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1.0 Pad Printing

The pad printing process or tampon printing as it is known in Europe, is becoming more and more important to industrial applications every year. Pad printing began to conquer market shares (over hot stamping and screen printing) in the early 1970's, especially in printing areas where other methods showed their limits or could not be used altogether. For example:

printing irregular shapes and surfaces

printing complicated substrates at a reasonable speed

printing of fine detailed images

offering the printer an enormous versatility

high quality printing on irregular surfaces (such as in multi-cavity molds)

1.1 Pad Printing History

The origins of pad printing can be traced back more than 200 years ago when the first off-set type of hand transfer printing was done using a bag of soft gelatin material to transfer the image. The first transfer printing plates were crafted from copper and were meticulously engraved by hand. Today they are photo-chemically etched onto hardened steel. This type of hand transfer was originally used in the transferring of images onto "blue" china plates and dinnerware. The first true industrial application using a mechanical pad printer was accomplished much later in Switzerland to imprint watch faces. Soon there after a German firm was known to have develop a pad printer and the first application was reported to be for the imprinting the multi-color eyes of the china dolls. This industrial process was implemented to help speed production along and eliminate intensive skills.

The replacement of gelatin came sometime after WWII with the development of RTV silicone compounds. With the development of silicone transfer pads, the pad printing process has become an exacting method of imprinting on industrial products.

1.2 Typical Applications

Still today, pad printing is not well known as a printing process, but we see and touch pad printed items every day. For example:

Electronic micro components, such as cables, connectors, IC chips, relays, etc.

Industrial Buttons and Keys as found on calculators, telephones and computer keyboards

Electrical Household Appliances such as iron, VCR, TV, coffee pots, telephones, etc.

Large Industrial Appliance panels such as on dishwashers, washing machines and dryers

Toys such as figurines, dolls, cars, infant bottles, pacifiers, rattles and night lights.

Advertising Specialty Items like pens, lighters, key chains, clocks, watch faces

Sporting Goods such as golf balls, baseballs, tennis rackets, footballs.

1.3 Main Advantages of Pad Printing

The main advantage of pad printing when compared with other similar printing methods is the unique possibility of printing many types of irregular shaped surfaces, while other printing methods are often times limited to flat and/or round surfaces only (such as screen printing).

Pad printing offers the manufacturer with the same, or in some cases, greater versatility as screen printing and hot stamping when pertaining to the variety of printing substrates that can be decorated. Nearly all known materials can be pad printed. To name a few; plastic, glass, metal, coated substrates, ceramics, silicones, pharmaceuticals, foods and more.

1.4 Ink Transfer In Theory

Pad printing is an indirect offset (or a gravure) printing process, where an image is transferred via a soft silicone pad onto the surface to be printed. Today there are two primary doctoring methods used. One being the old traditional open inkwell system and two being the newer more widely accepted sealed cup system. Most users these days prefer the closed cup due to their many benefits over open ink systems.


To start off pad printing, a cliché plate is used that has the artwork chemically etched into the lapped smooth steel surface (photo polymer clichés can also be used). Typically the etch depth is around .001" to .0012" or 24 to 28 microns. You can make photopolymer cliches with our ‘Plate maker’.

In a Closed Cup, the ink is placed inside a cup and then the cliche is placed on top. The magnet inside the closed cup ensures a perfect contact between the ceramic ring around the closed cup (This is know as ‘Doctor Blade). The Doctor Blade removes the ink from the flat printing plate, leaving a deposit of ink in the etched area only. The silicone pad or tampon then lifts the ink from the etched image and transfers the image directly onto the surface to be printed. By virtue of the shape of the silicone pad, the ink releases onto the product to be decorated and the silicone pad moves back to its "home" position, ready for another print cycle.

Today in pad printing, transfer pads made from silicone rubber are used almost exclusively since the silicone materials are the best known release agents for this printing process. Also there has been some pad printing done using Polyurethane pads, for specialized applications.



























1.5 Factors of Influence from the Plate

The printing plates used for pad printing are usually made of steel or a nylon material called photo-polymer.

Steel clichés have a very long life expectancy, typically around 700,000 to 1,000,000 or more imprints can be expected. While nylon clichés have a much shorter life cycle, typically around 10,000 to 40,000 imprints depending upon various production factors. Obviously, steel plates are more expensive than nylon plates, but many customers choose steel over nylon for ease of production.

