Ryan Screen Systems a Division of Lawson Lawson Screen & Digital Products Ryan Screen Systems a division of Lawson
5110 Penrose St.
St. Louis, Mo 63115
Phone: 314-631-8753
Toll Free : 800-769-9130

Adhesives

Art Files
Blockout
Degreaser
Dryers
Dryer Elements
Emulsions
Emulsion Remover
Equipment Packages
Exposure Units
File Holder
Flash Units
Hand Cleaner
Hinge Clamps
Home Page
Ink Buckets-Empty
Ink Degradent
Ink Mixing
Ink Plastisol
Ink Scoop
International Coatings
Ink Wash
Laser Targeting
Laser Film
Lease Form
Lease Reasons
Mesh
Mesh Panels
Number Stencils
PMS Color Mixing
Pads
Pallet Adhesive
Pantone Mixing
Pellons
Plastisol Remover
Pocket Printer
Pressure Washer
Printers Automatic
Printers-Cap
Printers-Numbers
Printers-Textile
Screens- Aluminum
Screen Cabinet
Screen Dryer
Screen Opener
Screen Racks
Screens-Wood
Scoop Coater
Scorch out
Scrub Pads
Shipping Map
Spatula
Squeegee w/handle
Squeegee Material
Squeegee Sharpener
Start Up Kits
Tape
Tension Meter
Temperature Strips
Transfer Machines
UPS Map
Vellum
Washout Booth


Screen Printing Paper Number Stencils

Features :
1. Screen printing paper number stencils are labeled Standard or Fullblock and the number on every stencil.
2. The number cut out is perfectly registered with the out side of the paper stencil.
3. When opening the screen printing paper number stencil 100 piece package. At that time you can punch out all 100 number cut outs at one time. This feature is a huge savings of time.
4. This efficient screen printing of numbering method allows you to direct print numbers on most fabrics without investing in expensive numbering equipment.
5. These inexpensive stencils adhere to the screen on the printing stroke and are thrown away after printing the number.
6. The next stencil is then adhered to the screen in the same fashion with no adjustment or clean up of the screen between numbers.
7. Outline stencils can be used with the standard or full block stencil to achieve a two color, outlined number.

Number Stencil Down loads
(Viewed with Adobe Acrobat)
 About Number Stencils - 29K
 How To Use Number Stencils - 32K

---Number Stencils at our "Online Store"

Available in...
 4", 6", 8", & 10"
 Standard & Full Block
Standard & Full Outline


Sets Contain
 200 number 1's
 100 number 0, 2, 3, 4, 5, 6, 7, 8, 9's
 100 3" wide paper strips
 Pack Contains
 100 of any one number or 3" wide strips
Screen Preparation:
Use a 60-110 Monofilament Polyester fabric on
16 X 18 X 10 frame. Block out screen so that an opening
remains in the center
of the screen as follows.>>>>>>>>>>
* For 4" numbers, 6 1/2" H X 6 1/2" W opening
* For 6" numbers, 8 1/2" H X 9" W opening
* For 8" numbers, 10 1/2" H X 11" W opening H X 12 1/2" W opening
* For 10" numbers, 13" H X 14" W opening
* For single digit numbers use 3" wide paper strips to block out
any opening surrounding the stencil.
     
 1) Select appropriate number stencil and Collate with shirts.Place shirt over pallet. Pull number away from sheet. Save for reverse Print numbering if desired


2) Align remaining stencil or stencils(for double numbers on shirt). Overlap stencils 1/4 " minimum between double numbers. Remember to align center pieces of the 0, 4, 6, 8 or 9 within stencil.


3) Use paper strips to mask edges of number(s) where screen opening is larger than stencil.




     
 4) Lay screen down onto stencil and shirt. Pull squeegee once to adhere stencil to screen, and again to print a clean image.
5) Lift screen to check printed number. Remove shirt from shirtboard and place on dryer.
6)Peel the paper stencil off the screen and discard. Don't forget to remove the centers of the 0, 4, 6, 8, or 9.

 
 
   
  7) After drying, your numbered shirt is ready to wear.  

