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Transfer Printing Essay Research Paper Transfer PrintingMan

Transfer Printing Essay, Research Paper


Transfer Printing


Man s urge to decorate his clothing and fabrics of his environment, by means of


printing, dates back to the earliest of times. Over the ages and even more now it is


desirable to have designs on our fabrics. There are many ways of getting these designs


onto our clothing and fabric. One way of doing this is printing on fabric. Printing is the


localized coloration of textiles(Mock). It is characterized by use of delivery systems that


apply precise amounts of colorant to locations on the fabric. There are several printing


methods such as roller printing, screen printing, ink jet printing, and transfer printing.


This paper will focus on the method of transfer printing.


One of the latest and most interesting developments in the field of textile printing


is the process known as transfer, or Sublistatic , printing. Transfer printing is a term


used to describe any process by which a colored design may be transferred without image


distortion from a print on paper to a textile or polymeric material. It is simply a heat


transfer method of patterning synthetic fabrics. The pattern is first printed on to a paper


web. This is done with special inks that contain dispersed dyestuffs which sublime at a


temperature between 160 and 220 degrees Fahrenheit. Sublimation is the process in


chemistry whereby a solid is converted into a vapor by heat and back again into a solid on


cooling(Storey). At this temperature the dyestuffs have little affinity for the paper carrier,


but a high affinity for the fabric to be printed and thus the image is transferred from the


paper to the fabric. There are many advantages of transfer printing.


The majority of polyester, acrylic, acetate and triacetate fibers are suitable for the


transfer process. Fabrics woven or knitted with up to thirty percent natural fiber mixtures


also react well to transfer printing. It is also easy to print continuous fabric, cut pieces of


fully fashioned garments, or even the made-up garments themselves, with a rotary or flat


press calendering machine. More advantages include flexibility, quality, and the fact that


bonded fabric can be printed after the bonding has taken place. To run a transfer print


order entails the setting up of a calender, which is a quick operation. All that has to be


done is turning the dial to the correct temperature and proper speed. The paper and fabric


is put through the calender and printing begins. All the steaming and washing necessary


for wet printing produces fabric shrinkage of only 8-12 percent. Seconds created by


misprints, smearing, or other problems run 5-8 percent(Printing guide). Waste through


checking sampling and handling runs less than 1%(Printing guide). These numbers are


all significantly low. Quality is only natural to transfer printing. Paper is easier to print


than fabric, and gravure printing gives better results than screen printing. One serious


drawback to the printing of this type of cloth used to be the amount of distortion that


resulted. Now, stripes, checks, and other geometric patterns are all easily attainable by


the transfer process. Obviously transfer printing did not mysteriously appear out of the


blue without any forerunners. Transfer prints on textiles have been produced in various


forms for atleast a century.


Development


In 1953, an Italian process, The Star transfer printing process was introduced by


Stampa Tessuti Artistici of Milan(Miles). This was a direct and true forerunner of


transfer printing as we know it today. The paper was all photogravure printed and mainly


transferred onto natural silk and extremely fine quality cotton. The transfer paper was at


first in cut sheets. It was passed between pressure rollers at varying temperatures. The


big disadvantage of the Star method was that a normal fixing process was also necessary


after transference, and this made it very expensive and non-competitive. Today we have


more modern technologies.


Transfer Techniques


In 1960, Noel Deplasse started experimenting and in 1965 Filatures Masurel


registered the name Sublistatic when referring to the products of other firms. Deplasse


became Director of Society Sublistatic and it took about four years before the company


reached its full commercial peak. In 1970, Bemrose, an old British photogravure printing


firm, decided to go into the transfer business with their own patents. The two highly


secret aspects of the process, and those which differ slightly from firm to firm, are the


composition of the disperse print paste and the depth of the engraving on the


rollers(Miles). Transfer paper can be printed by four different methods: photogravure,


flexography, lithography, and screen printing. The first two processes are by the far the


most widely used. Photogravure at first led the field possibly only because the French


firm, Provoust Masurel, had the machinery. However, in the early 1970s flexography


made great strides into the transfer business, and in fact could produce 90 percent of the


designs being used(Storey). Lithographic printing from flat plates is only suitable for


non-continuous designs. Screen printing also accounts for very little of the market.


There are basically two groups of advantages in the transfer process, those affecting


design and those for industry.


Since the design is first printed on paper, one does not have to rely on the ability


of the cloth surface to accept certain effects. With all other methods of printing the cloth


structure is very important. Now though, the design needs only to be something which


can be printed on paper, therefore giving few limitations. This gives freedom to the


designer. It is possible now to get detailed printing from trichromatic photographically


separated positives and to produce an infinite number of tonal and color effects in this


way(Storey). Also interesting and valuable from the design viewpoint is the fact that


exact fitting of colors is achieved at the paper stage. The photogravure printing machines


employ electronic color registers which control registration. This means that some of the


best work produced by the transfer method can have the fine detail and precision of color


fit associated with the work seen in many of the old nineteenth-century pattern


books(Storey).


