A3 sheet parameters. Standard paper sizes for printing - all you have to do is choose
It is known that the sizes of sheet formats A0, A1, A2, A3 and A4 to A10 correspond to the approved Russian standard— GOST2.301-68.
At all factories in the Russian Federation, the main sizes of paper sheets correspond to the values that are presented in the table below.
| Paper size | Paper sizes in millimeters | Sizes of formats in centimeters | Format Description |
|---|---|---|---|
| A0 sheet | 841 * 1189 mm | 84.1 * 118.9 cm | A sheet of this format has an area of 1 m². This is the largest size format. The remaining sizes are obtained by dividing the A0 format. |
| A1 sheet | 594 * 841 mm | 59.4 * 84.1 cm | The main area of application for A1 format sheets is professional design and prototyping. This format is often called drawing Whatman paper, Whatman paper or simply Whatman paper. This format is obtained by dividing the A0 format in half. |
| A2 sheet | 420 * 594 mm | 42*59.4 cm | The main area of application for A2 sheets is printing banners, coursework and theses in printing houses, as well as traditional newspapers. This is half of whatman paper A1 cut crosswise. |
| A3 sheet | 297 * 420 mm | 29.7 * 42 cm | The main area of application for A3 sheets is student work. Sheets of this size are great for floristry, creating decorative panels, collages, and paintings. Tabloid newspapers have this format. In addition, a sheet of this size is the maximum used in consumer-class copy machines. |
| A4 sheet | 210 * 297 mm | 21*29.7 cm | The main area of application for A4 sheets is for children starting to draw. Paper of this size is ideal for small sketches, as well as for printed materials. The format is widely used in printing. This is the most common paper format on which everything is usually printed and photocopied. |
| A5 sheet | 148 * 210 mm | 14.8*21cm | The scope of application of A5 sheets is the printing of brochures, small-run manuals, which are printed either on a printer or on a copy machine. |
| A6 sheet | 105*148mm | 10.5 * 14.8 cm | A6 sheets are the size of a small notebook. |
| A7 sheet | 74*105mm | 7.4 * 10.5 cm | A8 sheets are the size of a regular pocket calendar. |
| A8 sheet | 52*74mm | 5.2*7.4cm | |
| A9 sheet | 37*52mm | 3.7*5.2cm | |
| A10 sheet | 26*37mm | 2.6*3.7cm |
These formats are not changing. In addition to the Russian Federation, these dimensions are also fixed by international standards. I must say that this is very convenient, of course, because documents are used everywhere.
In addition to formats and sizes, paper is divided into a number of series. There are three of them: A, B and C. This division corresponds to international ISO standards.
- Series A paper Mainly used for documents. For example, in Russia, A4 paper format is used to prepare various documents.
- B series paper used for the production of printed products.
- C Series Paper used for envelopes.
Paper size is a standardized sheet of paper size.
Standard paper sizes varied depending on different time V different countries. Today the following are mainly used:
- international standard ISO 216 (A4 and related) and
- North American system.
The ISO 216 standard was created in 1975 from the German DIN 476 standard and defined the A and B series of paper sizes. The standard is based on the metric system and is based on the format of a 1 m² sheet of paper. The standard has been adopted by all countries except the USA and Canada.
The ISO 216 A-size paper dimensions are shown in the table below, in millimeters and inches (values can be converted to cm by dividing the mm value by 10). The A series paper size picture on the right gives a visual explanation of how the sizes relate to each other - for example A5 is half of an A4 sheet of paper and A2 is half of an A1 sheet of paper.
Size chart for paper sizes from 4A0 to A10
A-size sheet sizes
| Format | Height x Length (mm) | Height x Length (" inches) | Pixels * |
| 4A0 | 2378 x 1682 mm | 93.6 x 66.2" inches | 28087 x 19866 px |
| 2A0 | 1682 x 1189 mm | 66.2 x 46.8" inches | 19866 x 14043 px |
| A0 | 1189 x 841 mm | 46.8 x 33.1" inches | 14043 x 9933 px |
| A1 | 841 x 594 mm | 33.1 x 23.4" inches | 9933 x 7016 px |
| A2 | 594 x 420 mm | 23.4 x 16.5" inches | 7016 x 4961 px |
| A3 | 420 x 297 mm | 16.5 x 11.7" inches | 4961 x 3508 px |
| A4 | 297 x 210 mm | 11.7 x 8.3" inches | 3508 x 2480 px |
| A5 | 210 x 148 mm | 8.3 x 5.8" inches | 2480 x 1748 px |
| A6 | 148 x 105 mm | 5.8 x 4.1" inches | 1748 x 1240 px |
| A7 | 105 x 74 mm | 4.1x. 2.9" inches | 1240 x 874 px |
| A8 | 74 x 52 mm | 2.9 x 2.0" inches | 874 x 614 px |
| A9 | 52 x 37 mm | 2.0 x 1.5" inches | 614 x 437 px |
| A10 | 37 x 26 mm | 1.5 x 1.0" inches | 437 x 307 px |
* - format A resolution is given for an image density of 300 dpi (pixels per inch).
