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The Sustainable Future of Nike

With Nike’s significant focus on a sustainable future, one might wonder; can such a large manufacturing company really be sustainable? With the abundance of materials and energy they use in production each day, along with the emissions that come from transporting their products across the world, the idea of Nike being sustainable seems unachievable. However, Nike is proving that not only are they able to do this, but they can be an industry leader in the process as well.

circular design

With a zero-waste priority, their idea of a circular future is driving their sustainability efforts. A circular future where nothing is wasted, and every product or material is reused. To create a circular future, we need to shift to a circular economy, which is an economy where everything created remains in use. A circular future must begin with circular design, in which each product is created with its end of life in mind.

“Limited resources demand we rethink the ways in which we live. We envision a future where waste doesn’t exist, and materials can be used and reused to their highest potential—that’s why we created a Circular Design Guide.”

This idea of a circular future requires collaboration across industries, policy makers, businesses and consumers. This won’t be a small feat, but who better to advocate for it than such a large, established company like Nike?

Nike has implemented several practices to kick start these initiatives. Of the many ideas they’ve implemented, there is one that specifically relates to Clearline’s new end of life initiative. Nike has set up drop boxes at each of their retail stores where customers can drop off their used shoes to be collected and then repurposed into something new. This initiative was originally started in 2008, however since 1990 Nike has collected 28 million shoes to be recycled. Once collected from the Reuse-A-Shoe bins in the US, the products are sent to a recycling facility in Memphis, TN where they are combined with Nike’s overall manufacturing waste to create Nike Grind material. Once processed through the centre, three materials are produced:

  • Nike Grind Rubber, which is used for new items such as track surfaces, flooring tiles, outsoles and buttons.
  • Nike Grind Foam, which is used as cushion for outdoor basketball and tennis courts, along with futsal fields.
  • Nike Grind Fibre, which is used in the creation of cushioning pads for indoor synthetic and wood courts.

But Nike’s not stopping there. Their circular innovation has come up with ideas in which to use their recycled materials such as conformable mattresses for children with neurodevelopment disorders, street safety products, rock climbing walls and modular furniture. 

Nike’s sustainable mission moves far beyond their Grind materials. They’ve committed a substantial amount of research to include recycled materials in the majority of their products such as;

  • Nike Air: Since 2008, their Nike Air soles are made with 100% renewable energy and are designed to contain at least 50% recycled manufacturing waste. Even more, 90% of the waste for the Air soles are used in the Grind materials for the production of cushioning systems.
  • Nike Flyknit: Nike’s Flyknit fabrics are engineered to use 60% less waste than traditional manufacturing. Since 2012, 10 million pounds of waste have been diverted from landfills and used in this manufacturing process, including over 600 million water bottles.
  • Nike Flyleather: Nike’s Flyleather material is made with 50% recycled leather fiber which is produced through a process that provides a much smaller carbon footprint compared to traditional leather manufacturing.
  • Recycled polyester: this material is manufactured using recycled plastic bottles and reduces carbon emissions by approximately 30% compared to virgin polyester. With this process, Nike has recycled more than 7 billion plastic bottles.
  • Sustainable cotton: Nike’s goal is to use 100% sustainable cotton by 2020, which means only using certified organic and recycled BCI licensed cotton.
  • Sustainable blends: by combing their recycled polyester and sustainable cotton, Nike has created a material that not only reduces carbon emissions but uses less water and chemicals than traditional manufacturing with polyester and cotton.

It’ll be interesting to see how Nike can shape our society’s sustainable future, and if we can really implement a circular economy. But If companies like Nike and Clearline Technologies can do it, why can’t everyone?

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How to Support Ducts On A Rooftop

So you made the decision to run your ductwork on the rooftop, now what?

Field Fabricated Supports

In many cases, non-engineered fabricated supports are built based on immediate need instead of long term performance. When supports are built on site, there can be factors that are overlooked. It is not uncommon for the weight distribution to be overlooked or improperly calculated. Improper support design can cause damage to the roof membrane, roof structure and interior assets. These are a few of the reasons as to why you should consider an engineered support and why it will give you your best chance at a long and damage free roof.  

