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Anti-counterfeiting holographic hot stamping foil

Basic Information

Standard ID: GB/T 18734-2002

Standard Name:Anti-counterfeiting holographic hot stamping foil

Chinese Name: 防伪全息烫印箔

Standard category:National Standard (GB)

state:in force

Date of Release2002-05-21

Date of Implementation:2003-01-01

standard classification number

Standard ICS number:Environmental protection, health and safety >> 13.310 Prevention of criminal acts

Standard Classification Number:Comprehensive>>Social Public Security>>A90 Social Public Security Comprehensive

associated standards

Publication information

publishing house:China Standards Press

ISBN:155066.1-18695

Publication date:2003-01-01

other information

Release date:2002-05-21

Review date:2004-10-14

drafter:Wang Zhenliang, Wang Jizhang, Sun Youlin, Diao Quanli, Guo Jiguang, Tan Zuozhong, Peng Tao

Drafting unit:State-owned Factory No. 5808, Beijing Sanyou Laser Imaging Company

Focal point unit:National Anti-Counterfeiting Standardization Technical Committee

Proposing unit:General Administration of Quality Supervision, Inspection and Quarantine

Publishing department:General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China

competent authority:National Standardization Administration

Introduction to standards:

This standard specifies the classification of anti-counterfeiting technology used in anti-counterfeiting holographic hot stamping foil, the strength of anti-counterfeiting, and the technical requirements, test methods, inspection rules, marking, packaging, transportation, and storage of the product. This standard applies to anti-counterfeiting holographic hot stamping foil made of plastic film as the substrate through coating, plating, molding, and rolling. GB/T 18734-2002 Anti-counterfeiting holographic hot stamping foil GB/T18734-2002 standard download decompression password: www.bzxz.net
This standard specifies the classification of anti-counterfeiting technology used in anti-counterfeiting holographic hot stamping foil, the strength of anti-counterfeiting, and the technical requirements, test methods, inspection rules, marking, packaging, transportation, and storage of the product. This standard applies to anti-counterfeiting holographic hot stamping foil made of plastic film as the substrate through coating, plating, molding, and rolling.


Some standard content:

National Standard of the People's Republic of China
GB/T18734—2002
Anti-counterfeiting holographic hot stamping foil
Anti-counterfeiting holographic hot stamping foil2002-05-21 Issued by
People's Republic of China
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
2003-01-01 Implementation
Normative references
Terminology and definitions
Classification of anti-counterfeiting technology
Anti-counterfeiting strength
Technical requirements
Testing methods
Testing period
Marking, packaging, transportation, storage
GB/T18734-2002
GB/T18734-2002
The relevant technical conditions of this standard conform to the relevant technical requirements of GB/T17000--1997 Technical Conditions for the Use of Pharmaceutical Products 3,
This standard is issued by the General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China. This standard is under the jurisdiction of the National Technical Committee for Drug Counterfeiting Standardization. Technical standard: Gu Gaoyu Ba Jun Ba, Beijing Sanyou Qianguang Pavilion Co., Ltd. This standard mainly applies to the following products: Anti-counterfeiting holographic hot stamping box, anti ... 2 Normative references
The following references are incorporated into this standard through reference. For references with dates, all subsequent amendments (excluding those in the revised version) or revisions are not applicable to this standard. However, parties to an agreement based on this standard are encouraged to study whether the latest version of the references can be used. For references with outdated dates, the latest version shall apply to this standard. GB/T2328-1987 Sampling procedure and sampling table for batch inspection (applicable to inspection of continuous batches) 3/T2829-1987 Sampling procedure and sampling table for periodic inspection (applicable to inspection of fixed parts in production process) GB/T6543-1986 Paper photography GB/T7705-1987 Letterpress micro-brush GB/110455-1989 Electrochemical aluminum foil B/T17004 Technical terms and definitions The terms and definitions established in GB/T17004 and the following terms and definitions apply to this standard. 3.1 Holographic foil is a kind of material made of plastic film as base material through cutting, sawing, molding and cutting. 3.2
Plaleup
Gap in the effective surface of the product caused by the splicing or correction process of the molded work plate 3. 3
Yellow spot
Light yellow spot on the aluminum layer.
Black spot
Dark spot on the hologram caused by the mold or the mold work plate. 3.5
Pinhales
During the research, the aluminum layer defects caused by the lead particles and the short shot. 3.6
Scratches
Scratches on the effective surface of the product. GB1734—2002
Color misalignment culor pattern placement error The registration error of different color images with a common boundary. 3.8
Signal ratio sgnalto oscillation The ratio of the intensity of the signal light to the intensity of the incident light in the diffracted light. 3.9
Diffraction efficiency diffraction The ratio of the intensity of the signal light of the diffracted light to the intensity of the incident light. 3.10
Image position error hinagespositkondngerror The deviation between the actual position of each element image and its theoretical position. 4 Classification of anti-counterfeiting technology
4.1 Holographic platemaking technology
Class A: General characteristic holographic platemaking technology (three-dimensional, two-dimensional/three-dimensional, one-dimensional holographic). Class A: Color imaging and cryptographic technology (special digital transformation, moiré technology, full-text storage, computer recognition, mobile cursor, etc.) Class B: Color lighting and multi-channel technology (3D multi-color, 2D, 2D/3D, 2D color gold, achromatic: Schrodinger transformation: panoramic rainbow + combined rainbow, etc.). Class B: Dot matrix holographic projection technology Class F: 3D true color dynamic dense holographic technology (LCD): Class F human-visual holographic technology (LVA). Class B: Pulse holographic technology Class H: Formulation technology. Class H: Formulation technology. Class C: Holographic effect enhancement layer technology Class I: Transparent technology. Class D: Flat and semi-reflective technology. Class K: Reflection technology. Class D: Reflection technology. Class D: Printing technology. Class D: Printing technology.
4.5 Ink technology
M Light: Oil combustion technology:
4.E bonding technology
Class, nuclear hole waist technology
Door beauty: nuclear watermark technology.
4.7 Other technologies
Class F, other technologies
5 Anti-counterfeiting strength
5.1 Classification by the number of years of anti-counterfeiting security period
A Photo: not less than five years,
B Load: and less than three years;
Heart sensitivity 1 can be more than one year;
1) level, not less than half a year,
5.2 Classification of the number of types of anti-counterfeiting technologies used (classification changes according to Chapter 4) A crack: A, II, [(or, K ) level: including 2H, 1(K) level and three or more other levels; B level: including A, H, 1(or I, K) level technology and another level; J) level: only including A, H, T(or J, K) level technology 5.3 The remaining three levels are divided into
Level 4: naked eye recognition, professional recognition, intelligent recognition: B level: naked eye recognition and chemical recognition:
Level 1: naked eye recognition and professional device recognition:
\ level: and limited recognition.
6 Technical requirements
6.1 Appearance quality
The appearance quality shall comply with the requirements in Table 1.
1 Appearance quality
Specification
Characteristics
Some color positions
Out of position deviation
Slight color loss, uniform brightness
Not more than 2.mm
No yellow spots
Not larger than i uuu
GB/T18734-2002
Secondary products
It is allowed to select black spots not larger than 6.0 mm per square meter. The diameter of the spots is not more than 2 mm per square meter.
The measured size of the self-footprint 0 is not more than ten C-mIu per square meter. The result is that the length is not more than 3 m. The width is not more than 0.3. The period mark is within the square meter. The length is not more than 12. The head is not more than twenty in every 12. The distance between the joints is not more than n.2.mm in the east and west directions.
Note: The positioning effect is suitable for the positioning effect of the printing type and the printing type is printed one by one. 5-2 Product specifications
Although the production specifications meet the specifications in Table 2.
The length of the display lamp is not more than 1.0
125m, the middle head voltage is not more than two small, more than 36V, the number of internal joints is more than six, and the distance between the two joints is not less than m
both longitudinal and vertical directions are not more than 0.
GB/T187342002
core diameter/nm
6.3 Characteristic index
Characteristic index should comply with the provisions of Table 3.
According to index name
Signal ratio 3NR
Intellectual property efficiency
Same batch and same color
Balanced layer gloss Gs (4
Printed as durable as possible
Basic size
Table 2 Product specifications
Product specifications
1--750
Table 3 Characteristic index
First-class product
First-class product
Second-class product
Comply with GB/T0-15i-196 s.1 after the wear and tear is not large
Note: The core is an indicator of the thickness of the chain, and the
Test method
7.1 Test requirements
7.1.1 Test environment
Visibility: 20+5
and visibility 45~65
7.1.2 Sample selection
1.10~-3. Hc
After the narrow connection, the sample is not exposed to the air.
After the anti-holographic printing box is removed from each roll, the effective length of the cut area is 0.2m-3.8 as a sample. 7..3 Sample pretreatment
Under the test environment conditions of 7.1.1, it can be tested for no less than 5 hours. 7.2 Appearance quality
Put the sample flat on the half-plate drum, set a 20W name light source 1m away from the sample and illuminate it during the reappearance period. The observer follows the sample 300 7.3 Product Specifications
Test with a ruler or steel vertical line with a value of . The width is measured at a right angle to the product. The length is measured along the edge of the product without tension or by a calibrated machine counter in the product processing hall.
7.4 Characteristic Index
7.4.1 Comparison
7.4.1.1 Test Receiver
CB/T187342002
a) A photosensitive device with an output power of ±5% (the diameter of the light at the measuring point is not more than n.5mm) 5) Optical conversion system (the receiving area is not less than 6mn). ) Scanning spherical reflector radiation system (relative aperture + 1:1 effective diameter is not less than 3). d) Low-profile operation:
7.4.1.2 Test environment
Dark, no hand or noise,
7.4.1.3 Test method
Cut one or three pieces of 60mm in diameter from the effective layout as the axonometric test specimen, fix the specimen on the universal mount specimen surface (in the XY plane), and the specimen stops sliding along the normal line N along the axial force (see Figure 1. b) Turn on the micro-optic device and let the laser beam shine on the specimen. The light is low, and the angle of measurement is changed from e to V. The image S of the small sample is obtained by pushing the image S to the surface. The cut beam is projected on the small sample plane, and the new two light periods are formed. The diameter of the light axis is 5 meters, and the major axis is 3.3 meters. The requirement is that the light measurement element area should be a circular light quotient, that is, the holographic pattern line is 0.01 mm × 0.03 mm upward. The length of the line should be greater than 0.03 mm. If the light measurement element area is small, the requirement is that the light beam should be greater than 0.03 mm. Through the inverted low-power telescope, the beam is made straight and narrow: the light beam is obliquely incident on the sample light element area.
) The reflection system is placed at the real image, and the real image is required to fill the effective aperture of the reflection system (if the real image length is greater than the micro-aperture of the reflection system, the reflection system is moved closer to the sample until it meets certain requirements). The optical axis of the reflection system is in the water with a small angle (about 1/4") to the sample.
The reflected light of the reflection system The actual image of the test case can be seen in Figure 1: The signal-to-noise ratio test system Figure 1 Signal-to-noise ratio test diagram (e) The small sample is moved in the X plane, and the laser beam is adjusted to the position of the photoelectric receiver at a place where there is no light in the test area. The signal-to-noise ratio calculation formula is: Take the average value of all measured values: SNR=GB/T 1H/342002