To obtain paper dimensions in centimeters, convert from mm to cm by dividing by 10; to convert from inches to feet, divide inch by 12.
4A0 and 2A0 - DIN 476 high-dimensional formats
There are also paper sizes larger than A0 - these are 4A0 and 2A0. These sizes are not covered by the ISO 216 standard, but are typically used for large format paper. The origin of these formats comes from German standard DIN 476, on the basis of which ISO 216 was created.
Size A paper size tolerances and errors
- ISO 216 allows production tolerances for A-size paper up to the following values:
- ± 1.5 mm (0.06 in) for sizes up to 150 mm (5.9 in)
- ±2 mm (0.08 in) for sizes ranging from 150 to 600 mm (5.9 to 23.6 in)
- ± 3 mm (0.12 in) for any dimension above 600 mm (23.6 in)
A series of formats characteristics and properties
- ISO 216 characterizes this paper size with the following parameters:
- The length divided by the width of the sheet is equal to the value 1.4142
- Each subsequent dimension A(N) is defined as A(N-1) cut in half parallel to its short side.
- A0 format has an area of 1 square meter.
- The standard length and width of each size are rounded to the nearest millimeter.
Note: the last point is there because the number Square root 2 in aspect ratio does not always give integers.
International implementation and use of the sheet format
A paper sizes are now widely used throughout the world except the United States, Canada and parts of Mexico. A4 has become the standard size business letter in speaking countries English language such as Australia, New Zealand and Great Britain, accustomed to using the imperial number system everywhere. In Europe, paper sizes were adopted as a formal standard in the mid-20th century, and from there they spread throughout the world.
A-size and series paper sizes was last modified: November 2nd, 2016 by admin
Standard formats paper
(GOST 5773-76)
| Row A | Row B | Row C | |||
| Designation | mm | Designation | mm | Designation | mm |
| A0 | 841x1189 | B0 | 1000x1414 | C0 | 917x1297 |
| A1 | 594x841 | B1 | 707x1000 | C1 | 648x917 |
| A2 | 420x594 | B2 | 500x707 | C2 | 458x648 |
| A3 | 297x420 | B3 | 353x500 | C3 | 324x458 |
| A4 | 210x297 | B4 | 250x353 | C4 | 229x324 |
| A5 | 148x210 | B5 | 176x250 | C5 | 162x229 |
| A6 | 105x148 | B6 | 125x176 | C6 | 114x162 |
| A7 | 74x105 | B7 | 88x125 | C7 | 81x114 |
| A8 | 52x74 | B8 | 62x88 | C8 | 57x81 |
| A9 | 37x52 | B9 | 44x62 | - | - |
| A10 | 26x37 | B10 | 31x44 | - | - |
| A11 | 18x26 | B11 | 22x31 | - | - |
| A12 | 13x18 | B12 | 15x22 | - | - |
| A13 | 9x13 | - | - | - | - |
North American standard
Popular name
ANSI classification
mm
inches
Aspect Ratio
Similar ISO format
Letter
ANSI A
216x279
8.5x11
1:1,2941
A4
Legal
216x356
8.5x14
1:1,6471
Ledger
ANSI B
432x279
17x11
1,5455:1
A3
Tabloid
ANSI B
279x432
11x17
1:1,5455
A3
ANSI C
432x559
17x22
1:1,2941
A2
ANSI D
559x864
22x34
1:5455
A1
ANSI E
864x1118
34x44
1:1,2941
A0
Serie A
The largest standard size, A0, has an area of one square meter and an aspect ratio of 1:√2. The long side of the sheet has a length of approximately 1.189 m, the length of the short side is reciprocal value from the indicated value, approximately 0.841 m, the product of these two lengths gives an area of 1 m².
Size A1 is obtained by cutting sheet A0 along the short side into two equal parts, resulting in the same aspect ratio. This allows one standard paper size to be produced from another, which was not possible with traditional sizes. Preserving the aspect ratio also means that when scaling an image from one format to another, the proportions of the image are preserved.
Serie B
In addition to the A series of formats, there are also less common B series formats. B series sheets have the same aspect ratio as A series. Only B0 has a width of 1 m. The area of B series sheets is the geometric average of the two subsequent A series sheets. For example, B1 The size is between A0 and A1, with an area of 0.71 m². As a result, B0 has dimensions of 1000 × 1414 mm. Series B is almost never used in the office; there are a number of special applications, for example, many posters are published in these formats, B5 is often used for books, and these formats are also used for envelopes and passports.