Some Factors To Consider:

1. Adjustability On Width And Height– Can your duct support be modified quickly to reduce labor time?

2. Spacing– Are you supporting round ducts or rectangular ducts? Typically this will factor into the amount of supports needed and the distance between them.

3. Bases– What type of base will your duct support have? Should you use penetrating or non-penetrating support bases?

The material that the bases are made of will need to be able to withstand the climate. Weather, heat, cold, rainfall and potentially corrosive environments all can be a factor. You will want to ensure whatever support you use will withstand the necessary length of time. Wood, plastic and rubber are all options for the base of the supports. However, wood deteriorates which is why it’s being used less and less. It is too risky to have it deteriorating and pressing into the roof membrane. 

Plastic can also have some limitations when it comes to climate. Sitting in direct sunlight, throughout cold winters takes a toll on the material. You will likely want your duct supports to last the length of the roof. 20-30 years is a long time for a piece of plastic to not break down.

DS & DSW Series


The DS & DSW series is designed to provide support for ductwork. The crossbeam has the ability to be moved up or down on the vertical supports to accommodate varying heights.The bases feature an 8-hole wing fitting for added stability. Our patented C-Port wide-body bases are used with the DSW series.

The DS & DSW series are perfect for situations where the ductwork widths are consistent but the height may vary (as it often does). 

DSA & DSAW Series


The DSA & DSAW Series are also designed to support ductwork. The differentiating feature with this series compared to the DS & DSW is that it features a telescopic crossbeam which allows for 

maximum adjustability. The telescopic crossbeam (which comes in 3 different sizes) can be quickly adjusted on site for a perfect fit.

The DSA & DSAW Series do not come with the upright strut. Since heights are very often changing on a rooftop, we supply all the hardware and fittings to attach the bases to the uprights as well as the crossbeam. The telescopic crossbeam accommodates any 1 5/8″ x 1 5/8″ strut which is readily available to most contractors. The strut can be cut to any height and installed in about a minute. 

One last feature to point out is the swivel fitting that connects the uprights to the bases. It allows the contractor to support ductwork on a sloped and low pitch roof. Equipped with a bolt through the strut, you can secure the angle with a quick tightening of the nut. 

The DSA/DSAW is great for all the other applications that the DS/DSW Series might miss. It provides maximum adjustability on width (and height). When you work with Clearline Technologies, you will get the best support – both in terms of product and service. All of our product lines can be customized, and extra bases can be added for extra stability and a higher load rating. We can also add other features like Slipsheets & extra crossbeams for multiple ducts and lines. Contact us for a free quote at 1-866-444-0009 or

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How to Clean & Maintain Your TPO Roof

By now you have made the decision to install a TPO roof on your home or building. If you are still trying to make the decision between a TPO roof or an EPDM roof, see our blogs.

5 Pro’s (and 2 Cons) Of TPO Roofing

The Importance of TPO Maintenance 

Debris and dirt can accumulate on any flat roof which can become a petri dish for mold, mildew, algae and plant growth. That same debris can become a food source for birds and other pests. All these factors can settle and compromise the roofing membrane, which may cause leaks.

This is exactly why having a preventative maintenance plan to ensure your roof will last the maximum amount of time is key to protecting your investment. 

You should always consult a professional roofing contractor or roofing consultant before going forward with any cleaning.


There are several factors that affect how often you should clean your TPO roof. Some of those factors are climate, amount of precipitation, roof slope, drainage factors & dust and wind conditions.  

tpo cleaning

Before you begin cleaning, ensure that you protect all the areas where water could enter such as low curbs and base flashing.

Cleaning As Part Of Roof Maintenance 

Cleaning should be a regular part of the preventive maintenance plan. Keeping the TPO roof clean will help keep the energy savings within the structure by continuing to reflect away sunlight and keep the building cool in the warm months. It will also prevent the growth of mold & mildew. Lastly, it will help reduce the any damage from chemical contaminants that may compromise the membranes ability to perform. 

