If you place concrete, or work around construction sites that do, then you are likely familiar with power trowel machines. They are the machines that look like upside down fans that sit on top of concrete and are used to trowel and finish a concrete slab. 

Most power trowels are usually used on mid to large sized projects and can be a walk behind or ride-on design. Using a power trowel isn’t very difficult to do from a beginner’s standpoint – but it does take hours of experience to master them and use them like an artisan (which is how many experienced operators use them). 

But for those of us who may not be so familiar with them - this blog gives you the basics you need to understand and properly operate a power trowel.


Let's start at the beginning…. Power trowels are fairly simple in their design and operation, but as an operator of any type of equipment, it’s important to know the key components, how they work, and why. 

There are 6 general components that make up a typical walk behind trowel: the handle, the engine, the gearbox, the spider assembly, the trowel blades and finally the safety ring. 

The Handle is how the operator steers the unit and operates the controls mounted on the handle. The engine is the main driving force behind the machine which drives the shaft that enters the gearbox. The gearbox is the ‘heart’ of the unit which makes it critical to faithful operation and performance. The gearbox connects to and powers the spider assembly. That’s why having a reliable, well engineered gearbox is critical to any power trowel. The gearbox drives the spider assembly. Connected to the spider assembly are the trowel blades which spin in a fan-like motion when powered by the engine. Finally there is the safety ring which encompasses the spider assembly and protects the spinning blades.



The base of the power trowel is “where the rubber meets the road” or in this case where the machine meets the concrete. The general purpose of any power trowel is to make lighter work of troweling and finishing concrete.

In any concrete pour there is the important step of troweling the concrete to continue the process of consolidating the concrete and to aid in the process of squeezing out the excess water and laitance. The process of troweling also aids in bringing the ‘cream’ of the concrete to the surface of the slab. Troweling also plays a key role in the final finish, as it helps hardens the concrete and improves the appearance of the finished slab.


When you are ready to start troweling it’s important to choose the right attachments/blades. The power trowels use blades and other plate-like attachments that are mounted on the spider assembly arms in order to accomplish the desired result in the process. 

Float pans are large metal discs (pans) that attach to the bottom of the unit by clipping onto the trowel blades. Float pans are used in the early stages of troweling and are often used when the contractor wants to get on the slab as early as possible to start the process of troweling. Because float pans are essentially large discs that fasten to the bottom of the trowel, the large flat surface helps to distribute the weight of the machine evenly over a larger area allowing it to ‘float’ on top of the concrete instead sinking or digging in which could happen if you use typical trowel blades too early in the process.

Float blades are wide flexible blades that typically clip onto your finishing blades and provide a similar results to a float pans. The float blades also aid in distributing the weight of the machine over a larger surface area allowing the operator to start early with the troweling process. These blades provide flex when pitched and minimize mud-slinging and gouging of the concrete in the early stages.

Combo Blades are a hybrid type blade – they are wider and more flexible blades than finishing blades and are also used so that the contractor can get on the concrete faster and start the troweling process sooner. The blades are made of a wider flexible metal that distributes the weight of the machine and allows the machine to distribute its weight evenly over the concrete surface as the operator trowels. There is a little more ‘flex’ in the blade which allows for a more gradual contact between blade surface and concrete when pitched. Again – similar to float blades this avoids the aggressive edging that you would typically get from a finishing blade when it is pitched at a higher degree.

Finishing Blades are more narrow than combo blades and are typically more ridged. The stiffer more ridged blade allows the operator to put a more aggressive edge on the blades when it is pitched.



The operator of a power trowel uses pitch to control how much edge of the blade he wants to put into contact with the concrete in order to accomplish three things:

  1. continue the process of burning out the water from the slab (removing excess or trapped water)

  2. bring the cream of the cement to the surface

  3. finishing to the smoothness and hardness to the degree desired

Pans are usually attached to the bottom of the blades with the blades set at zero pitch. Float blades are attached to finishing blades and are started with a zero to slight pitch. Combo blades are usually started with zero or a very slight pitch and then the blade pitch is gradually increased as the slab hardens and sets. Finishing blades are usually used once the concrete has hardened a little more and the pitch can be set higher to a more acute angle so that the blades ‘burn’ and squeeze the excess water out of the pour.