Series C
Series C is used for envelopes only and is defined in ISO 269. The area of series C sheets is equal to the geometric average of series A and B sheets of the same number. For example, the area of C4 is the geometric average of the area of sheets A4 and B, with C4 slightly larger than A4, and B4 slightly larger than C4. The practical meaning of this is that an A4 sheet can be placed in a C4 envelope, and a C4 envelope can be placed in a thick B4 envelope.
C6 162 x 114 mm - the main postal envelope format of the Soviet period.
North American standard
Currently used American sizes are based on traditionally used sizes, and are defined by the American National Standards Institute (ANSI). The most commonly used formats in daily activities are “Letter”, “Legal” and “Ledger” / “Tabloid”. The source of the "Letter" format (8.5 × 11 inches or 216 × 279 mm) goes back to tradition and is not exactly known.
North American paper sizes are government standards in the United States and the Philippines (however, Philippine "legal" is 8.5 x 13 inches, which is different from American "legal"), and are also widely used in Canada, Mexico and some South American countries.
Unlike standard paper A4, which is a geometric subset of a range of paper sizes based on the standard International organization According to standardization (ISO), the origin of Letter paper sizes is lost in tradition and is not clearly documented. The American Forest and Paper Association states that sizes come from days handmade paper, and that 11 inches of page length is a quarter of the "average maximum arm length of an experienced workman." However, this does not explain the width or aspect ratio.
Publication formats
GOST (5773-76)
Large
Average
Small
Miniature
Little ones
84x108/8
70x100/16
70x100/32
70x90/64
60x90/512
70x108/8
60x100/16
70x90/32
60x90/64
60x84/512
70x100/8
75x90/16
75x90/32
60x84/64
84x108/1024
60x90/8
70x90/16
60x90/32
60x70/64
70x108/1024
60x84/6
60x90/16
60x84/32
84x108/128
70x100/1024
84x108/16
60x84/16
60x108/32
70x108/128
70x90/1024
84x108/16
70x84/16
70x100/32
70x100/128
60x90/1024
90x100/16
70x75/16
84x108/64
70x90/128
60x84/1024
84x100/16
60x108/16
70x108/64
60x90/128
70x108/16
60x70/16
100x84/64
60x84/128
80x100/16
84x108/32
84x108/256
84x90/16
70x108/32
70x108/256
84x100/32
70x100/256
80x100/32
70x90/256
84x90/32
60x90/256
60x84/256
84x108/512
70x108/512
70x100/512
70x90/512
To determine the format of a book block, it is necessary to decompose the value of the sheet fraction (/16, /32, etc.) into two largest factors (16 = 4x4, 32 = 4x8), then divide the larger side of the sheet by a larger factor, the smaller side by a smaller factor .
For example: 84x108/32 => 32=4x8 => x => 21x13.5
If we now subtract 1 cm from the larger value, and 0.5 cm from the smaller one, we get the block format after trimming (for publications with landscape imposition, subtract 1 cm from the smaller value, and 0.5 from the larger one).
Vintage book and writing paper formats
check folio
paper size 43.2x61 cm
crown folio
book or paper format 25x38 cm
demy folio
paper size 28.5x44 cm
double folio
paper size 55.9x86.4 cm
double-double folio
paper size 83.8x111.8 cm
double imperial folio
paper size 38x56 cm
elephant folio
paper size 35.5x58 cm
extra-size folio
paper size 48.3x61 cm
foolscap folio
book or paper format 21.5x34 cm
foolscap long folio
writing paper format 16.5x40.6 cm
imperial folio
paper size 38x56 cm
crown quarto
book format 19x25 cm
demy quarto
book format 22x28.5 cm
double imperial quarto
printed paper format 73.7x114 cm
foolscap quarto
book format 17x21.5 cm
crown octavo
book format 13x19 cm; book format 14x20 cm;
book height 20-25 cm demy octavo
book format 14x22 cm
imperial octavo
book format: British 19x25 cm; Amer. 21x29 cm
large post octavo
book format 13x21 cm
The publication format is the size of the book block (in length and width) after three-sided trimming.
The format is determined by the type and type of publication, its volume, circulation, the nature of the illustrative material contained in it, the reader's purpose, terms of use, etc.
The term “book format” apparently arose in the era of machine production, when there was a need to unify book sizes for its mass production and commodity exchange.
