The elasticity of kinesiology tape has been designed to mirror the elasticity of the skin. Applied correctly, kinesiotape mimics the elasticity of the skin therefore influencing various subcutaneous structures. In the hands of a trained skillful therapist differing techniques can be used to correct and adapt physiological structures, such as microcirculation, neuroreceptors, lymph vessels and the fascia.
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Because kinesiology tape can be applied in a number of ways and due the fact that a variety of physiological structures can be influenced, the Medical Taping Concept has numerous fields of application. Once the clinician has assessed whether the deficit in the muscles ability is length or strength related, specific muscular taping can be used to normalize muscle function. Joint function can be corrected or stabilized by using techniques that work more on connective tissue. Specific lymph taping can stimulate lymphatic function to reduce oedema and haematomas. Through a segmental approach taping can be used to influence internal organs and both the sympathetic and parasympathetic nervous system.
Multiple taping techniques combined simutaniously in a therapists daily practice frequenty bear the best results in normalizing a patients biomechanics.
Other possible indications for taping would include: complaints due to overload, deviations in posture, sports injuries, menstruation problems, growing pains and bone contusions to name a few.
Within a range of CureTape®, for example CureTape® Punch, the base of the kinesiotape is identical but only a different dye bath is used to create the various colours of kinesiotape. The hypoallergenic adhesive properties used in CureTape® Sports enable this tape to endure longer but the base tape is the same. Originally, the colours were chosen on the principles of ‘Colour therapy’. When applying coloured kinesiology tape, an aesthetic choice is often made in practice. Sometimes a therapist may use a certain colour for structural taping to support a joint and then a different colour to strap a muscle or simply you may use a ‘beige’ colour to tape with more discretely.
No pharmaceutical properties have been embedded in kinesiology tape. The positive effects achieved by using kinesiology tape are largely the result of Thysols R & D testing and the skillfull application of kinesiology tape to the patient.
Yes, kinesiology tape can get wet. CureTape® kinesiotape has been designed to be water-resistant so showering, swimming and bathing can continue as normal. The cotton in kinesiology tape does absorb some water so after showering or swimming it is advisable to ‘dab’ dry kinesiology tape with a towel.
The way kinesiology tape adheres to the skin happens as body heat stimulates the adhesive hypoallergenic material in kinesiology tape to become tacky and affix to the skin. Therefore it is not recommended to use a heater or hair dryer to dry kinesiology tape as this may cause a skin reaction. Sunbaking or using a sunbed with kinesiology tape are also better avoided.
Kinesiology tape does not adhere well to greasy or oily substances such as body creams, lotions or massage oil. The use of cream rinse can also reduce the adhesive strength of kinesiology tape in shoulder or neck applications. Generally for best application the skin must be cleaned and degreased before taping.
Good practice would direct the therapist to place a small test patch of tape on the inner forearm to test for reactions to sensitive skin although reactions are rare.
Another option for very sensitive or thin skin is to use 3M’s Cavilon spray beforehand. This spray creates a protective film on the skin, preventing skin reactions. This film layer is slightly sticky, so that kinesiology tape will stick even better.
For best effects kinesiology tape should adhere directly to the skin. If there is too much hair, kinesiology tape will lie on the hair which can hinder or limit potential results. Removal of kinesiology tape from hairy bodies also obviously can generate some discomfort. If the patient or therapist can shave or trim the area to be treated prior to application would prove sensible. In some cases care would be taken not to remove too much hair to avoid folliculitis or wounds. In this case a trimmer would be recommended.
Kinesiology tape is not sterile and therefore cannot be applied over damaged skin. It is highly recommended to tape adjacent to the wound to accelerate and promote wound healing.
You can only tape scars after the wound is closed and able to take the load of tensioned tape.
Post radiotherapy sufficient time must have elapsed for the skin to recover before applying tape. According to the protocol, the first six weeks after the end of the radiation taping should not occur. Each patients healing rates will differ so clinical discretion must be used to determine when it is safe to apply tape.
