This standard specifies the terms and definitions of test sieves and sieving. This standard applies to the special terms of test sieves and sieving. GB/T 5329-2003 Test sieve and sieving test terminology GB/T5329-2003 standard download decompression password: www.bzxz.net
This standard specifies the terms and definitions of test sieves and sieving. This standard applies to the special terms of test sieves and sieving.

1cs 19. t20
National Standard of the People's Republic of China
GB/T5329-2003
GE429-1585
Test sieves and sieving voahulary(IS0 2395:1990.M0D)
2003-11-10 Issued by
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
2004-06-01 Implementation
GH/T5329-2003
This standard adopts [S]2195:19906 Test sieve and sub-test terminology English version: Main changes include:
Added [gauge test sieve group (2.2,5) and non-gauge test sieve (E.2,7)] This standard is different from B/753291985 Test sieve and sub-test terminology as follows: Added such as: test depth, test sieve height, electroforming thin plate test sieve, etc. Added Figure 1 Test sieve.
This standard was proposed by China Machinery Industry Federation and belonged to the National Standardization Technical Committee for Belt Screening and Particle Sorting Methods (CSTST18). This standard was drafted by the Mechanical Science and Technology Institute of Mining and Building, with the participation of the State-owned Fifth National Zero Factory and District Sixth and Ninth Factory. The drafters of the standard were Yu Gujinmeigui, Baiqiang, and Wu Guochuan. This standard is issued by the Secretariat of the National Technical Committee for Standardization of Sieve Sieving and Particle Fractionation Methods. The international standard replaced by this standard is: GB/T 291985:1 Specification for test sieves and sieving test terms. This standard defines the terms for test sieves and sieving tests. 2 Terms and definitions. 2.1 Material to be siered: Particles of different sizes, agglomerates, and loose particles that are placed together in a bottle.
Sample sanple
A representative portion of a given mass of material, 2.1.4
Teal snupks
A sample for testing.
A sample placed on a single test sieve or on a test sieve. 2.1.6
Bulk density
The ratio of the bulk density to the volume of the material on the instantaneous surface. 2.1.7
Particle density
The ratio of the mass of the particles to their volume, excluding open pores and including closed pores. 2.2.2 Test sieves Test sieves are sieves that are installed in the range to produce a sieve that meets the technical requirements of the test sieve standard and uses the sieving method for particle analysis. 2.2.3 Test sieves are sieves that are matched with the test sieve standard GB/T 5329—2003 and GB/T5329—2003 and can reproduce the test results of the standard test sieve within the specified limit range for a given material. 2.2.5
Fnll set oPtest siever
, the basic test sieves of a given type included in the standard. 2.2.6
Conventional test sieve set
rcgulur set of eflest sires
selected from the full set of test sieves according to the normal rules for particle size analysis. 2.2.7
Irregular test sieve set Lrregularget oftestgleves, a number of sieves selected from the full set of test sieves according to the irregular rules for particle size analysis. 2.2.8
Test sieve nestnftesisieves
one or more test sieves are combined together from bottom to top according to the mesh size and connected to the cover and material connection. 2.2.9
Test sieve depth H, sievedepthH,
Test distance between frame F and sieve edge (see Figure 1)i2
Figure 1 Test peak profile
Test height LslevehelghtH,
The distance between the upper edge and the intersection of the test sieve edge (see Figure 1) 2. 2. :1
Fitted tightly on the sieve to stop some material from flowing out 2. 2. 12
The receiving tray
Fitted closely under the sieve to receive the part of the material that needs to be evenly distributed. 2.2.13
trame
rigid frame which defines and limits the number of materials to be screened (screen base, see Figure 1); 2.2.14
medium plate
which has holes of the same size and shape arranged on it: 2.2.15
gold-wire woven clath
wnven wire clath
composed of a gold-covered wire mesh and a woven core 2. 2.15
perforated plate
having a mesh-like arrangement of holes, the holes being either random or square. 2.2.17
Mesh screen is a metal sheet with round holes and square holes made by electrochemical method: 2.2.18
Sieve hole size
indicates the size of the opening across the surface.
