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offset:

see printingprinting,
means of producing reproductions of written material or images in multiple copies. There are four traditional types of printing: relief printing (with which this article is mainly concerned), intaglio, lithography, and screen process printing.
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Offset

Surface or piece forming the top of a horizontal projection on a wall.

Offset

 

(offset lithography), a method of printing in which the ink impression is transferred from the printing plate to an intermediate rubber-coated surface, or blanket. The image is then transferred from the blanket to paper or some other printing material. Offset was first used in the United States, where the first offset press was built in 1905.

The term “offset” usually designates those printing processes that use planographic plates and that are based on the coating of the image, or printing, areas with ink and the non-image, or nonprinting, areas with an aqueous solution that is not ink receptive. During printing, the plate is alternately coated with an aqueous solution and roller-coated with ink. The plate then makes contact with the surface of a rubber blanket, which in turn is brought into contact with paper to produce a print. Thus, a double transfer of the image occurs without the paper ever coming into direct contact with the plate. This lessens significantly the amount of pressure required during printing and, thereby, increases the wear resistance of the plate. In turn, productivity is higher, as is the quality of reproduction.

Offset involves photomechanical and electronic processes during platemaking, as well as mechanized and automated processes during the preparation of the plates and printing. The plates are aluminum or zinc sheets that vary in thickness from 0.35 to 0.8 mm. Their surface is grained to obtain a uniformly mat surface. The printing and nonprinting areas on the surface of the plates are produced by light-generating films, which differ in terms of molecular surface properties and which are receptive to either water or ink. Aluminum plates are subjected to a complex electrochemical preparation in automated lines to increase their adsorption capacity and wear resistance. Composite plates consist of two metals, one of which is extremely ink receptive and forms the printing areas (such as copper), while the other is naturally water receptive and forms the nonprinting areas (nickel, chromium, or stainless steel). Composite plates are used for long-run printing in high-speed presses owing to the high hydrophily and wear resistance of the nonimage areas. Composite plates are usually produced on an aluminum or steel base, and galvanic methods are used to coat the entire surface with copper film having a thickness to 10 μ or with chromium film with a thickness of 1–3 μ. The printing image on either monometallic or multimetallic plates is produced photochemically by projecting an image through a photographic negative or positive onto a light-sensitive coating of the plate. Such a coating consists of high-molecular compounds (albumin, gum, polyvinyl alcohol), chromium salts (diazo compounds), and film-forming substances or photopolymers. When exposed to light, chromium salts harden. Thus, the exposed areas of the coating harden and are rendered insoluble in water. The exposed areas of the coating are shielded by the opaque parts of the negative or positive. The coating is subsequently removed, with the printing image fixed on the plate.

More widely used are coatings based on diazo compounds, in which light causes photochemical decomposition on the exposed portions, leading to the removal of the coating from these areas of the plate during developing. The areas of photopolymeric coatings exposed to light polymerize and become insoluble in water. The coating is removed from the nonilluminated areas of the plate during developing. Coatings consisting of both diazo compounds and photopolymers may be applied in a thin layer on monometallic and multimetallic plates; the layer remains unchanged for a long period of time (more than a year). This makes it possible to prepare the metal and presensitize the plates in special plants.

In the production of presensitized plates, the printing areas on monometals are produced on the coating, which has been shielded during copying by the opaque portions of the photographic positive and which is retained after development of the copy. The coating on multimetallic plates is removed from the printing areas after developing and remains as a temporary protective layer for the nonprinting areas. Chemical or electrochemical etching of the top metal (nickel or chromium) is done down to the copper layer; the protective coating is then removed from the nonprinting areas. In this case, the printing areas are produced on the copper, and the nonprinting areas on the nickel or chromium. All methods of platemaking require that, after the production of the printing areas, the nonprinting areas be treated with a water-receptive solution. This imparts stable water-receptive properties to the areas.

Operations required for the processing of monometallic plates (developing, washing, and drying), are performed separately by mechanized equipment. The production of prints and the preparation of multimetallic plates are carried out on continuous production lines.

Offset prints are produced by offset presses. Each working cycle of a press consists of coating the printing plate, rolling the ink onto the printing areas, feeding the paper into the press, printing, and removing the finished print from the press and placing it on the receiving table.

Offset is popular owing to the mechanization of platemaking and the high productivity of the presses. It makes possible the reproduction of all types of publications.

REFERENCES

Siniakov, N. I. Tekhnologiia izgotovleniia fotomekhanicheskikh pechatnykh form. Moscow, 1966.
Nikanchikova, E. A., and A. L. Popova. Tekhnologiia ofsetnoi pechati. Moscow, 1966.
Zakharov, A. G., and D. A. Fufaevskii. Ofsetnye mashiny i rabota na nikh. Moscow, 1972.

