase by a billion tons before 2050. Interestingly, the only substance the world uses more than concrete, in total volume, is water!
Why Is Cement Dirty?
As useful and cheap as cement is, it has environmental drawbacks. Fossil fuels are used to burn the limestone at 2,600 degrees Fahrenheit, and this process releases large amounts of CO2 into the atmosphere. Cement production accounts for five percent of the world’s human-produced carbon dioxide emissions; only automobiles and smokestack industries used to make electricity and steel release more greenhouse gases in the United States and China, the world’s largest producers of cement.
Per an article entitled “Cement from CO2: A Concrete Cure for Global Warming?” in the August 2008 issue of Scientific American, making a ton of cement results in the emission of roughly one ton of CO2.
What is Green Cement?
The Smithsonian story mentioned above stated that since 2004 companies throughout the world have been trying to make Portland cement more environmentally friendly. Producers have added steel byproducts, such as slag; coal residues, such as fly ash and other materials to try to bulk up concrete, thereby requiring less Portland cement in the mixture. They’ve also used mineral additives, trying to reduce the temperature needed to prepare the materials, thus reducing the CO2 spewed when heating the limestone. Unfortunately, compounding the problem, nobody understands exactly how Portland cement works!
A potential breakthrough came when researchers at a company named Novacem, located in the United Kingdom, began using magnesium oxide instead of limestone to produce the primary ingredient in cement. Magnesium oxide can be prepared for cement by heating it to 1,300 degrees Fahrenheit, half of what is required for limestone. But something else had to be added to the magnesium oxide to make the cement harden, so magnesium silicates have been put in. These carbon-free compounds are made from talc, serpentine, olivine and other minerals, all of which are quite plentiful and found throughout the world. Otherwise, Novacem’s process is kept a secret.
Of some importance, Novacem’s cement is pure white, rather than gray like Portland cement. White cement can be colored, enhancing its possibilities, particularly when used to make houses and office buildings.
Available on the Internet, the company overview for Novacem claims that for every ton of Portland cement replaced by Novacem’s, emissions will be reduced by 850 kilograms. But the jury is still out on whether Novacem’s cement will be as strong as Portland cement. If it isn’t, few construction companies will use it.
Recycling CO2 to Make Green Cement
Calera, a company in California, has an innovative procedure, perhaps the dream of recyclers. It uses CO2 emitted from a power plant and mixes it with seawater to create carbonates used to make cement. These carbonates can be added to Portland cement to replace some or all of the limestone. Using similar technology, the Chinese plan to build a cement plant next to a coal mine in Inner Mongolia, where they hope to use the carbon emissions to produce cement.
Researchers at Louisiana Tech University are doing away with limestone entirely, using instead a paste called geopolymer, which is made of fly ash, sodium hydroxide and potassium hydroxide.
Calix, an Australian company, makes cement by using superheated steam, which modifies the cement particles and make them purer and more chemically reactive. The process also makes it easier to separate the carbon dioxide and keep it from escaping into the atmosphere.
The stakes are high to produce green cement, for cement production is a $170 billion-dollar per year industry. Make it, and many construction companies will come. Naturally the stakes are also very high for the planet to significantly reduce its output of greenhouse gases. It appears the technology is emerging. It will simply take time to find the best “green” cement.
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