Yes, CureTape® Classic (medical tape) and associated Thysol kinesiology tapes (CureTape® Sports, CureTape® Punch and CureTape® Art) are made of hypoallergenic material. CureTape® is made of high quality cotton, through which latex-free elastic fibers are woven. A 100% acrylic adhesive layer is used, which is also well tolerated by people with a allergies to elastic plasters. The adhesive layer is woven in a wave pattern, so that the skin can breathe and body fluid can pass through kinesiology tape.
Occasionally skin irritations and allergies can occur in practice and are often due too:
Kinesiology tape should be removed calmly and carefully, to prevent skin irritations or skin damage, kinesiology tape is not a band aid.
For a positive result, it is necessary fully understand your condition and the technique of kinesiology taping that best applies to the condition.
Improper use can cause a counterproductive effect or even create a new problem! We recommend that you only tape yourself after a thorough explanation and good instructions from a therapist with sufficient taping experience.
If in doubt you should always contact a physician who has sufficient knowledge of the Kinesiology Taping Concept.
Kinesiology tape may remain in place as long as it adheres. On average, a tape will last for 4 to 6 days. Applications with a hand or foot may release more rapidly which is also the case for oily skinned patients.
Kinesiology tape absorbs the skin heat and adheres optimally after about half an hour. Dressing for the first time must therefore be done carefully to prevent the ends from coming loose. Once kinesiology tape has reached skin temperature, the vulnerability when dressing or undressing declines.
Tip: after applying kinesiotape, rub kinesiology tape with talcum powder. The talcum powder adheres to the edges of the kinesiotape so that kinesiology tape does not stick to the clothes.
Some kinesiotaping techniques, as with massages, are highly beneficial during pregnancy, yet also some techniques may stimulate body function. So it is always recommended during pregnancy to err on the side of caution and seek professional advice prior to pregnancy kinesiology taping.
Please send any questions you have via to our help desk at [ protected] and your question will be answered by one of our experts and experienced instructors.
As one of the foundation companies THYSOL introduced kinesiology taping to the medical market in Europe. CureTape® kinesiology tape is produced in our own factory in Korea and meets the highest quality standards. CureTape® can be used for various conditions, injuries and complaints.
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In this comprehensive guide to all things adhesive tape, we’re sharing 45 years of experience with you. Read on to find out why adhesive tape is quickly replacing glues and fasteners in manufacturing and construction, and how you can use it on your project today.
Adhesive tape (a.k.a. pressure sensitive tape, PSA tape, self-stick tape, or sticky tape) consists of a pressure-sensitive adhesive coated onto a backing material such as paper, plastic film, cloth, or metal foil.
Some tapes have removable release liners that protect the adhesive until the liner is removed. Some have layers of adhesives, primers, easy release materials, filaments, printing, etc. made for specific functions.
Pressure-sensitive adhesives (PSAs) do not require water, solvent, or heat activation to bond to materials such as paper, plastic, glass, wood, cement, and metal.
PSA tapes are tacky at room temperature in dry form, and they adhere firmly to a variety of surfaces and require only the application of a finger or hand. Technically speaking, that’s a bonding pressure of 14.5 – 29 psi =^ 10 – 20 N/cm² or greater.
Single-sided tapes allow bonding to a surface or joining of two adjacent or overlapping materials. Double-sided tape (adhesive on both sides) allows the joining of two items back-to-back.
The history of stickiness didn’t start with tape. It’s credited to the bees. Or rather, woodworkers in ancient Egypt used glue made from natural, viscous substances like beeswax and resin to hold materials together.
In modern times before tape, glues and epoxies did most of the sticky work. But they had serious drawbacks, especially in household use. Messiness, permanence, and drying to a hard finish all made traditional glues less-than-ideal.
It wasn’t until that adhesive tape, as we know it today, was invented.
