Plastisol Heat Transfer

Here is an article by Scott Fresener on Plastisol Heat Transfer.

Plastisol heat transfer, or screen printed plastisol heat transfer is simply plastisol ink that is printed on a special “release” paper first and then partially cured in standard T-Shirt dryer, flash unit and even under a partially closed heat transfer press. This paper print is then transferred or applied to a T-Shirt or garment using a heat transfer press. If the transfer is made as a special “hot split” the print on the T-Shirt will have the same feel as a direct screen print. If the transfer is made like the “old” way (let’s call it retro to not feel too bad), the final image has a rubbery feel – now often called an “athletic” transfer. 


Types of Heat Transfers

Hot Split
This is also known as a “hot peel” transfer.  It is the most popular type of transfer because it has a very soft direct screen print feel when applied to the shirt. The term “hot split” is used because after this transfer is applied with a heat press for 10 seconds, the paper is quickly removed while hot and the ink actually splits in half. Part of the ink stays on the shirt and part of the ink stays on the paper.  This gives the transfer it’s soft feel. I still vividly remember my good friend, Richard Labov, former owner of Union Ink Company calling me back in 1980 to say they had accidentally made a soft feel transfer by playing with the plastisol ink formulation and by accident peeling the paper too soon.


Cold Peel
These are still somewhat popular and are being used mainly for athletic uniforms and when you want to apply Foil to a shirt.  In fact if you make a transfer correct you can either hot-split it or you can cold-peel it.

Cold-peel and hot-split transfers look and are made the same way.  The only real difference is the paper you use and the heat press application. When you apply a cold-peel you let the transfer cool down for about 30 seconds before you peel the paper off.  This leaves all of the ink on the garment and gives the transfer the heavier “rubbery” feeling.

Cold-peels are not as popular for large T-Shirt designs because they are hot to wear and don’t let the shirt “breath.”  They also will not wash as well because the top, rubbery, layer of ink may crack and start to wash off the garment.

Cold-peels have made a comeback as a “retro” type of imprint.


Puff Transfers
Puff ink is special ink that expands or puffs up when the ink is heated.  It is very popular on direct printed shirts and can also be used on transfers. The transfer puff ink is a special ink that puffs up after the heat press is opened.


Why Make a Transfer?
Since printing directly on a garment is so easy, people often wonder why they should go to the trouble of making a heat transfer. It’s a good point, so let’s look at the applications for heat transfers.


Baseball Caps
Heat transfers are great for baseball caps. They produce a very sharp print on both light and dark from caps – especially when printing multi-color prints on a cap.  With direct printing it is hard to hold fine lines and detail on the soft surface of the cap.  With a transfer the image will always be sharp and clear.  And, with the new popularity of the white front “truckers” caps, transfers are perfect!

It is also very hard to flash-cure between multiple colors on a cap making transfers the natural imprinting method.

Small Orders
Heat transfers are also perfect for the customer who wants to be able to order small quantities on a regular basis.  All you have to do is print up extra transfers on the first order and then hold these in stock.  When they want another shirt or two you just pull the transfer from the box and print a shirt!  If the order is just a small over-the-heart print you can print a number of images on each sheet.

Event Shirts
If you work fairs, festivals or events then you already know the value of a heat transfer.  If the event is not successful, it is much easier to throw away printed paper than it is to take home pre-printed shirts!  You can just take your heat transfer press, transfers and blank T-Shirts and print souvenir shirts right on the spot.  People can pick out the size and color of shirt and you can charge extra if they want another design on the other side of the shirt.


Stock Designs or Preprinted Shirts

This is where the transfers (especially the Hot Peels) really shine!  If you make your own line of  T-shirts (called “preprints or stock designs”) for either retail application, mail-order, or small order wholesale business, then this is the way to go. You can make up all the designs on paper and then as the orders come in just match the proper shirt and size to the proper design.

Athletic Printing
Heat transfers are perfect for doing athletic lettering and numbering on uniforms and jerseys.  You can make your own team names and number in all of the athletic colors and just keep them in stock.


Start-up Business
If you are just getting into the business and are looking for the quickest way to offer multi-color designs on shirts without the expense of a multi-color press, making heat transfers is the least expensive route.  Read on and you will see why.

