Printing is a dynamic and highly technical industry that enters into nearly every facet of our lives. Practically every product you buy, use, or look at involves some sort of printing: a sign in a store window, your favorite magazine, a soda can or cereal box, the instructions to the latest computer game you bought, a billboard on the roadside, even this encyclopedia you are reading.
In short, printing is a way of communicating. In fact, it is one of the oldest and most important means of recording and transmitting words and ideas.
The concept of printing originated in China. That's where paper was invented by Ts'ai Lun in 105 A.D. and where the first known book was printed in 868 using wood blocks and ink. The earliest reported form of movable type (made of clay) was also developed in China, by Pi Sheng in 1045. But because of the complexity of the Chinese language, printing was laborious and did not gain much ground until it caught on in Europe in the late 1300s.
At first, the Europeans used block printing primarily to create artistic and religious illustrations. Then, in the 1440s, Johannes Gutenberg revolutionized the printing process by inventing movable type in metal in conjunction with a wooden printing press. Metal type had several advantages over wood: It was more durable, it allowed identical pieces of type to be cast, and it could be arranged more freely. This quick and inexpensive method of printing led to a flourishing of print shops all over Europe.
In the late 1700s, a young German named Alois Senefelder developed a new printing process called lithography. He discovered that if he wrote on limestone with a grease pencil, dampened it with water, and then applied ink, the oily ink adhered only to the penciled marks, so that when he pressed paper against the stone it transferred the image. He also learned that the image could be transferred to other stones so that several identical copies could be printed from the same pattern on a single large sheet of paper. Over the next century, thin flexible metal sheets replaced limestone, and lithography eventually became a standard method of printing.
Innovations of the 19th century include the rotary press, which used revolving cylinders to make an inked impression on paper, and the Linotype and the Monotype machines, which automated the process of setting type.
Another revolution occurred in 1905 when American Ira Rubel inadvertently discovered offset printing. He noticed that an image accidentally transferred from the image plate cylinder of his rotary press to the rubber that cushioned the impression cylinder left a much sharper image on paper than the plate itself.
Offset printing, using the process of lithography, is the predominant method of printing today, accounting for more than half of all printing done in the United States. Of course, the process has been honed, but the principle is the same: A series of cylinders are used to transfer ink from a chemically treated plate onto a rubber cylinder (called a blanket), then onto the paper. The printing plate never touches the paper but is offset by the rubber blanket.
Electronic typesetting was introduced in the 1960s. This process allowed type to be created on a computer system and output to a phototypesetting machine (so called because images were burned onto photographic paper and developed like film). Electronic typesetting replaced the hot type of molten lead and was dubbed cold type. This method, novel for its time, has been on the decline since the 1980s when personal computers and desktop publishing came onto the scene. These new systems allowed users to typeset and design entire pages on their computer screens.
By the end of the 20th century, digital printing was the norm for the majority of printers. Digital printing reduces the steps involved in creating a printed product, as well as the time and costs to the customer. It also enables printers to be much more flexible, since changes in the product do not involve resetting type. Digital printing has led to a reduction in the number of employees required by printing companies, since much of what was once done by operators or technicians is accomplished via a computer.
In the 21st century, 3D printing is gaining momentum. In this technology, printers are able to create three-dimensional objects using a printer that creates these objects layer by layer. Applications for 3D printing include the medical industry, for creating models of patients' organs, prosthetics, etc., and for creating models in architecture, jewelry, and interior design. 3D printer manufacturers are now trying to refine their products to produce more cost-effective, reliable, easy-to-use 3D printers that produce more accurate and stronger parts. Downloadable templates for everyday items make it simple to 3D print objects at home.
- 3-D Printing Specialists
- Bindery Workers
- Business Managers
- Customer Service Representatives
- Desktop Publishing Specialists
- Graphic Designers
- Manufacturing Supervisors
- Photographic Equipment Technicians
- Photographic Laboratory Workers
- Prepress Workers
- Printing Press Operators and Assistants
- Quality Control Engineers
- Quality Control Technicians
- Sales Managers