The proper etch depth for the printing plates will vary, between .0006" to .0015". The most common etch depths range from .001" to .0012" (24 to 28 microns). The theoretical ink lay down will vary according to the plate type, etch depth, shape & hardness of the silicone pad. The theoretical lay down ranges from .00057" to .00075" (12 to 16 microns), depending upon etch depth. Also, temperature, humidity and other factors in your environment may influence the variations of ink lay down.


1.6 Cleaning Silicone Pads

When you have a brand new Silicone pad, we recommend that you first "break them in". To do so, we suggest that you wipe the pad surface with a clean rag soaked with Acetone, Alcohol or thinning solvent. This will remove the build-up of silicone oils that are present on the new pads surface and will help break down the high glossy sheen you find on most new pads.

After the pad has been "broken in" with 3 to 6 wiping (between each wipe, print on paper approx. 10 to 20 times) we suggest that you use clear adhesive tape. We recommend that you use a good quality tape. It is best to use 1" or 2" wide 3M Magic brand tape (as this has been de-ionized and has a very low static count). There are some advanced machines on the market that have built in tape cleaning systems on the machine as a standard feature. These advanced machines make the break in period of a printing pad very short.

If you continually use solvents on your printing pads, you will cause them to prematurely wear out.

IMPORTANT NOTE: When handling any chemical, always remember to wear proper personal protection as outlined by the manufacturer, including rubber gloves.


1.7 Pad Printing Ink

While good ink flow and consistent mesh opening are important factors in a screen printing operation, pad printing inks must above all, have excellent release characteristics from the silicone pad. It is also extremely important, that the ink film on the pad becomes tacky during the transfer process, by way of solvent evaporation.

Such a tackiness is necessary, since the adhesive tendency to the substrate must be stronger than the adhesion of the ink to the silicone pad. It is therefore very important to select the proper ink solvent for your particular needs. If the solvent is evaporating too fast, the ink will dry in the etch and a proper pick-up by the silicone pad would be inconsistent. Conversely, if the solvent used dries too slowly and does not become tacky in the plate and on the silicone pad, the transfer will also be very poor and inconsistent (the first few prints may look acceptable and the subsequent prints will be missing portions of the printing).

Because of this need to adjust your inks drying characteristics, some manufacturers offer a variety of evaporation rates and solvents. By having a variety of thinners, you to compensate for a variety of printing environments. Also, by blowing cold or hot air on the pad surface, the evaporation of solvents are accelerated and the transfer may be improved along with faster production rates.

The ink viscosity has to be determined individually by adding the appropriate thinner in a set amount according to the nature of the image to be printed and the substrate. It is very important that the proper ink viscosity is maintained during the printing process by adding thinner throughout the day. In many production environments, thinner is usually added approx. every 45 to 60 minutes, since the solvents are continually evaporating out of the ink mixture. However, if the ink is diluted too much problems with the substrate showing thru the inks surface/ film might show up, since the opacity of the ink is decreased by adding too much thinner. If the ink viscosity is too high (i.e. the dilution is not sufficient) static problems might also occur.

With the newer sealed cup systems that dominate the market today, the fast solvent evaporation that was once common with open inkwell systems is minimized, but not completely eliminated. Most sealed cup pad printing systems that are on the market today cannot completely seal out the air, but they do aid in making day to day production much easier.


1.8 One Component Inks

Generally, one component inks are used to print on thermoplastic substrates, such as Polystyrene (ABS and SAN), Polycarbonate, soft and rigid PVC, Polyethylene and Polypropylene. Since one component inks do not typically have a pot life, pad printing with these type of inks is rather easy in comparison to Two component ink systems (described below), since one component inks can be utilized for a longer period of time.

1.9 Two Component Inks

If extremely high mechanical and chemical resistance of the printed ink is required, it is recommended to use a two component ink system (ink plus hardener). These 2 component ink systems are suited to print thermosetting plastics (melamine, polyester, etc.) as well as thermoplastics e.g. Polyethylene and Polypropylene and a variety of metal, glass and ceramic substrates.

Two component inks dry by:

Evaporation of solvents

Chemical reaction (Polymerization) between the ink and the hardener

It is necessary to note that the final durability and resistance of a two component ink is reached after full cure has taken place. Cure times range from 24 to 72 hours.

One "problem" in working with two component inks is the shorter pot life, which is limited according to ink and hardener type between 6 and 12 hours. Since the expiring pot life of the mixture is predictable, two component inks are widely used in industrial pad printing applications.