Aren’t They Hard to Make?
This has been a great myth, and frankly the large heat transfer companies have done a good job of keeping it alive.  In reality, making a heat transfer (either Cold-Peel or Hot-Split) is really quite simple, if you already know how to screen print. The only extra items you need are the proper inks, special papers, and a T-Shirt printing machine or a simple one-color printing setup.

They are actually printed like you would a non-textile such as a poster, decal, etc.  You print one-color at a time – not wet-on-wet as you would for a direct print on a shirt.  After you have printed and cured (undercured) all of the first color using special plastisol on heat transfer paper, you come back and print all of the second color and cure it, then the third, etc.

Let’s take a look at the specifics of making a heat transfer.


The Ink

Most all-purpose plastisol inks make good cold-peel transfers.  If you want to make transfers that can be hot or cold peeled you will need to add a “hot split” additive to your regular plastisol or purchase an ink that is designed for hot peels.  A number of ink companies have made their regular all-purpose screening ink work for both hot and cold peel transfers without any modification.

High opacity (inks for dark shirts) do not make very good transfers because the ink has more fillers and are less stretchy.  High opacity Low Bleed inks for polyester shirts should NOT be used because the anti-bleeding agent will keep the transfer from releasing from the paper properly if the transfer is stored too long.  Most ink companies make high-opacity transfer ink.

Since it is important to print a fairly heavy deposit of ink you need to try to print the ink straight from the container and not thin it too much.  If the ink is just too thick to print (fairly common with plastisol) then you will need to add a little “curable” reducer to get the ink workable.

It is also important to not fully cure the ink when printing transfers.  I will cover this point when we get into how to print the transfers in part two.

The Paper

Special papers are available for heat transfers. These are available from most major screen printing supply company. They are designed to be stable and not shrink too much when run through the dryer. A good transfer paper is very stable and keeps the ink from penetrating into the paper. This is called good “hold out.”

In the old, old days, the paper was called Patapar and was/is a baking pan liner. We use to buy patapar by the truckload. The problem was it was like parchment paper and a 12″ sheet could shrink 1/4″ in the dryer. That made tight register multi-color work impossible. In the mid 70′ the Warren Paper company introduced what was then called “the French paper” and then more commonly called T-75 (a reference to the paper weight). It was much more stable and is still used today.

The following papers are sometimes packaged under other proprietary names by suppliers.

T-75
As mentioned before, T-75 has been around for over 35 years.  It is a very stable paper that has excellent release qualities for cold-peel transfers.  It can be used for both cold-peel and hot-split transfers and is the paper of choice if you want to make a transfer that will work either way.  T-75 is generally sold in 11″ x  13″ and 15″ x 15″ sheets for approx. 9 to 20 cents (US) per sheet in 1,000 sheet boxes. Many suppliers will sell smaller quantities. T-75, like other products mentioned here is available from general Screen Printing Supply companies.

T-55
T-55 is a little heavier than T-75 and is designed specifically for hot-split transfers.  Since hot-splits have a little higher level of plasticiser they do not have as long a shelf life if made on T-75.  Although some manufacturers suggest you use T-55 for both types of transfers you will find that the ink does not release as cleanly from T-55 when cold peeled. There are other specialty papers but frankly, the above two are the staples of the industry. These papers often have names like Transal, SuperTrans, etc.


The Screen
Because the ink film splits when the transfer is applied, it is important to lay down a thick deposit of ink.  This can be accomplished by using a coarse mesh with a thick stencil system. The recommended screen mesh is 74T to 86T monofilament for solid color prints and 94 to 140 for more detailed prints.  Any finer than this and you will not lay enough ink down. This article is geared towards basic designs and does not cover doing four-color process transfers which use higher mesh counts and often has a clear overprint as the last color printed.

The stencil should be as thick as possible.  Capillary direct film is the best for sharp edge definition and thick stencil.  Use at least a 40 micron film or better yet go up to a 70 or 80. You can see from that it make a very sharp edged stencil unlike the more ragged edge you get with direct emulsion. You can use direct emulsion but for best results you need to build up the stencil thickness with multiple coats and a wet on dry coating technique (coat a screen, let it dry, coat it again, let it dry, coat it again).

The screen needs to be exposed as a mirror image (wrong reading).  If you are trying to hold fine lines you need to flip your images in the computer so they are mirror image before you print them out.  Your films need to be WRONG READING image side UP.