When pitching you want to avoid pitching the angle too fast to avoid ‘cutting’ into the concrete or slinging mud from the top surface. As a rule of thumb, always start off with a slight angle and increase slowly as required.



Walk behind power trowels have a very simple method for steering the unit – similar to a floor buffer. Pulling up on the handle moves the unit to the left, pushing down on the handle move the unit to the right. An alternative steering method for a walk behind trowel would be to palm down on right handle and palm up on left handle with slight down pressure on the right handle will move the unit right. Palm down on the left handle and palm up on the right handle, with slight down pressure on the left handle will move the unit left. These two simple methods give the operator total control and ease of steering when operating the unit.


When using ride-on trowels, steering is also a simple process but can take a little time to learn the subtle movements and behaviors of the machine. On a ride-on trowel the operator sits on a chair straddled between two spider assemblies fitted with trowel blades. The operator has two steering control levers to move the machine. One on the right side of his chair and one on their left. The left lever moves in a forward and backward motion which allows the operator to move the unit forward and backward on the left side of the unit. The right handle moves in a ‘cross’ type motion (forward, backward and left and right) this allows the operator to move the unit forward and backward plus move the unit to the left or right.

Moving both handles into the forward potion allows the machine to move forward. Moving both levers into the back position allows the power trowel to move backwards. Moving the right handle to the left moves the machine to the left, and moving the right handle to the right moves the unit to the right. Because the right and left levers can be used simultaneously the range of movement the operator can produce is unique and specific. These types of control handles provide a tremendous range of flexibility in movement. In fact, an experienced power trowel operator can expertly maneuver the power trowel easily around a large surface to ensure full coverage, as well as navigate pillars and obstacles in their path.



As discussed, understanding and operating the basic features of a power trowel is quite easy and logical. Following the operations of the machine in the methods described above and operating the machine according to it’s safety specifications will produce great results for all projects.

The critical component of operating a trowel is WHEN to use it and how much to use it on your concrete project. Understanding the nuances of troweling takes experience and finesse. Most contractors have their own methods for determining timing and have preferences and specific specifications for “how much and how long”. By following the simple techniques above and becoming familiar with how your machine operates and behaves on a concrete surface, you will become one of the many artisans who can finish quality concrete.

Original article written by Mike Huggins.


If you're new to concrete grinding, I'm sure you've realized that it can be a lot more complicated that it appears. There are so many variables that can affect the final outcome so being prepared and having a few tricks up your sleeve can be incredibly beneficial. 

We've compiled a short list of tips that address some of the most frequently asked questions regarding effective grinding. These tips will help you, as you continue to grow your floor grinding business.


  1. First, make sure you are using the correct diamond tooling with the appropriate bond hardness, for the floor you’re grinding. This can make or break the efficiency of your grinding job. Using the wrong tooling will end up in your tooling glazing over, or prematurely wearing out. You’ll end up having to spend a lot more on tooling than you should, and it will take up a lot more of your time.
  2. Throw a bit of sand onto the slab before grinding- especially if there is leftover sticky residue on the surface. The extra grit will help open the diamonds segments on your tooling and act as an additional abrasive. 
  3. If you are using a ‘Multi-directional’ grinder, reverse the spinning direction of your heads from time to time to re-open your diamond tooling. This will help you to get as much out of your tooling as you can. This will also help to prevent scratches and inconsistent wear patterns.
  4. If your tooling has glazed over or become ineffective, bring it to a new part of the concrete and begin grinding to re-open the diamonds. This can be especially effective when removing adhesives or coatings. (If this fails to work- see Tip #1)
  5. Pre-soaking the slab will help maintain a lower surface temperature of the concrete and tooling. Doing this will help to keep the diamond tools working effectively. This is especially true in hotter climates or when the slab may be subject to warm working environments. 
  6. Initially, leave your dust collector on a lower power setting so that the dust can accumulate a little under the machine. That will allow some of the particles to help open your diamond tooling. This tip can also be very useful when removing a very ‘sticky’ adhesive, because the dust mixes with the adhesive residue so it’s not as sticky. This helps to keep your tooling cleaner and performing their best. 
  7. In some difficult grinding jobs, using other equipment along with your grinder can be very beneficial. Using a Shot Blaster or a Ride-On Floor Scraper are a great way to remove some leftover glue on the slab prior to grinding. Scraping off that excess glue beforehand will help you save time and improve the performance of your tooling and grinder. This can improve your production rates quite a bit.