The Process of Screenprinting

A screenprint, or serigraph, is a print made by pushing ink through a screen. It is basically a stencil technique. The number of prints in an edition is limited, as is true of lithographs, etchings, woodcuts and other printmaking techniques. The number of each print in the edition is signified by a number such as 18/20 which means that this particular copy is the 18th of an edition limited to twenty prints.

The use of a screen with silk bolting cloth as a stencil carrier was developed in Europe in the early 20th Century. The method most widely used today is essentially the same though more refined. The screen is a frame of wood or metal with silk cloth or other material stretched drum-tight over it. Nylon and polyester monofilament material are at this time preferred over silk by most screenprinters. These synthetic fibers are tougher, longer lasting, easier to clean, do not absorb ink resins and fats, can be reclaimed after using with photo emulsion, and they print more sharply than silk. Organdy, Dacron and stainless steel mesh can also be used.

The stencil is either attached to or formed on the screen. The screen is then hinged to a printing support, usually a table, which has register tabs to position each sheet of paper correctly. Then ink is pushed through from the top side with a special squeegee onto the printing paper underneath.

Although screenprinting is in principle a simple stencil process, the kinds of images which can be produced cover a wide spectrum. Depending on the stencil used, the artist can produce a range of effects -- from broad, simple areas to fine, detailed, even photographic images. This wide range is broadened further by the use of various combinations of transparent and opaque colors, and by printing on various kinds of paper.

The stencil carried on the screen is the heart of the process since it determines the character of the images printed onto the paper. There are several methods of preparing a stencil, five of which are mentioned here. The stencil must be made of a material that will not be damaged, distorted or dissolved by the ink and must be durable enough to withstand abrasion and flexing during printing.

The paper stencil is probably the simplest. It is nothing more than a thin mask of paper or other thin material such as mylar or acetate which is attached to the underside of the screen; ink squeegeed across the screen will pass through the open areas of the mask and be stopped or blocked from the not-to-be-printed areas by the paper mask. Color areas printed through the paper stencil are generally flat and bold. Edge quality of these areas can be manipulated by the manner in which the stencil is made. The stencil can be cut with a sharp blade to produce crisp edges and sharp detail, or the edges can be torn, burnt or abraded. The stencil can also be punctured to allow ink to pass through the openings or it can be worn thin with sandpaper or a razor blade to allow ink to seep through as a light film. (Of course, these operations are performed on the paper stencil before it is attached to the screen.)

A second kind of stencil is profilm, or hand-cut film. Profilm is a very thin but tough material layered onto a transparent and flexible plastic sheet. Profilm is available in a wide range of colors, all transparent, to fit various uses and may be either water soluble or of the lacquer type, but only the latter may be used with water-based inks. It is used as follows: the profilm is taped over the master drawing so that it lies flat and doesn't shift. A sharp stencil- cutting knife is used to cut through the film (but not the backing) and the areas which are outlined with the knife, i.e., those through which ink is to pass, are lifted away or "stripped." In principle it is similar to the cut paper stencil, but it can produce images of much greater detail and precision. After the areas which are to print have been cut and stripped, the rest of the stencil remains attached to the plastic backing sheet. It is then placed under the screen and adhered to the fabric with the proper solvent. When dry, the backing support is peeled away, leaving the stencil firmly attached to the screen.

The third type of stencil, the negative liquid stencil, is the most direct. The stencil consists of a thin layer of a liquid blockout applied directly to the screen; when dry, the stencil is ready to print. There are no intermediate steps such as cutting or washing out. The blockout can be brushed onto the screen crisply or loosely, with full brush or "dry" brush. It can be sprayed, dabbed, or dripped on or it can be applied with paper, cloth or any other "tool." Alternately, the entire surface of the screen can be covered with a layer of blockout and while it is still wet, materials such as cloth or crumpled paper pressed against it to remove the blockout in some places; after the blockout dries, ink can be pushed through the opened areas in a rich texture. This method is called negative because the blockout is applied directly and purposively to those areas of the screen which block the ink from reaching the printing surface. Stencils made from a glue such as LePage's are used with solvent-based inks; for water-based inks, a screen filler which is insoluble in water is used.