The Artwork

Artwork for hot-splits should not have a lot of heavy color trapping where you have color under a black outline.  The black outline will split when transferred (like the rest of the colors) and will lose it’s opacity.  You may see under-colors showing through  the black. If possible keep the art a little lose to allow for paper shrinkage. For small prints with a lot of detail try backing up the entire image with a solid layer of white or clear.


Printing

Printing hot-peels is similar to direct screen printing except you print only one color at a time. They can be printed on your regular screen printing press using spray adhesive to hold the paper in place, but are easier to print if you make a special vacuum table to hold the paper in place. There are plans for an inexpensive vacuum table in the book How To Print T-Shirts for Fun and Profit. This can be a separate printer or a simple attachment for your T-shirt press.

Larger shops use semi-automatic flatbed screen printing presses and the major transfer houses use cylinder presses generally made by a company called Sakuari.

If you are doing multi-color transfers, a plexiglass vacuum table is ideal because you can light it from underneath to see how to register your additional colors.

You should print off-contact and use a medium squeegee with a sharp edge. Try to give the print only one good stroke to maintain the sharpness to the print.

The printing color sequence will be just the opposite of direct printing. You will print the outline color (usually black) first.  Of course you can print color-on-color using transparent inks to achieve secondary colors.  As mentioned earlier, you will print and cure all of the first color before printing all of the second, etc.

For multi-color transfers you can use a standard 3-point registration tab system for registering the paper in the exact same position for every print. This can be as simple as small strips of card stock taped in place. The paper is loaded against these “stops” so each sheet has the image in the same exact place.


Curing

This is very important!  Heat transfers are only partially cured when they are made.  This means you get them just past the wet stage at around 250 degrees Fahrenheit. They are only fully cured when they are applied to the garment.  If you fully cure them when you make them, they will not re-melt properly when they are applied.

To cure them you will need a standard plastisol curing oven or a flash curing unit. You can also get very creative and use your heat transfer press to cure the prints. Simply use a clamp to hold the press partially open and slip the paper with the wet print under it for a few seconds.

There is also a danger of UNDERCURING hot-peel transfers.  The ink will partially cure or gel at around 190 degrees Farenheit.  Unfortunately the transfer may appear to be “dry” or cured when in reality there may be excess plastisizer that hasn’t gelled.  This plastisizer may migrate out of the ink and into the paper – throwing the ink out of balance.  Your transfer will not work properly now.

The way to tell if they are undercured is to put them through your oven (or under the heater) and find out how long it takes to just get them past being wet to the touch.  In the case of a conveyor dryer it could be a short 10 second time in the tunnel.  Under a flash curing unit or heat press they can undercure in 5 to 10 seconds.

When a transfer is undercured it will be dry to the touch (it may be tacky when it is hot). The printed paper can be stacked as they are cured.


Application

When you apply a hot-split, you should set your heat press at 375 to 400 degrees F, with heavy pressure.  Apply the transfer for 10 seconds and when you open the press – immediately reach in and pull the paper off the ink in one smooth motion.  The transfer will feel like a screen print! If you let the paper cool before you peel it the transfer will have a rubbery feel – a cold peel.

A cold peel is applied for 10 to 15 seconds with the press at 335 to 350 degrees F, with heavy pressure. After you open the press, use a rag, eraser or just a blank shirt to cool the paper. Peel the paper after about 20 seconds. All the ink stays on the shirt with a cold peel.

If you wait too long, simply re-heat the transfer and pull the paper hot.  If the transfer does not want to pull cleanly then the press may be too cool.  When in doubt you should be almost to 400 degrees F for a hot-peel and 350 degrees for a cold peel.

To Powder or Not
Back in the day… I digress… someone “invented” putting a ground up hot melt glue on the back of transfers to help them stick better. Some people suggest powdering all transfers.  NOT! The powder is available in two different “grades” – fine and sugar like. It helps transfers stick better to items that don’t stretch too much and to baseball caps. It does not stretch well when it is cured into the ink and can cause more cracking on regular T-Shirts.

To apply the powder simply print a transfer as normal and while it is still wet, slide the paper through a mound of it and shake off the excess. Run the transfer through the dryer. If the design is multi-color use the fine powder and apply it after you print the last color and before you cure it. If you are doing one color images use the course powder. You might find you need to turn down your head press temperature to 325 degrees F with less pressure.