7.4.2 Diffraction failure
7.4.2.7 Test equipment
Time 7.4. :. 1.
7.4.2.2 Test environment
F3.4.1.2.
.4.2-3 Test methodwww.bzxz.net
Time 4. 1. ra),b),),d).
b) Let the light be incident on the reflection system, the reflection system and the incident light can have a small change in the water half surface (10° see figure
c) Measure the intensity of the incident light in the radiation system, it should be controlled by the surrounding absorption system, the incident light and the light intensity after the light is generated by the small sample 11,
d) Calculation formula for radiation efficiency
) If there are more than one sample with the same depth in the sample, the diffraction efficiency of the image surface and the non-image surface should be measured
The final result is the average value of them:
Wu Zhong:
·Diffraction efficiency part of image pattern
Where:
Non-waste material efficiency.
For example
The actual situation
Figure 2 Schematic diagram of diffraction efficiency test
7.4.3 Color difference of the same color in the same batch
According to the specifications of 4,4 in GB10456-188S, the color difference of the same color in the same batch shall be measured according to the specifications of 4,4 in GB10456-1989, including the gloss blue
projection and projection in GB/110456--1989 7.4.5 The test piece shall be measured in accordance with the provisions of 4.5.3 in GB/11045e1S89. 7.4.6 The test piece shall be tested in accordance with the provisions of 4.5.1 in GB/T11045e1S89. 7.4.6.1 The test piece shall be prepared in accordance with the provisions of 5.2.1 in GB/T1456-198. 7.4.6.2 The test position and test conditions shall be carried out in accordance with the provisions of 3.8.1 and 3.X.2 in GB/T61087. The test piece shall not include a color densitometer. 7.4.6.3 Test method GB/T18734-202 7.4.6.31 The test piece shall be cut into a certain size and then placed on the ground for cleaning. The bottom of the pulling family area, 7.4.63.2 will be replaced with the grinding paper fixed car grinding, 7.2.6.3.3 and fixed grinding rubber test machine to return to the grinding according to 1 ℃ call, stop the machine to remove the sample set for detection: 7.47 optical density seat
7.4.7.1 use the calibrated optical density bad. The precision is 0. (cold 7.4.7.2 occupies the test order according to the average upward market to get at least six points", and then take its flat expansion value as the measurement conclusion, 8 inspection regulations
8.1 group batch
network one product to make up one limit product war delivery or control interference as a batch, 8-2 take the job sample
7.1.\ for.
8.3 classification
inspection is divided into factory inspection and type inspection.||tt ||8.4 Factory Inspection
8.4.11 The manufacturer shall ensure that the products shipped out of the factory meet the requirements of this standard. 3.4.2 Factory Inspection items include product appearance quality, product specifications and specifications. 8.4.3 Follow the G62 regular sampling plan to conduct inspection: AQ14.C.84.4 The specified number of qualified and unqualified items in the sampling plan shall be determined respectively. If the qualified number is met, the batch of products shall be judged as qualified; otherwise, the batch of products shall be rejected. 8.5 Type Inspection
8.5.1 Type inspection must be carried out in the following cases: a) new product technology, change of workmanship, change of raw materials; b) if the product is discontinued for more than one year, it shall be renewed. 8.5.2 Type inspection items include product external quality, product toughness and special indicators. 8.5.3 According to the regular sampling plan in GB/T2k29, the level of judgment is RQ1.3. 8.5.4 According to the qualified number and qualified number specified in the sampling plan, the various indicators are judged to be qualified. If they meet the judgment number, the batch of products is judged to be qualified; otherwise, the batch of products is judged to be unqualified. 9 Marking, packaging, transportation and storage
9.1 Marking
9.1.1 Each holographic foil should be affixed with a label printed with the product name, trademark, color, grade, batch number, length and product execution number.
9.1.2 The outer packaging should indicate the product name, specification, color grade, number, manufacturer and production date: The product certificate should be attached. The product name, trademark, color type, batch number, grade, inspector code, production month and implementation standard should be indicated on the packaging: 9.2 Packaging
Each type of anti-counterfeiting holographic yellow printed product is tightly packed with plastic bags: the outer packaging is made of cardboard boxes that meet the requirements of CK/6543. 9.3 Transportation
GB/T 1B/34—2002
During transportation, it should be protected from moisture, rain, and should not be shipped together with chemicals and pollutants. 9.4 Storage
The storage environment should be well ventilated, and the temperature should be 13-359.5 The user unit should promptly report any product quality problems to the manufacturer within the one-year shelf life starting from the month the product is shipped. The user unit shall be responsible for any deformation, damage, moisture change, unclearness, discoloration, etc. of the product caused by improper transportation management:
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