The results of measurements of dozens of Russian books of the 11th-13th centuries showed that they did not have stable sizes. The format of the future book was chosen by the copyist based on its purpose, as well as in accordance with the tastes of the customer and by one's own desire. Altar Gospels, richly illustrated and large books (prologues, collections, etc.) were, as a rule, made big size(the height of the book block is more than 30 cm). These are, for example, the oldest handwritten books: the Ostromir Gospel (1056-1057), Izbornik Svyatoslav (1073), twelve volumes of the “Great Menaion of the Readings” (1547-1563), written on the initiative of Metropolitan Macarius, and others. Books intended for everyday use , had relatively small formats, and were distinguished by their simplicity of external and internal appearance. An example of this kind of book is the Archangel Gospel (1092) - a cheap book, apparently rewritten by order of the parish church of a peasant churchyard (small four format).
With the beginning of the use of paper for making books, their formats were based on the size (share) of a paper sheet. However, there were still no firmly established paper sizes, since they depended on the mesh dimensions of the paper sheet, which were set arbitrarily by the paper manufacturer. Over time, papermakers settled on two main sizes: the smaller one - 30x50 cm; the larger one is 50x70, which, however, was not strictly observed.
To indicate the format of Russian handwritten books, a conventional unit of measurement was used - dest (Persian dest - right hand).
| Format | Size | Format | Size | Format | Size | Format | Size | Format | Size |
| A0 | 841x1189 | B0 | 1000x1414 | C0 | 916x1296 | K5 | 145x215 | C54 | 185x260 |
| A1 | 594x841 | B1 | 707x1000 | C1 | 648x916 | K6 | 125x125 | C65 | 114x229 |
| A2 | 420x594 | B2 | 500x707 | C2 | 458x648 | K7 | 90x140 | K65 | 125x189 |
| A3 | 297x420 | B3 | 354x500 | C3 | 324x458 | K8 | 150x150 | DL (E 65) | 110x220 |
| A4 | 210x297 | B4 | 250x353 | C4 | 229x324 | K9 | 225x225 | E4 | 220x320 |
| A5 | 148x210 | B5 | 177x250 | C5 | 162x229 | K10 | 175x175 | ||
| A6 | 105x148 | B6 | 125x177 | C6 | 114x162 | ||||
| A7 | 74x105 | B7 | 88x125 | C7 | 81x114 | ||||
| A8 | 52x74 | B8 | 62x88 | C8 | 57x81 | ||||
| A9 | 37x52 | B9 | 44x62 | C9 | 40x57 | ||||
| A10 | 26x37 | B10 | 31x44 | C10 | 28x40 | ||||
DIN formats (metric)
| Format | Width x length in mm |
| 1A | 1189x1682 |
| A0 | 841x1189 |
| A1 | 594x841 |
| A2 | 420x594 |
| A3+ | 305x457 |
| A3 | 297x420 |
| A4 | 210x297 |
| A5 | 148x210 |
| A6 | 105x148 |
Notes:
1. The area of A0 format is 1 sq.m.
2. The “+” sign in the format designation indicates the presence of an allowance compared to standard sizes. The amount of allowance may vary.
3. For roll paper, the width corresponds to the narrow edge of the format, i.e. A1 means 594mm wide roll. The length of a standard roll for copying machines is 175 meters.
Anglo-American standards formats
Format
Width x length in mm
Width x length in inches
Analogue DIN standard
A
228x305
9x12
A4
B
305x457
12x18
A3
C
457x610
18x24
A2
D
610x914
24x36
A1
E
914x1219
36x48
A0
Formats of other international standards.
Format
Width x length in mm
Width x length in inches
B4 (German format)
250x353
9.8x13.9
B5
176x250
6.9x9.8
B3
353x500
13.9x19.7
B4 (Japanese format)
257x364
10.1x14.3
B4 (American standard)
254x356
10.0x14.0
Draft
254x406
10.0x16.0
Folio
210x330
8.3x13.0
Foolscap
216x356
8.5x13.0
Foolscap (UK)
203x330
8.0x13.0
Legal
216x356
8.5x14.0
Gov. Legal
203x330
8.0x13.0
Legal (Argentinian)
220x340
8.7x13.4
Letter/US Quatro
216x279
8.5x11.0
Gov. Letter
203x267
8.0x10.5
Officio
216x317
8.5x12.5
- A1 (594841 mm): Used in professional layout and design;
- A2 (420594 mm.): A professional option for artistic works by masters from different fields of art. Used most often in printing houses for printing banners, by students for diploma and coursework. DPI lovers will also like this format: it is quite extensive and will fit harmoniously into the surroundings;
- A3 (297420 mm.): A4 sheet format increased by 2 times; optimal for professional student work assigned in educational institutions. Paintings, floristry, decorative panels, collages made in given size, look elegant, miniature, are a universal holiday gift
- A4 (210297 mm.): universal option for creative people, especially children starting to learn to draw. The A4 sheet format is suitable for small sketches with ink, felt-tip pens, pencils, gel pen, as well as for printed materials. Widely and often used in printing houses.