A. L. POPOVA

offset

[′ȯf‚set]
(building construction)
A horizontal ledge on the face of a wall or other member that is formed by diminishing the thickness of the wall at that point. Also known as setback.
(computer science)
(control systems)
The steady-state difference between the desired control point and that actually obtained in a process control system.
(engineering)
A short perpendicular distance measured to a traverse course or a surveyed line or principal line of measurement in order to locate a point with respect to a point on the course or line.
In seismic prospecting, the horizontal distance between a shothole and the line of profile, measured perpendicular to the line.
In seismic refraction prospecting, the horizontal displacement, measured from the detector, of a point for which a calculated depth is relevant.
In seismic reflection prospecting, the correction of a reflecting element from its position on a preliminary working profile to its actual position in space.
(geology)
The movement of an upcurrent part of a shore to a more seaward position than a downcurrent part.
A spur from a mountain range.
A level terrace on the side of a hill.
The horizontal displacement component in a fault, measured parallel to the strike of the fault. Also known as normal horizontal separation.
(mapping)
During construction of a map projection, the small distance added to the length of meridians on either side of the central meridian in order to determine the chart's top latitude.
(mechanics)
The value of strain between the initial linear portion of the stress-strain curve and a parallel line that intersects the stress-strain curve of an arbitrary value of strain; used as an index of yield stress; a value of 0.2% is common.
(mining engineering)
A short drift or crosscut driven from a main gangway or level.
The horizontal distance between the outcrops of a dislocated bed.
(naval architecture)
One of a series of measurements of the perpendicular distance of various points on a ship's hull from the centerline and above the molded baseline; used in ship construction.
(ordnance)
The horizontal distance of forward travel covered by the missile after it strikes the ground; this distance is measured from the center of the hole of entry to the most forward part of the missile.

offset

offset, 3
offset, 2
1. A horizontal ledge on a wall (or other member or construction), marking a decrease in its thickness above; also called a watertable.
2. A bend in a pipe.
3. A change in the direction of a pipeline (other than 90°), e.g., by a combination of elbows or bends, which brings one section of the pipe out of line with but into a line parallel to another section.
4. A short line perpendicular to a surveyed line, measured to a line

offset

1. Botany
a. a short runner in certain plants, such as the houseleek, that produces roots and shoots at the tip
b. a plant produced from such a runner
2. a ridge projecting from a range of hills or mountains
3. the horizontal component of displacement on a fault
4. a narrow horizontal or sloping surface formed where a wall is reduced in thickness towards the top
5. a person or group descended collaterally from a particular group or family; offshoot

offset

(programming)
An index or position in an array, string, or block of memory usually a non-negative integer.

E.g. the Perl function splice(ARRAY, OFFSET, LENGTH, LIST) replaces LENGTH elements starting at index OFFSET in array with LIST, where offset zero means the start of the array.

For an Intel x86 processor with a segmented address space the offset is the position of a byte relative to the start of the segment.

offset

(1) See offset press.

(2) The distance from a starting point, either the start of a file or the start of a memory address. Its value is added to a base value to derive the actual value. An offset into a file is simply the character location within that file, usually starting with 0; thus "offset 240" is actually the 241st byte in the file. See relative address.

(3) In word processing, the amount of space a document is printed from the left margin.
References in periodicals archive ?
To quantify the muscle moment arms associated with offset and non-offset humeral tray/liner designs during two motions, abduction in the scapular plane and internal/external rotation, in order to evaluate the second null hypothesis that offsetting the humerus in the posterior/superior directions will not impact muscle moment arms with rTSA.
The table approximately illustrates the benefit in just one year of offsetting savings versus depositing them in an instant access savings account*.
Furthermore, it is almost impossible to prove that most offsetting projects would not have happened anyway.
If the hedge is not considered effective, the entity cannot use hedge accounting and the entire derivative is marked to market in earnings; no offsetting changes in fair value are recorded.
There is detailed analysis of attitudes towards carbon offsetting according to our climate change segmentation interlinked with flying behaviour - since a most common consumer touch-point with voluntary carbon offsets is when buying flights.
Most travellers are confused about carbon offsetting and nearly all of them think the Government should do more to improve awareness, a poll showed yesterday.
1092 was enacted in 1981 to prevent taxpayers from sheltering income by entering into offsetting positions with little or no net economic benefits, disposing of one leg at a loss in the first year, using this loss to offset income from that year and postponing gain recognition on the offsetting position until a later year; for examples of such transactions, see Smith, 78 TC 350 (1982), and Rev.
The following examples will further describe offsetting and netting and demonstrate the inequities caused by the IRS's failure to implement global netting.
The Financial Accounting Standards Board published an exposure draft of its proposed interpretation, Offsetting of Amounts Related to Certain Repurchase and Reverse Repurchase Agreements.
In view of this determination, we do not address the alternative suggested in your letter that home shopping sales commissions or one-time launch incentives are not subject to any offsetting requirements under Section 76.
org and its partner, the Green Design Institute at Carnegie Mellon University, developed the Carbonfree[TM] Shipping program to allow companies to reduce the impact of their operations by calculating and offsetting the carbon-dioxide (CO2) emissions related to shipments sent to customers.