Whether you’ve been grinding concrete for years or it’s your first day on the job, there’s always room to improve your skills so that when unexpected issues arise, you are prepared to deal with them effectively and efficiently.


Removing tile from a concrete floor can be a huge task for any flooring contractor. Often retail or commercial projects will have a large amount of square footage of tile to be removed, with a very tight timeline.

There are a few ways to remove tile from concrete floors. In this blog, we will touch on a few of the main ones and go over the pro's and con's of each to help you find the best tile removal method for you and your job. Some methods will be easier and faster than others, but at the end of the day all methods will get the job done. Finding what works best for you and your job specs is keys.


There are a lot of quality, small hand-held equipment options in the market that can remove tile from concrete surfaces. Typically, hand-held equipment is best for smaller removal jobs because of the time it takes to remove the tile, and the effort needed by the operator. Below is a brief list of the Pro's and Con's


  • Less expensive
  • Easier to use without previous experience
  • Easy to maintain
  • Great for tight spaces, by walls, and corners


  • Lower production rates- especially for larger removal jobs
  • Labor intensive
  • Less effective on older tiles because the adhesive tends to have a stronger bond over time

When using any piece of equipment, it is important to know what it can, and cannot do. If a hand-help piece of equipment is the only tool you're bringing to a floor removal job, make sure your expectations are realistic. A hand-held unit is sometimes useful as a second removal tool to get into the tight spaces. These units are more suited for occasional tile removal jobs, or smaller residential projects.


A Walk Behind Floor Scraper is the next step up from a hand-held unit. One thing to keep in mind is that not all Walk Behind Floor Scrapers are made the same. There are only a few on the market that can effectively removal tile from concrete floors because of the power needed to do so.

If you would like some more info on how to compare Walk Behind Floor Scrapers, check out this blog.

Here are some of the Pro's and Con's of using a Walk Behind Floor Scraper:


  • Easy to use
  • Depending on the unit, less labor intensive
  • Effective removal
  • Easy to use in smaller areas and rooms


  • Still a little small for larger jobs – make sure to check production rates
  • Although stronger than a hand-held unit, it can struggle on very tough removals
  • Higher price point than a hand-held unit

Walk Behind Scrapers are a great option for removing tile from concrete in many ways. Just make sure that if this is all you have at your disposal to not take on huge jobs with tight timelines. Even though they are much more productive than a hand-held unit, reality is, they still have limitations because of their smaller size.


A Ride-On Floor Scraper is one of the most productive ways to remove tile from concrete floors. These machines can remove a large amount of square footage much quicker than the hand-held or walk behind options we talked about above.

There are different types of Ride-On Floor Scraper on the market and some can remove tile better than others.

Here are some Pro's and Con's of a Ride-On Floor Scraper


  • High production rates
  • Easier to operate
  • Effectively removes the toughest flooring, quickly and efficiently
  • Drastically reduces labor needs and operator fatigue


  • Highest price point of all three options
  • Requires some operator training

Ride-On Floor Scrapers are one of the best machines for removing tile from concrete. Removing tile can be a difficult and labor intensive task, but using the right equipment will ensure the process goes much smoother.

At the end of the day, the best way to remove tile from concrete is going to be based on the size of job and the timeframe for completion.

If you’re not sure what is best for you, we suggest renting a few different types of units first to see how they work for you and your business. If you’re unsure, renting will give you the best understanding of what you need going forward, without having to make a large investment upfront.