According to How Stuff Works:
“Masking tape, as it became known, was intended to solve a very specific problem: applying two-toned paint jobs to cars. Before masking tape, auto shops were “masking off” for each color application using glue and paper. Peeling off the paper ruined countless paint jobs. Richard Drew, a young research assistant, witnessed one such ruined job and the furious cursing that followed. Drew, who had absolutely zero experience in adhesives, decided, apparently on the spot, to create an adhesive that could be removed from dry paint without peeling it off. Two years later, masking tape was introduced.”
Today, adhesive tape comes in all shapes and sizes, with varying degrees of stickiness, and for close to 45 years, ECHOtape has helped our customers match their specific application needs with the right pressure-sensitive tape.
And in that time, we have found that the majority of people have the same complaints and questions about tape. Here’s almost everything you need to know about adhesive tape as an industry professional.
We could tell you how adhesive tape is made, but this video by The Science Channel is much more fun:
https://www.youtube.com/watch?v=Y3N-MfmSAPg
As an aside, this video is also a great example of how tape is used in splicing. But that’s another topic for another time.
While the adhesive used on pressure-sensitive tapes might seem alike – they are all tacky, adhere well, and resist stresses – they are actually quite different. There are pros and cons for each tape type, be it rubber/resin, synthetic rubber, acrylic, and silicone-based adhesives.
Rubber/Resin is the oldest type of adhesive based on natural rubber, but it needs a resin to make it into an adhesive.
For many jobs, rubber/resin adhesives offer many advantages:
When it comes to disadvantages, rubber/resin’s main weakness is that both the rubber and the resin are prone to oxidation from the air. Therefore, exposure to ultraviolet light from the sun and other light sources can break down in heat.
Synthetic Rubber can be used in place of natural rubber. Offering much higher adhesion and shear resistance than natural rubber-based adhesives; as a result, it is very good for sealing packages and cartons.
Acrylic Adhesives Most of the weaknesses of rubber/resin adhesives are overcome by a single component of pressure-sensitive adhesive based on “acrylic” chemistry. Acrylic is colorless and is stable to oxidation and exposure to ultraviolet light. The stability to oxidation can give an acrylic adhesive tape many years of protection against ultraviolet light. However, it is more expensive – about twice as much as rubber/resins; it’s not quite so good as natural rubber on harder-to-adhere surfaces, and it needs significant time to cure.
Silicone-based Adhesives give many years of service life. Like acrylics, silicone can be used against the skin, so it has many medical applications as well as uses in the electrical industry where temperature is a challenge (e.g., jet engines). Silicone adhesives and sealants have a high degree of flexibility and are resistant to very high temperatures. However, silicones are the most expensive adhesives of all, typically twice as much as acrylics.
Traditional adhesives essentially transform from a liquid form into a solid one to adhere. Those processes are a function of the type of adhesive and how it is engineered to work and for what purpose. The interesting aspect of pressure-sensitive tapes is that they are “just liquid enough” to sufficiently wet the surface the tape contacts.
Contact us to discuss your requirements of Medical Tape Manufacturer. Our experienced sales team can help you identify the options that best suit your needs.
Conversely, these pressure-sensitive adhesives have enough of a solid-state character to resist any forces trying to remove it. As a result, pressure-sensitive adhesive tapes deliver the ideal means of fastening and offer the following significant advantages:
We get this question a lot: How do we actually know that it’s the right tape for the application and that it’s going to last? And that’s totally fair.
Almost everyone we know has a tape failure story, but tape isn’t the same as what you grew up with, or even what you used five years ago. Just as the cell in your pocket has gotten smaller, faster and smarter, adhesive technology has gotten stronger and more versatile.
On a job site full of tools and specialty equipment, tape may seem as ubiquitous as a hammer and nails. However, nothing beats tape for versatility, portability, and ease of use… that is IF you have the right tape for the job at hand. And that’s the conundrum, isn’t it? The sheer volume of pressure-sensitive adhesives is so overwhelming that it’s hard to know where to begin.