Knitting


The are many advantages of transfer printing in industry, notably in the knitting


industry. Knitted fabrics nearly always present the printer with a problem. Good care has


to be taken not to extend the cloth before gumming it down and also to gum down


securely. It is difficult to get exact color registration owing to a tendency of the cloth to


advance along the print table during printing. With the transfer method all the colors are


printed at one operation, giving a sharply defined and accurate print. This advantage


applies to woven cloth as well. From the point of running a textile concern there are


several points in favor of using the transfer process. No special skills are needed to


operate either the rotary or the flat calenders used in printing off the cloth. Both types of


calender are inexpensive pieces of equipment. Add to these qualities the fact that the


transfer method needs no auxiliary printing equipment, and that no stocks of dyes or any


other chemicals are needed. It is also an extremely clean process mainly due to it being a


dry technique. To the knitted garment industry, the transfer process has the added merit


not only of being able to print the back and front of a garment at the same time, but being


able to heat set at the same time as well. Orders can usually be met in a short time. It is


these qualities of speed and adaptability which are among the most sought after in this


competitive era.


Photogravure


The method used for making the gravure rollers varies very little from that of the


production of the photographically engraved machine. The main differences are that the


cylinders are often of silver rather than copper. Silver is the best metal for giving a fine


surface. The positives are all photographed through extremely fine screens, so producing


rollers capable of printing all the subtleties of tone and color associated with modern


photogravure work. Conventional gravure rollers have all the cells or dots of the same


size but varying depths, and so can produce all the varying tones from one


color(Symposium). It has been found that for use in transfer printing the hard dot


method is better, the cells are of differing widths but of the same depth(Symposium).


This type of engraving not only makes a good end product, but means that the cylinders


can be etched automatically. They are rotated in a closed tank of acid for a measured


time and brought out etched to a correctly controlled depth. It is very important that the


etching is not too deep because this would mean that too much color would be transferred


to the cloth, with a possible loss of fastness. When all the cylinders are completed, they


are fitted in position in the gravure printing machine. This is unlike the textile roller


printing machine in that the cylinders are not arranged round a central pressure bowl, but


one after the other in a horizontal line. Each color must be dried before the next is


printed because there is a great deal of close color work and paper is not absorbent as


cloth is. Each roller is supplied with ink, has the surplus scrapped off by the doctor blade


and prints the paper, which then goes up vertically to be dried before coming down again


to be printed with the next color(Storey). When printed, the colors on the paper do not


even remotely resemble the eventual cloth and so it is obvious that

the transfer printer


must be skilled at matching and sampling. This difficulty is being overcome by the


assembling of a growing range of standard shades. After being checked for flaws the


paper is then wound up. Another interesting feature worth mentioning is that single-color


cloths can be produced from paper printed by means of a specially engraved cylinder.


This paper gives to the cloth a solid shade dyeing effect. The correct matching of printed


and plain cloths can be found. Anyone who has experienced the difficulties of getting a


piece dyed shade to match a printed fabric will readily appreciated the significance of


this(Miles).


Limitations


There are some limitations to the transfer method. One of these being that it is


only really successful on polyester, polyamide and acrylic fibers or blends, and on acetate


and triacetate(Storey). There has been some criticism of the fastness properties on nylon


6-6 and triacetates and it is often felt that they are better if steamed afterwards. The


transfer paper is fairly costly and yardage printing does not become economic until after


ten thousand yards. A number of firms ran a commission printing service for the paper,


as well as developing their own collection for sale. Transfer printing as a method has


certainly not lived up to expectations and many companies became bankrupt. This was


partly due to the disenchantment with double knit polyester and the move back to rayon


and cotton(Symposium). Experiments in transferring onto these fibers continue.


Flexographic Printing


The idea of cutting relief images in rubber has been used of many years for the


printing of corrugated paper and packing cases. It is only in the last ten years or so that it


has begun to be used in cylinder form for Duplex printing of furnishing fabrics. Gobden


Chadwick Limited produced a machine for wallpaper work and transfer printing. In the


transfer printing field it shares almost equal popularity with photogravure work. It was


the advent of polyethyne in the packaging industry that first aroused interest in this type


of machine. Probably the two main reasons for the sudden increase in the use and


development of the method are the advances both in rubber technology, and in molding


techniques(Robinson). Aside from these reasons, transfer printing itself is becoming so


much more popular than was anticipated. It has provided a big outlet and incentive for


development.


For whichever industry they are intended, the patterned cylinders are made in one


of two ways. The pattern can be cut directly into the surface of the rubber roller. Several


rubber stereos are made and fixed with adhesive onto the surface of a rubber cylinder.


Some designs need a combination of the two types of cylinder.


When making a cylinder by direct cutting, the full size positive is first wrapped


round the rubber cylinder, which has been coated with photographic emulsion, and the


pattern is photographed onto this cylinder(Storey). The cylinder is then placed on a


mandrel and the cutter moves away the outer limits of the shapes to be cut away, and then


removes the background to a depth considered sufficient for the use to which the


particular roller will be put. It is important that the walls of the relief shapes should be


cut sloping out at an angle instead of vertically, to ensure sufficient support at the base.