Yes, indeed, these formats are not changing; they have a certain size, which is determined by international standards. This will be the case in Russia and Turkey, for example. Which is very convenient, because we use documents everywhere. They come from the A0 format (there is one). It has an area of one square meter. And everyone else divides it in half and they are already measured. This is the arithmetic.
Whatman sheet formats are determined according to the published and approved standard: GOST2.301-68
The main sizes of paper sheets produced at all factories in the country are:
PHOTO: Painting made on A1 sheet format
Depending on the functional purpose, different kinds formats, sheets of paper can be treated with special components or have a unique structured surface, for example: watercolor paper, perforated paper, decorative colored paper, pastel paper. When working with oil art tools, thicker, moisture-resistant paper is used, most often canvases stretched on a stretcher.
a very convenient thing in this matter)) has already helped out several times))
In accordance with ISO standards, which are international, paper is divided into a number of series (A, B, C). Below is a table with these series, format and sizes.
As can be seen from the table, A series paper is mainly used for documents. To prepare documents in Russia, A4 paper is used.
Series B paper is typically used for printing products. And C series paper is used for envelopes.
Format A1 - 841cm by 594cm - this is the largest format, the so-called drawing paper, format A2 - 420cm by 594cm - this is a sheet of exactly half of whatman paper cut crosswise, format A3 - 297cm by 420cm - this is again A2 format cut crosswise, but A4 format - 210cm by 297cm is the most common paper format on which everything is usually printed and photocopied.
I used to get confused all the time, although I only use the A4 format; I need other formats to select passports or picture frames. Thanks to this drawing, everything became clear. I’m no longer confused. I hope it’s useful to you too.
The size of the A series formats (established by the International Standard for Paper Formats, ISO 216, based on the metric system of measures, based on the format of a paper sheet having an area of 1 m - size A0).
format size: width x length (mm)
For technical documents, formats with a large aspect ratio are used, which are formed by repeatedly applying one of the standard formats along the long side of the sheet. For example, for Series A the following additional formats can be created.
I first encountered paper formats at the institute. Only then did I find out that the format called
A1 has a size of 841 by 594 millimeters,
A2 has a size of 420 by 594 millimeters,
A3 has a size of 297 by 594 millimeters,
but the most popular format, which is now in the office, in the store, and in the university, is A4. Its format measures 210 by 297 millimeters.
The largest format is A0 (841 mm by 1189 mm.)
Then - A2. A2 will have a size of 420 mm. by 594 mm.
After that it will be A3 format. A3 format has a size of 297 mm by 420 mm.
The smallest format is A4. And we see format 4 almost every day and use it during photocopiers.
A4 has a size of 210 mm by 297 mm.
I think my answer helped you.
Wish you luck.
A1, A2, A3, A4 are international formats indicating paper sizes.
The A1 format measures 841 millimeters by 594 millimeters;
A2 format measures 420 millimeters by 594 millimeters;
A3 format measures 297 millimeters by 594 millimeters;
The A4 format has a size of 210 millimeters by 297 millimeters (the most common format).
A1 format size - 841x594
A2 format size - 420x594
A3 format size - 297x420
A4 format size - 210x297
All series (A, B, C) of existing paper formats comply with the global standard ISO 216
Dimensions of A series formats:
A0 format - 841 cm * 1189 cm
A1 format - 841 cm * 594 cm
A2 format - 420 cm * 594 cm
A3 size - 297 cm * 594 cm
A4 size - 210 cm * 297 cm
A5 format - 148 cm * 210 cm
A6 format - 105 cm * 148 cm
Below is a table of sizes of formats of all series:
The standard paper sheet size is ISO 216, an international standard.
You can easily calculate the sheet size yourself if the sheet size is A0. Its area is 1 square meter and dimensions are 8411189 mm. The following sheet sizes are obtained by dividing it by half:
A1 594mm x 841mm
A2 420mm x 594mm
A3 297mm x 420mm
A4 210mm x 297mm
Each image file format contains information about its width as well as its height in pixels. The most convenient way to judge the image size is the file volume in megabytes.
A1 - size in mm - 594 x 841, CMYK 300dpi - 265.5 mb
A2 - size in mm - 420 x 594, CMYK 300dpi - 132.8 mb
A3 - size in mm - 297 x 420, CMYK 300dpi - 66.4 mb
A4 - size in mm - 210 x 297, CMYK 300dpi - 33.2 mb
The use of paper and products made from it has become firmly established in our everyday life. But rarely does anyone think that format sizes in centimeters, inches strictly regulated special standards ( GOSTs, ISO etc.). Certain sizes of sheets of paper are used for drawings, others for printing books and booklets. And other formats are created for making envelopes. Don't believe me? Then let's dive into it together mysterious world regular sheets of paper.