Resources

If you like this topic I produced a short little video called Screen Printing Heat Transfers. It is available from the T-Biz Store and only sells for $39.95.  The book How To Print T-Shirts for Fun and Profit has a complete chapter on heat transfer making and is also available from this website.


Summary
That’s it in a nutshell.  The important points are to print hot- or cold-peel plastisol, through a coarse mesh screen, onto heat transfer release paper, under-cure the ink. That doesn’t sound too hard, does it?  Give it a try!  Good luck!

Vinyl Transfers

Vinyl Transfer, also known as Vinyl Flex Heat Transfer, is done by cutting vinyl materials that is fused with fabric heat transfer glue and applied to fabrics using heat and pressure.

The cutting of the vinyl material usually uses a cutting plotter. Designs are half cut and the unwanted parts are weeded, leaving the desired design on the carrier sheet. The vinyl material is then transferred onto fabrics using a heat press.

Dye Sublimation Transfer

Dye Sublimation, also known as Disperse Dye Heat Transfer Printing, Dye is a digital print method used predominantly with polyester material in which the disperse dye ink is dyed into the fabric. Compared to Vinyl Flex Heat Transfers, Transfer Paper Heat Transfers, Plastisol Heat Transfers, Dye Sublimation has the best print quality and durability. The print result is very similar to that of Discharge Screen Printing. It is the preferred decoration method for polyester sports uniforms especially cycling jumpsuits. The advantages of Dye Sublimation is that because the dye actually sublimates into the fibres of the clothing, dye sublimation has no hand. It has excellent stretchability on fabrics such as spandex. It also has no limitations on the number of colours in a design and the ability to do one-off prints - it also has the advantage over those two print methods of not leaving any polymer behind on the t-shirt. The disadvantage of dye sublimation is that it cannot be applied to such as cotton. There are treatments that can be applied to the cotton to transfer a dye sublimated image to the cotton, but that is a simulated effect more than it is true sublimation. It's other significant disadvantage is the inability to decorate dark colored fabrics. The dye sublimation transfers are applied with a heat press. It can also be used to apply graphics to non-fabric items such as tiles and metal.

Discharge Screen Printing

Discharge Screen Printing, also called Extract Printing, is a method of applying a design to dyed fabric by printing a colour-destroying agent, such as chlorine or hydrosulfite, to bleach out a white or light pattern on the darker coloured ground. In colour-discharge printing, a dye impervious to the bleaching agent is combined with it, producing a coloured design instead of white on the dyed ground. The benefits of Discharge Screen Printing is that the printed fabric will have a very soft feel as the printing ink is dyed into the fabric and not onto it. As the ink is dyed into the fabric and not as a layer on it, prints and design printed using the Discharge Screen Printing method do not crack or peel after wash. The drawback of Discharge Screen Printing is that chemicals used to bleach out original colors in fabric may not be environmentally friendly unlike common water based ink.

Plastisol vs. Water-based Ink for Textile Printing

Mike Ukena, retrieved from http://www.pneac.org/sheets/screen/plastisolvwaterbase.pdf

There are two main types of ink that are used for textile printing. Water-based ink utilizes either dyes or pigments in a suspension with water as the solvent. The evaporation of the water is necessary to set or cure the ink. This curing can take place either at room temperature or using a forced-air dryer depending upon the specific water-based ink used and the speed or volume of production.

Plastisol ink is a PVC (Some inks are Phalide Free) based system that essentially contains no solvent at all. Along with UV ink used in graphic screen printing, it is referred to as a 100% solid ink system. Plastisol is a thermoplastic ink in that it is necessary to heat the printed ink film to a temperature high enough to cause the molecules of PVC resin and plasticizer to cross-link and thereby solidify, or cure. The temperature at which most plastisol for textile printing cures at is in the range of 300 °F to 330°F

Both types of ink are very popular. However, for the most part, they are used in very different applications. Plastisol is the ink of choice for printing of finished goods such as T-shirts, sweatshirts, jackets, and tote bags. Water-based ink is the ink of choice for the printing of yard goods; either in piece form or on the roll. Both inks have technical advantages and disadvantages for use in specific applications. They also each have their own environmental impacts and these should be considered for the particular application and shop setup.