To help, we’ve created an infographic as a portable field guide for builders and contractors. You can find it here:
When it comes to tape, you may think you can’t believe everything you read. Upon review, a tape’s specification sheet can indicate that its adhesive properties are good, but when you use it, the resulting adhesion is poor.
Of course, when this happens, the tape tends to get the blame. But it isn’t always your tape for example that is at fault. In fact, it may be the surrounding conditions or even the surface that you are trying to stick the tape to.
If you’re facing this challenge, carefully consider every condition that could affect your tape. These can include several variables:
Carefully factor in the temperature. Are both the tape and the surface at least 18ºC/65ºF? The tackiness of the adhesive tape is very temperature-dependent, and the colder the conditions, the poorer the bond will be. If you must work at lower temperatures, then use an adhesive tape specifically designed for colder climates.
Related: Why Tape Doesn’t Stick in the Cold
Surface: Is the surface clean? Traces of dust, dirt, grease, and even the slightest trace of moisture will contaminate the adhesive surface and act as a barrier between the two. To best prepare, the surface, give it a quick wash with rubbing alcohol and dry it with a clean cloth.
The typical adhesive tape has a very thin, flat smooth layer of adhesive. Is your surface also flat and smooth, so that the two can uniformly contact one another? If your surface is rough and full of micro “hills and valleys,” the tape can only make contact at the high points – which will result in a weak bond. With a moderately rough surface, you will need a tape with a much thicker adhesive that can fill these valleys, thus providing a major improvement in contact. If it is too rough, then you may need a foam tape with enough deformation to make a good bond.
Is the surface you are working with a plastic or other material? Is it covered with paint or another coating that has a naturally low adhesion or even release quality? Regular adhesive tape won’t stick to waxed surfaces, Teflon®, or silicone, and will even have difficulty sticking to polyethylene. A very tacky tape will help, as well as tapes with an adhesive that is based on natural rubber, but you may need to turn to an adhesive tape specifically designed for your specific surface.
As a very last resort, you may need to change the character of your surface to get an adhesive tape to stick to it. This could mean roughening it with an abrasive or even treating it with a prime coat that is compatible with both the surface and the adhesive.
When a customer comes to us with a challenge, we actually test the tape for them and with them.
There are two ways to do this: Real-world field testing and lab testing. Ideally, we get to do both, like at The Durability Lab, but the bottom line is that the real world test matters most.
What good is a lab report when your building envelope leaks like a sieve, or your flying splice failed because the adhesive didn’t stick fast enough? Not good at all.
So here we’re going to walk you through the most common tape testing variables we use at ECHOtape.
One of the most critical aspects of our application trials is to test the tape on the actual substrate which is where real-world applications come into play.
For years, lab tape testing was performed on standardized substrates, like steel, and it did not differentiate performance based on a specific material. Over the last five decades, we have learned how critical a factor this is. The tape may work on one specific substrate and fail on others. Sometimes the tape works on a substrate, but when any changes to the chemistry or condition of the substrate change, the tape could end up failing. Even a small change can have a major effect.
Take, for example, splicing tapes. In many situations, customers need a quick stick while materials are still moving (called a flying splice), but then the tape needs to permanently adhere for long-term performance. We first test splicing tape by hand on the substrate — paper, cardboard, flexographic materials — and then see if it pulls fibers. This is good because this shows that the tape has a quick stick. Then, we move it to the actual machine for real-world testing. A splice can take a blink of an eye and so you need to test the tape in the manufacturing process
Which one you want makes a difference in how you test tape. Here are some more behind-the-scenes insights to our application testing process.
For temporary bonding, we are trying to discover whether tape adheres quickly and comes off cleanly..an important field test when considering protective film or stucco tape. In this scenario, we will apply the same environmental conditions to the adhesives, and see how it performs. Does it apply quickly and evenly? Does it remove easily and without residue? We can certainly duplicate this in the lab, but there’s no replacement for real world testing. Which is why it’s important that our clients understand that field tape testing takes time. If your issue is stucco tape isn’t sticking in 90°F and 100% humidity, it doesn’t do us any good to test it in the fall when it’s 60°F and 20% humidity.