Establishment of world standards
IN late XVIII V. was done by the German physicist Lichtenberg interesting discovery, which, a century and a half later, would influence paper standards around the world. Scientist determined unique property rectangle. To put it simply: we have a rectangle whose sides have a ratio equal to the root of two. When “folding” the figure in half along the larger side, in the resulting rectangle the ratio of length and width remains unchanged.
This unique property existed at the beginning of the 20th century. laid as the basis by the developer of modern paper formats - Walter Porstmann. Initially the system had the name DIN 476, it unified existing standards.
From Germany the Porstmann standard began "march through Europe". Before the start of World War II, it was recognized in 8 countries (including the USSR). By 1975, it was released under the ISO system and adopted as an official United Nations standard. Currently only Japan, Canada and USA they did not accept it as the main one.
World standard
The current standard is based on the principle of the metric system. It is based on a sheet of paper with an area 1 sq.m. (A0). As already noted, the length to width ratio is approximately 1/1.414 (or root 2).
Includes 3 groups with relatively similar sizes:
- A – the original (zero) sheet format has an area of 1 sq.m;
- B – unlike the previous one, in the zero format the smallest side size is 1 m (the proportions between the sides correspond to the “A” format);
- C – designed for envelopes under the “A” series sheet (the original dimensions are increased by about 8%).
The most popular format is A4, for technical documentation - A2, less often A3.
Advanced Standard
| Format/size | Series A/cm | Series A/inches | Series B/cm | Series B/inches | Series B/cm | Series B/inches |
|---|---|---|---|---|---|---|
| 84.1 × 118.9 | 33.11 × 46.82 | 100.0 × 141.4 | 39.37 × 55.67 | 91.7 × 129.7 | 36.10 × 51.06 | |
| 1 | 59.4 × 84.1 | 23.39 × 33.11 | 70.7 × 100.0 | 27.83 × 39.37 | 64.8 × 91.7 | 25.51 × 36.10 |
| 2 | 42.0 × 59.4 | 16.54 × 23.39 | 50.0 × 70.7 | 19.69 × 27.83 | 45.8 × 64.8 | 18.03 × 25.51 |
| 3 | 29.7 × 42.0 | 11.69 × 16.54 | 35.3 × 50.0 | 13.90 × 19.69 | 32.4 × 45.8 | 12.76 × 18.03 |
| 4 | 21.0 × 29.7 | 8.27 × 11.69 | 25.0 × 35.3 | 9.84 × 13.90 | 22.9 × 32.4 | 9.02 × 12.76 |
| 5 | 14.8 × 21.0 | 5.83 × 8.27 | 17.6 × 25.0 | 6.93 × 9.84 | 16.2 × 22.9 | 6.38 × 9.02 |
| 6 | 10.5 × 14.8 | 4.13 × 5.83 | 12.5 × 17.6 | 4.92 × 6.93 | 11.4 × 16.2 | 4.49 × 6.38 |
| 7 | 7.4 × 10.5 | 2.91 × 4.13 | 8.8×12.5 | 3.46 × 4.92 | 8.1 × 11.4 | 3.19 × 4.49 |
| 8 | 5.2×7.4 | 2.05 × 2.91 | 6.2 × 8.8 | 2.44 × 3.46 | 5.7 × 8.1 | 2.24 × 3.19 |
| 9 | 3.7 × 5.2 | 1.46 × 2.05 | 4.4 × 6.2 | 1.73 × 2.44 | 4.0 × 5.7 | 1.57 × 2.24 |
| 10 | 2.6 × 3.7 | 1.02 × 1.46 | 3.1×4.4 | 1.22 × 1.73 | 2.8×4.0 | 1.10 × 1.57 |
In addition to the basic sizes, the use of extended ones is allowed. To do this, the larger side of the sheet increases several times, while the length of the smaller side remains unchanged. In this case, an increase of 2 times is practically not used. This "deviation" is used to develop drawings, for example, in architecture.