Advantages of Plastisol

  • Plastisol can best be described as a “user-friendly” ink because it is very easy to manage.

  • Plastisol can be left in the screen for extended periods of time without clogging the mesh. It is ready to use right out of the container more than 90% of the time. In most applications, it can be printed wet-on-wet, which allows for increased production speeds. It comes in formulations that can be printed on light and dark fabrics. And, in most municipalities, the disposal of waste plastisol is a very simple process.

  • Plastisol does not “dry”. In order for a compound to dry, there must be evaporation of some kind of solvent. Since plastisol has little or no solvent, it cannot dry. Because of this characteristic, plastisol can be left in screens, the lids can be left off of the ink containers (although keeping them covered is a good practice to keep lint and dirt out of the ink). And ink left at the end of the job can be returned to the container for reuse without any adverse affects. This last practice is a great benefit in reducing waste product.


  • Plastisol is extremely versatile in that most printers never have to amend the ink. They are able to use it direct from the container without ever adjusting the viscosity or the strength.

  • Plastisol comes in strengths from transparent to very opaque and most printers will have the various versions available to use, depending upon the type and color of fabric they are printing on. The various opacities of ink also vary greatly in price with the most opaque being the most expensive, mainly due to the cost of the increased pigment. So, good shop management dictates that the proper opacity be applied to each fabric in order to be cost effective.

Plastisol Disadvantages

  • Since Plastisol is a thermoplastic, it will remelt if it comes in contact with anything hot enough. For that reason, plastisol prints cannot be ironed. If an iron touches a print, it will smear the ink.
  • Plastisol ink also creates an ink film that can be felt with the hand. The higher the opacity of the ink, the greater the hand. This heavy hand is considered a disadvantage at the consumer level. One of the most important practices when using plastisol ink is to keep the ink clean.

What this statement means, is that it is very beneficial, and cost effective, to keep plastisol colors from being contaminated by dirt, lint, or even other colors of ink. By maintaining clean shop practices, there will be a great reduction in ink waste. Clean ink can be returned to the original ink container for reuse. There is no degradation in the quality of plastisol as long as it is not mixed with other colors or contaminated with foreign materials.
Plastisol that has been contaminated with other colors is can still be retained in a separate container for blending with other waste ink. Often times this waste ink can be used to create new colors or, it can be over pigmented with fresh pigment to create a dark color, such as black, for use on less critical jobs.

With good plastisol ink management, waste can be reduced to a very small percentage. Plastisol product that is unusable is not considered hazardous waste in most municipalities as long as it is solidified (cured). The best way to achieve this cure is to heat the waste container itself to 160 °C (320 °F) for a period long enough to cure the ink all the way through. In practice, a one gallon container of plastisol will cure all the way through in approximately one hour.

If the plastisol needs to be disposed of in an uncured state, then hazardous chemical regulations usually apply. For either cured or uncured disposal, it is recommended that you always check with local regulatory agencies.


The biggest environmental hazard in the use of plastisol comes in the screen and equipment cleaning steps. In order to emulsify the ink for easy removal from screens, squeegees, flood bars, spatulas, and work surfaces, it is necessary to use some type of solvent. The waste ink and the solvent must be disposed of properly in order to minimize environmental impact.
The screen printing industry has been very proactive in the creation of products that can minimize the impact of these cleaning processes. Solvents are available that are “more” environmentally sensitive than the traditional petroleum based solvents. In addition, there are many types of filtration and cleaning systems available to capture inks and solvent residues to minimize the solids that are discharged into the sewer system.

Water-based Ink Systems

Water-based inks are defined as those that utilize water as the main solvent. That does not mean, however that water is the only solvent. It is significant to note that many water base inks contain “co-solvents” which may even be petroleum based solvents. The reason these co-solvents are used varies, but one of the key reasons is to decrease the time and heat necessary to cure the ink film on the fabric.

Advantages of Water-based Inks

  • Water-based inks are a good choice when a “soft hand” is desirable. A soft hand is the condition where the ink film cannot easily be felt with the hand when passed across the surface of the fabric. This affect is often used as an argument for why water-based is preferable to plastisol as plastisol has more of a hand than water-based.

  • Water-based ink also has the advantage of being an excellent ink system for high speed roll-to-roll yardage printing. Such printing is done on large sophisticated equipment that has very large drying (curing) capacity.