The end result of the fourth method, the positive liquid blockout stencil, is much the same as the previous technique but the process leading to that result is more involved. The areas which are to print are filled in on the screen with a special wax which is applied directly to the fabric. The wax most used by screenprinters is tusche (pronounced toosh), the same material used by lithographers. It is available as a liquid and in solid form (pencil and crayon) and both forms are used in screenprinting. With tusche, many effects related to drawing and painting and to texture rubbings can be achieved. After the tusche has been applied to the screen and dried, a thin and even coat of liquid blockout is spread over the surface of the screen completely covering the tusche. The blockout is repelled by the oily tusche but it adheres to the mesh in areas where tusche was not applied. When the blockout is dry, the tusche is removed. If solvent-based inks are to be used and the blockout is glue, the tusche is removed with turpentine or mineral spirits which does not affect the glue; if water-based inks are to be used, the blockout is a screen filler which when dry is not affected by water, so the tusche is removed with water. The areas which were originally covered by the tusche -- the positive areas -- are now the open parts of the stencil through which ink will pass. The blockout, of course, remains as the stencil which holds back the ink.

The principle behind the photographic method, the last stencil technique to be mentioned here, is relatively simple. A film of light-sensitive emulsion, either layered onto a backing sheet or in liquid form applied directly to the screen, is exposed to light through a film positive which carries the image to be printed. There are many types of photo emulsions on the market, both in liquid and in sheet form, some pre-sensitized and some not. Non-sensitized emulsions can be made sensitive to light with diazo or bichromate sensitizers. The film positive is a drawing or photograph or other opaque image on a clear or translucent support. The positive, or opaque, areas of the film positive block the light from reaching the sensitized emulsion. Light, from a bright source such as a carbon arc lamp, photofloods or other light sources rich in short-wave or ultraviolet radiation, passes through the clear or negative portions of the film positive, exposing the emulsion underneath and thus hardening it. The exposed screen is then placed under a stream of water; the emulsion in areas which did not receive light (the positive parts or those protected by the opaque areas) wash away leaving those parts open. The rest of the emulsion, hardened by the light and no longer water soluble, remains to become the blockout stencil. Screens which are coated directly with liquid emulsion are ready to print as soon as the emulsion is dry. If the emulsion is in sheet form, it is exposed and washed out "off-screen" and must be adhered to the screen while wet. When the emulsion dries, the plastic support sheet is peeled away leaving the stencil firmly attached to the screen.

Different techniques of stencil forming may be combined in various ways to complete one stencil. For example, a stencil may be composed partly of a photo-emulsion and partly by the direct application of a liquid blockout. The finished stencil is then printed as a single one, with one stroke of the squeegee and in a single color (or group of colors, for a split font.) A screenprint may be printed in its entirety through stencils formed by a single technique or by stencils prepared in various combinations.

A screenprint composed of images printed through a number of stencils can be extremely complex. All the stencil images must work together to make a final, single statement. This requirement is complicated by the fact that the finished image is not revealed until the last stencil has been printed. Each stencil adds its own particular elements to the final effect. All stencils contribute some degree of modification, some more than others.

The stencils are printed sequentially, one color at a time, one over the other. Each color is printed in turn on all copies in the edition before the next color is applied. Thus, the size of the edition cannot be increased after the second stencil has been printed, assuming that the stencils are destroyed after each printing, which is usually the case.

Among the factors which influence stencil choice are ease of preparation, appropriateness to the image, and cost. An image of loose brush drawing is most easily done with tusche or drawing fluid and a liquid blockout. Although the drawing could be prepared as a film positive and printed as a photo stencil, it would be more costly in time and materials; only a very long printing run, during which a liquid blockout stencil would break down, would justify its use.

Screenprinting, or serigraphy, is the infant among printmaking techniques. Its birth as a fine art medium was in the mid-1930's but it has advanced in technical and esthetic sophistication so as to rival the more established forms of printmaking. No other visual art form, except perhaps painting, can dazzle the eye with such rich, bold colors and limitless range of visual imagery.