| Size | Basic | Extended/x2 | Extended/x3 | Extended/x4 | Extended/x5 | Extended/x6 |
|---|---|---|---|---|---|---|
| A0 | 84.1×118.9 | 168.0×118.9 | 252.0×118.9 | 336.0×118.9 | 420.0×118.9 | 504.0×118.9 |
| A1 | 59.4×84.1 | - | 178.4×84.0 | 237.8×84.0 | 297.3×84.0 | 356.8×84.0 |
| A2 | 42.0×59.4 | - | 126.1×59.5 | 168.2×59.5 | 210.2×59.5 | 252.3×59.5 |
| A3 | 29.7×42.0 | - | 89.2×42.0 | 118.9×42.0 | 148.7×42.0 | 178.4×42.0 |
| A4 | 21.0×29.7 | - | 63.1×29.7 | 84.1×29.7 | 105.1×29.7 | 126.1×29.7 |
| A5 | 14.8×21.0 | - | 44.6×21.0 | 59.5×21.0 | 74.3×21.0 | 89.2×21.0 |
It's interesting that in USSR, despite the fact that the DIN-476 standard (which formed the basis of the world standard) was recognized at the beginning of the twentieth century, the designation of paper sizes differed from the generally accepted one. So, for example, for size “A” there was a designation of 2 numbers. This number indicated the number of times it was necessary to “unfold” the base sheet along the long (first number) and short (second) side. In this case, sheet A4 was taken as the base, which was designated by the number 11 (A3 - number 12, etc.).
US standard
The New World’s commitment to “old” traditions was also reflected in paper standards. Standards applied as basic in the USA and Canada built per unit of length - inch. They are also used as additional ones in a number of other countries in both Americas.
| Classification | inch | cm | Compliance with international standards |
|---|---|---|---|
| A | 8.5×11 | 21.6 × 28.0 | A4 (21.0 × 29.7) |
| A (option) | 8.5×14 | 21.6 × 35.6 | - |
| IN | 17×11 | 43.2 × 27.9 | A3 (29.7 × 42.0) |
| WITH | 17×22 | 43.2 × 55.9 | A2 (42.0 × 59.4) |
| D | 22×34 | 55.9 × 86.4 | A1 (59.4 × 84.1) |
| E | 34×44 | 86.4 × 112.1 | A0 (84.1 × 118.9) |
Standard of the Land of the Rising Sun
Japan, and this is what we are talking about, also has its own national standard. At the same time, they are not consigned to “oblivion” and “old” formats are used at the same time.
The parameters of size “A” correspond to the formats of the global classification. This is where the correspondence ends. Already the “B” series differs from the previous one not by 1.41 times, as in ISO, but by one and a half. Series "C" is missing altogether.
| Japanese Series B/Format | Japanese B/cm series | Shiro Kuban/format | Shiro kuban/cm | Ki Cuban/format | Ki cuban/cm |
|---|---|---|---|---|---|
| B0 | 103.0 × 145.6 | - | - | - | - |
| B1 | 72.8 × 103.0 | whole sheet | 78.8×109.1 | whole sheet | 63.6×93.9 |
| B2 | 51.5 × 72.8 | half | 54.5×78.8 | half | 46.9×63.6 |
| B3 | 36.4 × 51.5 | quarter | 39.4×54.5 | quarter | 31.8×46.9 |
| B4 | 25.7 × 36.4 | eighth part | 27.2×39.4 | eighth part | 23.4×31.8 |
| B5 | 18.2 × 25.7 | one sixteenth | 19.7×27.2 | one sixteenth | 15.9×23.4 |
| B6 | 12.8 × 18.2 | - | - | - | - |
| B7 | 9.1 × 12.8 | - | - | - | - |
Paper characteristics
Having considered the history of the origin of paper and the main sizes that are used in the world in its production, it is necessary to pay attention to the issue of quality characteristics. If you think that paper just has to be white (well, colored in certain cases), you are mistaken. Please review the information below carefully.
The main items that you need to pay attention to when purchasing a pack of paper for office equipment include:
- whiteness of the canvas;
- density;
- product quality (grade).
Three important properties of paper
White
Is important property, as it allows you to evenly reflect the light flux in all directions. In this regard, the higher this indicator, the more saturated and high-quality the images on the prints will be.
To increase the indicator, during production they introduce certain chemical bleach ingredients. As well as certain dyes that neutralize yellow, which is inherent in cellulose. The percentage of whiteness is regulated by relevant standards.
Density
Another important parameter that you should pay attention to when choosing paper is its thickness. The value of the indicator determines the property of the product when absorbing ink. The latter should be distributed evenly over the paper, without penetrating deeply. Therefore, the sheet must have the same density over the entire surface area.
Therefore, when determining the required paper, it is necessary to take into account the existing equipment for which the paper is purchased. For laser printers do not advise high density paper used, and for jet-setters it’s the other way around.
One more an important condition, which provides the sheet density, is its resistance to bending. During the printing process, paper is exposed to so-called “feed mechanisms”. As the sheet passes through the rollers, it becomes deformed. In case of high humidity or low density, there is a high probability of curling.
Quality
This indicator affects not only the “beauty” of printed information (text, pictures, etc.), but, importantly, the durability and performance of office equipment.