2.0 Diluting or thinning Pad Printing Inks

Pad printing inks are usually diluted somewhere between 10% and 20% with thinner. The best printing viscosity is subject to various factors such as hardness of the pad, size of the printed image and the type and nature (porous or non-porous) of the printing substrate.

2.1 Shade Selection and Safe Inks

Compared with screen printing, the theoretical ink lay down in pad printing is much less and inks that are formulated for screen printing applications are not suited for pad printing due to their lack of opacity in the ink. A true pad printing inks will have nearly 4 times the pigment content that a screen printing ink has.

The colour selection is absolutely comparable to screen printing inks and virtually any colour shade can be produced (PMS or to a colour chip). Many pad printed items, such as advertising specialty items and children's toys are subject to certain laws in the USA and Europe, that describe exactly the demands of the printed ink found on the product. Most specifically the EEC regulation EN 71, part 3, for the printing of toys and similar items must be observed. This law strictly forbids the use of coatings/ inks that contain more than trace amounts of heavy metals. Some ink shades have to be modified from their standard pigmentation to meet these strict requirements.

2.2 Sources of Printing Errors And How To Avoid Them

As already mentioned, the most widely used pads are made of silicone rubber. During the pick up of the ink film from the plate, the actual printing zone of the pad is carrying out a rolling motion as it is being compressed onto the printing plate. This rolling motion allows the air above the ink film to be pressed aside.

If the air cannot escape regularly, air spaces or "trapped" air remains between the apex of the silicone pad and the ink film that was picked up. This trapped air will cause a print defect that is visible as so called pin holes in the printed material. One cause of pin hole defects is the dilution (over thinning) of the ink. Hence, the imperfect pin holed image was already picked up from the plate incorrectly.

Possible solutions for avoiding such sources of error are:

Increase the ink viscosity by adding undiluted ink to the ink well

Use a harder durometer pad

Reduce the "down" pad stroke force slightly to reduce the rolling-out motion speed of the pad, permitting the air to escape more regularly.

Move the location of the apex of the pad away from the graphic area where the pinholes are present.

Select another pad with a different (perhaps steeper) profile.

2.3 Substrates

As already mentioned, pad printing is as versatile as screen printing, since nearly all known substrates can be printed with both printing processes. Plastics, Glass, Ceramics, Metals such as steel and Aluminum, Paper and lacquer coated surfaces, to name a few.

2.4 Pre-treatment of Certain Substrates

Especially polyolefin materials (LDPE, HDPE and PP) cannot be printed without pre-treatment prior to the printing. The recommended surface tension is 38 dyne per cm. This surface tension value is required to ensure a proper adhesion of the ink to the substrate.

Use a dyne-tester to check the surface tension on critical materials. If the value Is lower than 38 dyne/cm the applied test ink will form bubbles on the surface of the material.

To provide a sufficient adhesion on such substrates, the area to be printed must be pre-treated by flame treatment or Corona discharge.

2.5 Post Treatment

A further highly critical substrate on ink adhesion is Polyacetal or Delrin. Adhesion on such material may be obtained by a post treatment (after printing) with a hot-air dryer by blowing a hot air stream of approximately 350° C for 2 - 3 seconds, immediately after printing. We have found that the best method is to post flame-treat such substrates.


About Pad Printing

Parts of the information supplied on this page is courtesy of Deco Technology

Image shows closed ink cup with red ink inside and the plate (cliche) being attached to the cup via a strong magnet which is concealed inside the handle of the closed cup.  Once this process has been achieved, you would flip the entire assembly over (as one) and locate it on the pad printing machine, ready to commence printing.

Cliche clamped
 to base

Ink cup

Doctor Blade
(ceramic ring)

Magnet housed
  here in handle.

Artwork

Plate

Printed item

With our Plate Maker, you can now make your own printing plates (also know as ‘Cliches’  - pronounced as “Clee-shays”).

It takes about 15 minutes to make your own cliches from your artwork to a complete plate, ready for printing.

Making your own cliches is cost-effective and allows you to offer a faster turnaround.

You can sometimes ‘burn’ two or more images at the same time, at either end of the cliche, to save you time and money. This of course depends on how large or small the image is and what size pad you are using.

We believe that we are the only professional company to offer a complete turnkey pad printing solution, starting at a low base price.

Our support and after-sales service is free via e-mail or on the phone.