Steps To Clean

1. Once your prep work is finished, start by using a low pressure power washer to rinse off any surface layer dust and debris. NOTE: Choose a pressure washer of 2,000 PSI or under. 

2. Use a soft bristle push broom with a non-abrasive cleaning solution that is TPO safe. You can also make one yourself by using a mild household detergent and water to clean the surface of the roof membrane. (check with your TPO manufacturer before applying any cleaner or chemical to the membrane)

3. Clean the roof in sections – work towards the drain by “pushing” the dirt and run off into it.

4. Use your pressure washer to rinse the cleaner and dirt off, again working towards the drain.

5. Visually inspect for remaining dirt – Repeat steps 2-4 if necessary.

6. Do one final walk through inspection to ensure there was no damage to the membrane during the cleaning. Check the seams and around curbs or other transition areas.

PRO TIP – Depending on your roof size and amount of dirt, you will likely want to get a professional rotating jet cleaner to use instead of a soft bristle push broom.

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TPO to TPO: How to Hand Weld

As always, check with your TPO manufacturer before starting any heat welding as each manufacture may have different chemical compositions which make up the TPO membrane.

This is a step by step tutorial on how to hand weld TPO to TPO. The purpose is to explain this process so a contractor could accomplish this to install our patented CGW with a TPO slipsheet.

What You Will Need:

  • Professional Heat Welding Gun
  • 20 mm or 40 mm nozzle for heat gun
  • Seam Roller
  • Gloves
  • Safety Glasses

Whether you’re doing a sealed seam, flashing or attached a slipsheet, you are going to want to achieve a weld between 1″-1.5″. 
Hand welding involves two stages: A pre-weld and a finish weld.

The Pre-Weld

The first weld you’re going to start with will be the pre-weld. For the pre-weld, you are going to start by placing your nozzle between the two TPO membranes at a 90 degree angle. The nozzle has a slim end which opens up to a wider fitting. You will likely want to place the nozzle under the top layer just past that angle change on the pre-weld (see photo to the right).

heat gun heat weld

Start at one end and work towards yourself. You want to give a little room between the nozzle end and the seam roller, as you do not want to “pinch” the heat. As you begin to weld by heating the membrane, always use the seam roller at a 90 degree angle to the heat gun. Slowly but consistently work your way down the seam rolling over both layers with steady pressure on the seam roller with long steady strokes till you reach the end of the seam or area you are welding. The purpose of the pre-weld is to create an air dam down the seam, to trap the air and heat to enable a good second/finish weld.

PRO TIP: While you weld, make sure to keep you gun as flat as possible so you are blowing the heat into both membranes AND towards the roller. If you angle the gun too much, you will be heating the bottom membrane more than the top and you won’t be blowing the heat towards the seam roller.

The Finish Weld

Start at the same point as the pre-weld, however this time place the nozzle between the membranes at a 45 degree angle up against the pre-weld. This weld will go a little quicker than the pre-weld. Using long consistent stokes, repeat the same process. Getting the hang of the timing will come. You want to ensure that you go at a speed that isn’t too quick where you are not creating that bond, but you also want to avoid over heating the TPO causing “bleed out” from the outer edge. 

PRO TIP: When using the seam roller, ensure that you are rolling with the flat part of the roller and not the edges. Using the edge of the seam roller has been referred to as “stitching” and can create an inconsistent weld which can trap air bubbles. This was common practice in the past, however it may not be the best way to achieve a long lasting weld.

If you are a visual person, The guys at GAF Roofing have a fantastic video that shows this whole process. You can view it HERE.

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5 Pros (and 2 Cons) of TPO Roofing

Some Backstory…

TPO Roofing falls under the single-ply membrane roofing category. Single-ply membranes are sheets of rubber and other synthetics that can be mechanically fastened, ballasted or chemically adhered to insulation creating a layer of protection on your commercial facility.