Permanent bonding is a different animal. Oftentimes, the tape needs to cure to assess performance, like acrylic adhesives that need 72 hours to set. There are two common real-world tests we use here:
UV light is a type of electromagnetic radiation, as are radio waves, infrared radiation, X-rays and gamma rays. It’s invisible to the human eye, but it makes a profound effect on adhesives. With prolonged exposure to ultraviolet light, certain chemical materials, such as natural and some synthetic rubbers as well as polyethylene, can experience negative changes to their properties; resulting in them becoming hard and brittle. Absolutely not the qualities you want in a tape that needs to hold for any duration in a particular application. (Read our behind the scenes report on The Durability Lab here.)
The good news is that you can minimize the effects of UV light by choosing the right tape. For outdoor use, it is best to stay away from adhesive tapes with a natural or synthetic rubber adhesive. Unless the adhesive has been specially treated with ultraviolet stabilizers or the backing has an ultraviolet light barrier, like a premium outdoor stucco duct tape. There are also adhesive tapes that have been specially designed for prolonged outdoor exposure typically using an acrylic adhesive.
We are the leaders in cold weather tape for good reason: our home offices in Canada are ground zero for sub-freezing environmental conditions.
It doesn’t get any more real than that.
Still, we do also conduct lab testing. Using a temperature-controlled, environmental chamber, we bring temperatures down below -30°F and assess the outcome. Does it stick, and does it stay secure? The same is true for heat, although real-world tape testing is done in Arizona, Florida, and Texas.
For engineers and general contractors, both the tape sample and the specification sheet should be closely reviewed when considering their uses. But what detail does the specification sheet provide and how can the maximum benefit be derived? Here’s what you need to look for, whether it’s high-bond foam tape, stucco tape or industrial-strength construction-grade duct tape:
Tapes are often rated by adhesion value, which can be helpful if you know what it means. Here are a few examples:
When it comes to determining if a particular tape is right for your construction project, there are two forces to consider: tensile force and shear force.
Tensile force influences the elastic property of the adhesive. Specifically, it will first stretch the adhesive before finally pulling it away from the surface. If a tensile force causes a failure, it will most likely be in the adhesive at the surface. Therefore, adhesion testing that measures the elastic character of the adhesive, and how much force it can take, will help you select the right tape.
A shear force works parallel to the surface – it is the major force at work in double-sided tapes. Shear force resistance testing – often called “Holding Power” – is an effective way to measure the internal strength of the adhesive (known as “cohesion”).
Most adhesive failures or separation occur as a combination of both tensile and shear forces, it is extremely helpful to know what forces could potentially affect your tape.
Keep in mind that if the outside force is large enough, and is continuously applied, all tapes will eventually fail. It’s not a matter of “if,” but “when” – it may take an hour, a week, a year, or more, but if a tape isn’t designed to withstand the outside forces, it will eventually fail.
For tape, because of how it is dispensed, the adhesive part must contact its own backing yet still be able to unwind easily. To achieve this, the backing must provide a low-adhesion release surface. In other words…not stick to itself!
For all of the above, the best solution is to use a facing material with a low surface energy, usually a paper or a plastic film that has been treated with a silicone release coat. They could also be a polyethylene film that already has a low enough surface energy to work as release facing, or even a silicone-coated polyester film.
In short, pressure-sensitive adhesive tape is the industrialist’s dream come true. It is the universal tool that simply and conveniently solves many different fastening challenges. These tapes come in a wide variety of backings, each suitable for specific end-uses. This is exactly why adhesive tape use is on the rise in high-performance building and construction. If you’re still using glues, sealants or even nails, consider pressure-sensitive tape.
Contact the ECHOtape team today to find the right tape for your application.
Click here for our complete selection of insulation tapes.
Also, check out some of our most popular tapes:
Outdoor double sided tape
Thermal tape
FSK tape
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