Being that it is very easy for a positive to twist out of position slightly when it is wound


around the cylinder, subsequent color rollers have their patterns printed onto them. This


ensures that if there is a flaw, each cylinder will still match up with the others in the set.


To make a cylinder built up from a series of rubber stereos, each color separation


is photographed on to a zinc plate and acid-etched. Bakelite powder is dusted over the


mold before placing it in the press in order to maximize the depth of the finished stereo.


A piece of unvulcanized rubber of the correct size is then placed in the press in contact


with the mold and then heat and pressure vulcanize and form the rubber(Miles). From


there it has to be cured. All the stereos are then placed into correct repeat positions


around a rubber roller and fixed with an adhesive. The rollers then have to be cut deeply


by hand. When the design is finished with, the rubber can be turned off and the roller can


be used again.


As far as transfer printing is concerned, most of the flexographic printing


machines are suitable for six colors, and are of the single impression cylinder type. This


impression cylinder is of steel and is very heavy. It is finely surfaced and measured as to


be very exact in diameter. A rubber roller rotates in the color trough and then transfers its


color to an anilox cylinder which in turn supplies a controlled amount of color to the


pattern roller. The anilox roller has a steel core lined with copper. When the machine


runs at about 200 feet per minute, it is unnecessary to air dry between colors. If the


machine is to be run around 300 feet per minute it is essential to have a warm air drier


unit installed between each color station. The amount of color can be varied simply by


changing the speed of the rubber inking roller. An important point to note in flexographic


transfer printing is the quality of paper needed. It is too absorbent it will not give up


sufficient dyestuff on subliming. If the surface is too hard it will cause a pressing out of


color, leading to subsequent shadowing in the print on cloth(Miles). Flexography has a


part to play in Durex direct fabric printing as well as transfer work. Flexographic


cylinders are used in the English Calico machine. This machine was constructed by the


Stalwart Engineering Company and was later sold. Only three machines were built. The


printing cylinders are arranged in a vertical form, so the running of the machine is simple.


Although very accurate registration of colors is impossible with this arrangement, it is


considerably better than the ordinary Duplex, and has the advantage that when pigments


are used the amount of color deposited on the cloth is less than from the Alijaba machine,


which means that the cloth is much less stiff(Storey). Flexography was slow to take off


in the United States, but now computerized laser cutting is being used for the production


of the cylinders.


Machinery


There are three basic types of machinery available for the transfer printing of


textile materials. They are: flat-bed presses, continuous high production machines, and


vacuum transfer machines. Flat-bed presses range from very simple units to the more


comply highly productive models having conveyor or rotary supply stations. In the


simple machines a top metal plate is maintained at a certain temperature and is lowered to


press the paper into good contact with the garment. Transfer of the print is obtained in


less than a minute. Uniformity of temperature and pressure are important, and different


manufacturers have used several systems to achieve these requirements. Continuous


transfer printing machines are available in several forms. The most common is the type


where the paper and fabric pass face to face around a heated cylinder or calender while


contact between the paper and the heated surface is maintained by controlled pressure


from and endless blanket. Production rates up to 1300 meters per hour are possible,


depending upon the path length of the fabric in contact with the heated cylinder. An


essential element in printing by this method is an even temperature distribution over the


heated cylinder surface to avoid changes in color across the cloth width. Both flat-bed


presses and cylinder machines can be made to operate under conditions of partial or


complete vacuum. By using a finely perforated cylinder which can be maintained at an


internal pressure lower than atmospheric pressure, air can be made to flow through the


print paper and fabric(Miles). This enhances the dye transfer rate and improves fabric


penetration. The fabric is held against the cylinder surface and the pressure difference


ensures contact with the paper without the use of a backing blanket. With the


Kannegiesser Vacumat machine, heat is supplied externally through infrared heaters


placed around the cylinder. The main advantages of this method are the absence of fabric


compression and glazing and the better penetration of thick fabric and low pile material.


For high pile fabrics there may be some creep or movement of the paper relative to the


fabric, with loss of design definition. Production rates are of the order of 200 meters per


hour(Miles).


Into the Future


Recently, immense changes and developments have taken place in the field of


textile printing. These changes are almost all related to computerization. The speed,


accuracy and flexibility which can result from these automated systems are highly


desirable qualities, particularly at this time. Quick response, the phrase used to indicate a


system which allows the producer to respond immediately to the demands of the


consumer of client, has become the watchword. Printing was and still is a very important


element of producing a fabric. With new techniques being discovered all the time, it will


be continued for a long time.


References


1. Robinson, P. Exploring Fabric Printing , 1970, Mills and Boon Limited.


2. Symposium on Transfer Printing , March 24-25, 1976, New Jersey,Textile Research


Institute.


3. A Transfer Printing Guide , 1979, Yves Mahe.


4. Storey, J. Manual of Textile Printing , 1992, New York, Thames and Hudson.


5. Miles, L. Textile Printing , 1981, England, The Dyers Company Publications Trust

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