TPO has been around for a few decades now. However, since the chemical formula has kept evolving, it has been getting more reliable. TPO is made from ethylene propylene rubber. It was designed to have the advantages of a rubber roof combined with hot air-weldable seams for extra durability.

There are two main types of single-ply membranes for commercial roofing: Thermoplastic Polyolefin (TPO) and Ethylene Propylene Diene Terpolymer (EPDM).


So why TPO for your roof?

One of the largest benefits to installing a TPO roof is the cost. TPO has one of the lowest price points for roofing material on the market, costing less then EPDM and other types of roller rubber roofing. 

Another benefit of using TPO roofing is the color. TPO is white which gives it reflective characteristics. These characteristics help by reflecting sunlight away from the building therefor keeping the building cooler in warm months and in turn using less air conditioning. These energy savings also help lower the overall price point when you incorporate energy saving into the life of the roof cost.

So why TPO for your roof?

One of the largest benefits to installing a TPO roof is the cost. TPO has one of the lowest price points for roofing material on the market, costing less then EPDM and other types of roller rubber roofing. 

Another benefit of using TPO roofing is the color. TPO is white which gives it reflective characteristics. These characteristics help by reflecting sunlight away from the building therefor keeping the building cooler in warm months and in turn using less air conditioning. These energy savings also help lower the overall price point when you incorporate energy saving into the life of the roof cost.

The Pros of TPO

1. Its Cost Effective (At Least Compared To PVC)

TPO can be a desirable option because it has a relatively low price point. Compared to PVC, TPO offers comparable energy efficiency and ability to weld hot-air at a fraction of the cost of PVC.

2. Strength and Durability, Especially At The Seams

TPO would be considered a strong roofing product because of its ability to resist tears, punctures and dirt and mold build-up. On top of those features, TPO has the most flexibility when it comes to single-ply roofing membranes because it is able to deal with expansion and contraction of the building more efficiently then other materials. It allows for a wide array of options when it comes to moving or settling of a building.

As TPO membranes have hot air welded seams, its seam strength is three times stronger than conventional rubber roofs that use tape systems. It is also about six times stronger than those with glued seams. This is very beneficial when using rooftop supports that need to be fastened to the membrane. Check out our CGW rooftop pipe support HERE which works in conditions with wind uplift and seismic zones.

3. Energy Efficiency

TPO has UV resistant properties which eases cooling costs in warm months and climates. TPO not only meets, but exceeds the EPA Energy Star requirements.  This means that in the Summer, TPO will help keep your energy bill low while simultaneously helping the environment and keeping your home cool. The energy efficiency of TPO will definitely have an impact on the overall cost of the roof once you factor in energy savings.

4. Installation

TPO weighs less than EPDM making it easier to maneuver and move around. TPO is synonymous with less labor time needed for an install compared to other roofing options. Less time working on a project results in significantly lower labor costs, which is just another area that TPO can save you money.

5. Adaptable To Various Home Styles

TPO comes in a variety of colors – Black, White, Grey – and with its strong level of UV-resistance, all colors of TPO can deliver energy savings for you. Having the ability to choose colors makes the membrane a little friendlier when designing a building or home. This may seem like a small detail but this gives architects the ability to still have a product that fits in both design and energy efficiency.

The Cons of TPO

1. Longevity

With TPO being the “new kid on the block” there are questions when it comes to its longevity. The chemical formula for TPO has been changed and tweaked over the past 30 years. This is typically for the better, however it is important to keep in mind that with these changes in the chemical formula, the verdict is still out for how well it hold up over the years.

2. Does Not Do Well When Subjected To High Heat

TPO roofing can save you a remarkable amount of money on your energy costs and make your home or office building cooler, but when the heat gets too high, it can cause serious problems. Southern states that are generally warmer over the course of the year than northern states have shown that this could be a concern. If temperatures are pushed to a tremendously high level on a regular basis or if solar loads are increased far beyond usual amounts, it is entirely possible TPO roofing could fail to withstand those conditions. So, if you live in a climate where those are issues you will regularly encounter, TPO roofing may not be your best option.