Despite the fact that the sheets of paper look almost the same, you can determine its quality even with the naked eye. Paper Low quality will have heterogeneous, “granular” structure. Known fact that wood processing industry waste is used in the production of sheets. However, the higher the cellulose content in final product, the lower the quality of the latter. The standard is the wood content in the final product from 1/5 to 1/2 volume. With more high content– “spots” of resin will be visible on the paper. Repairing printing equipment after using such paper will more than cover the imaginary savings obtained from its purchase.
Paper quality categories
1 Higher (category A). Paper highest quality. Suitable for equipment from all manufacturers, including high-speed models. It has maximum whiteness and uniform density. Suitable for both single- and double-sided printing. There are no foreign impurities.
2 Standard (category B). Products in this category we have increased performance quality. It is allowed to be used on office equipment if the manufacturer of the latter does not place additional restrictions on the equipment used. Consumables. The most convenient combination of price and quality.
3 Primary (category C). Most a budget option, which can be used for office equipment. Minimum acceptable characteristics of hardness, whiteness, etc. Suitable for printing documents with minimum quality requirements. It is not recommended to print images on such paper.
Paper products that do not meet the specified criteria are not suitable for copying equipment. Its use, for example, for a printer, is fraught with serious damage to the latter.
Manufacturers
According to research by the German magazine "Print", the leader among manufacturers of paper products is the company International Paper (USA). Her annual income is more than 29 billion dollars with the production of about 13 million tons of products. The concern confidently holds second place Stora Enso(a joint Swedish-Finnish company) – issue order 12 million tons of products per year and income of 10 billion euros. Finns take third place. UPM produces just over 10 million tons of products.
The following paper manufacturers are represented on the domestic market:
| Company | Quality category | Specific gravity |
|---|---|---|
| "A" | 3-3,5% | |
| Zoom Ultra | "A" | 2-3% |
| Ballet Premier | "A" | 2-2,5% |
| Ballet Classic | "IN" | 10-10,5% |
| Kym Lux | "IN" | 7,5-8% |
| Zoom Extra | "IN" | 5-5,5% |
| Xerox Business | "IN" | 4,5-5% |
| SvetoCopy | "WITH" | 26-27% |
| Snow Maiden | "WITH" | 21-21,5 % |
| Xerox Performer | "WITH" | 3,5-4% |
Marking
When purchasing a package of paper, the buyer can find out some of the characteristics of the sheets. The manufacturer must indicate on the wrapper:
- sheet size (A3, A4, etc.);
- their quantity (usually 500 pcs.);
- paper density (from 65 to 280 grams per 1 sq. m);
- Recommendations for use - for inkjet or laser printing devices, copiers, letterpress, etc.
To avoid deterioration and paper damage, follow these simple tips:
- paper should be stored horizontally;
- optimal room temperature – 2 0 degrees, humidity should not exceed 50% ;
- exposure to direct sunlight is not advisable;
- factory packaging protects the sheets from moisture, do not store the opened pack outside the packaging;
- It is not recommended to store paper on the floor to avoid drafts and temperature changes;
- before use, paper that has been stored in a colder room, leave for several hours for “acclimatization” (up to 3 days in winter). This will allow you to maintain the “correct” structure of the sheet and avoid its deformation.
A little history of paper
Since ancient times, humanity has been looking for a material that is durable enough and easy to manufacture for writing. “Writing” does not just mean writing letters. This term has been used to define the process of creating important records − books containing doctrines, laws, customs. Used for writing stones, clay tablets, papyrus, birch bark. That is, those natural materials, which abounded in a given geographic area.
But most of them had their drawbacks:
- fragility;
- difficulty in processing;
- inconvenience of use and others.
According to scientists and researchers of antiquity, paper was invented in ancient China in the 1st century AD. Initially it was made from silk threads. They were cooked by adding vegetable glue. Then, using a wooden frame, the resulting substance was removed onto a smooth surface. Dried and pressed. The format of the resulting paper depended on the size of the frame used. Later, in production they began to use hemp fibers, tree bark.
Like everything valuable, the secret of paper production was stolen. And already in the second half of the 1st millennium they knew about him in Asia, Egypt, and a little later - in Europe.
Europeans continued to improve paper production technology. For example, vegetable adhesive was replaced with animal-based glue. These improvements made it possible to obtain a more durable material that did not allow the ink used in writing to pass through.
Development of paper production in Medieval Europe contributed to the partial mechanization of production. The leader in production was Netherlands. The production facilities of which were provided with paper countries of the European continent and the state of Muscovy(as Rus' was called at that time).
Practically before early XIX V. paper was made by hand, using a method that came from China. The raw material used was rags - rags made of linen or cotton. The use of wood has already become widespread at the beginning of the 19th century. And by the end of the century, paper production would become the largest industry industrial production, which uses advances in mechanical engineering and chemistry.
Pre-war paper machine