  • Water-based ink also is a good choice where ink penetration is desirable, such as in towel printing. Towels have a high nap fabric that must be printed in a manner where the ink penetrates or wicks through to the base fabric for adequate coverage.

  • Waterbased inks that are designed to wick into the fabric are excellent for this application. Ink wicking is not a desirable affect in most other fabric printing as it will destroy the design and registration of multiple colors.

Disadvantages of Water-based Ink

  • Water-based ink is much more difficult to cure than plastisol. A shop that is interested in printing water-based ink must have the drying capacity to remove the water. The dryers used for water-based printing tend to be larger than those needed for plastisol. In plastisol printing, the ink film must only reach the cure temperature for a brief moment. With water-based ink, the temperature must be reached and then held until all of the solvent (water) is removed. There are water-based inks that will air dry but they are usually only acceptable for craft level printing as the room required for curing greatly reduces productivity.

  • Many water-based inks can also be more quickly cured with the addition of a catalyst that will assist the heat in the curing of the ink by continuing the cure even if all of the water is not removed in the dryer. The disadvantage of a catalyst is that once it is added to a water-based ink, it creates a time limit or “pot life” where the ink must be all used in a certain time or be discarded. Most catalyzed water-based ink pot life’s are between four and twelve hours. Since water-based inks contain water as an evaporative solvent, care must be taken to prevent the ink from drying in the screen. If water-based ink is left in open mesh for even a short period of time, it can clog the mesh and ruin the screen.



  • Practiced water-based ink printers must always be conscious of how long a screen sits between prints to prevent the ink from “drying in”. While modern water-based inks are less prone to this phenomenon, it is still a concern. In addition, when a water-based print job will take more than one day, the ink must be removed and the screen cleaned with to prevent drying. The ink is then put back in the screen on the next work day and the job is continued.

  • Water-based ink is also much more aggressive than plastisol towards the emulsion that is used to create the screen stencil. Emulsion manufacturers all make “water-resistant” emulsions that must be used for water-based printing. If standard emulsion is used, the water-based ink will destroy the stencil by melting the emulsion is as little as a few minutes. Even when the proper emulsion is used, screen life tends to be much less with water-based printing than it is for plastisol printing.

Water-based Ink Cleanup

There is a common misconception that because water can be used for cleaning screens, squeegees and tools, that the waste water can just be discharged in the sewer. However, the water-based ink is not just water. There are pigments, binders, thickeners, and sometimes, even co-solvents in the ink residue.

Screen cleaning systems that can at least capture the solids are still recommended. In addition, water-based that has not been catalyzed can be returned to its container for reuse. If the ink has been catalyzed, it should be considered hazardous waste unless it can be dried out (all water and solvent removed) before discarding. If it cannot be dried, it should be disposed of as hazardous waste.


Summary
Whether printing with plastisol or a water-based ink system, you are still printing a chemical compound. Therefore, it is essential that proper handling and disposal methods be practiced. As stated above, there are advantages and disadvantages to each ink system. The key is to use the proper ink for the application, minimizing waste product, and always dispose of waste properly.
  
TypePrint EaseOpacityHand/FeelCuringInk Recovery
PlastisolEasyLow-HighMed-HeavyEasyEasy
Water BaseMed (Dries Fast)Low-MedLow-MedMedEasy


UsagePlastisolWater-based
T-Shirts, light coloreExcellentExcellent
T-Shirts, dark coloredGoodPoor
Nylon JacketsGoodFair
TowelsPoorExcellent
YardagPoorExcellent

Transfer Paper Heat Transfer

Transfer Paper Heat Transfer has been around for a very long time. Specially coated technical papers are printed using laser printers or inkjet printers and then applied to t-shirts or other fabric substrates using a heat press.

The early generations of heat transfer papers are plague with issues of cracking after washing, fading of colour and many other quality issues. These resulted in an opinion in the minds of public that heat transfer prints are not durable, not of good quality and looks ugly.
The opinion of heat transfer paper is further affected by low quality technical papers produced in poor conditions without proper quality controls.

However, in recent years, several reputable brands of heat transfer papers have emerged and improvements are made to heat transfer papers every year. Heat transfer papers are now much more durable and can produce great effects and some even do not have visible polymer windows seen in earlier papers.