Pitch
: The distance between two adjacent metal wires in the warp direction of a metal woven mesh or a pure metal wire, (perforated plate or electroformed plate) between two equal points in the direction of the two points. 2.2.20
Percenlage sicving nrea
GEI/T6329—2003
) For metal woven mesh and electroformed plate, it is the total area of ​​the mesh or the total area of ​​the mesh, expressed in percentage. ) For perforated plates, the ratio of the total area of ​​the printed circuit board to the total area of ​​the printed circuit board, expressed as a percentage. 2.2.21
wire diameterwirednnieter
The diameter of the wire before it is twisted into a metal mesh. 2.2.22 Type uf weave Warp and weft weave pattern: Warp and weft weave in the same way: 2.2.24 Weft: shoot Plain weave Plain weave Warp and weft weave in the same way: GR/T 5329—2003 Tilted weave Figure 2 Tilted weave Plate thickness Plate thickness Perforation:
Brideewilbar
The distance between the nearest edges of two adjacent holes in a perforated plate 2.2. 29
Margin
The distance between the edge of a perforated plate or a sheet metal and its outermost non-hole edge: 2.2. 30
Punchslde
The punch is used to punch the plate surface
2.3 Tests for separation
Sieving
The process of separating particles of different sizes by one or more sieves, Note: The separation is called separation. 2.3.2
Essieving
Sieving particles by one or more sieves. 2.3.3
Sieving particle size analysis partlclesizealyslsbyevinThrough sieving, the material in the form of a screen is selected and separated into different particle sizes and the results are reported. 2. 3. 4
Hand screening hanilstesing
Screening with one or a group of test spans assisted by three shakes, 2.3.5
Machine screening inxchintsierhg
Screening with one or a group of test spans assisted by a general lifting motion. 2. 3. 6
Dry sieving
Screening with liquid. Wet sieving
Screening with the aid of a sweeping period.
Sieving rate
The ratio of the amount of material passing through the sieve to the given material mass within a specified time 2.3.9
Sieving point
GR/T5329—2003
When the sieving reaches the point where the amount of material passing through the sieve is not enough to significantly change the sieving result, for each material, the liquid that passes through the sieve is measured or measured, and the amount of liquid that passes through the sieve is measured. 2. 3. 10
Pegging
Particles that are unable to pass through the sieve holes are a common state. 2. 3. 11
Chopping
The state in which very fine particles are completely screened from the smallest to the smallest is called "screening". 2. 3. 12
Lacan sizeFrartinnfractinn
The particle size is within the given upper and lower size limits of the pulling compartment 2.4 Expression of results expressiun r results 2. 4. 1
Frequency particle size particlesixe
The size of a particle passing through the sievesizeufaparticle The smallest sieve size that can be measured under favorable conditions 2. 4.2
menr-size particle
Approximate size particle
Approximately! The required hole center particle size
undersize
material is
the portion of the material that passes through the specified pipe.GH/T5329—2003
oversize
residue
the portion of the material that passes through the specified pipe.
sicedistribulion crve
particle size distribution curve
represents the required distribution curve:
oversize distribution curve
cumulatiweoversizedistribntioneurreIn a test with decreasing sieve hole size, the curve showing the relationship between the cumulative percentage of the mass of the material on each sieve and its corresponding sieve hole size.
undersize distribution curve
cumulatiwenndersize distribution In the process of sieving size reverse test, the cumulative ratio of the material under each sieve and its corresponding simple hole size are related to the following lines:
Auxiliary fabric type
Conventional test sieve group
Type of hole
Variable hole plate
Electroforming sheet
Unconventional test sieve groupwww.bzxz.net
Dry screening
Screening rate
Qualified test sieve
Mechanical screening·
Impact plate
Particle size:
Including metal wire diameter
Golden wire woven net
Non-north rate
Medium female lead
The cross-hole size of the particles passing through the compartment
Particle size.
. 2. 2. 6
...2.3.6
Two-grain density
Grain size analysis
Granularity distribution
Pull plate level
Matching test
Flat twist braid
Full variable test wax
Thickness of hoof pepper
Screening area percentage
Screening frequency Particle size classification
Screening test-
Screening point·
Screen hole size
Cumulative distribution curve of material on the sieve
Material on the sieve-
Integral distribution curve of material under the sieve
Sieve for,
South residue
Wet screening
Tester
Test sieve height H
Test depth H,
Test peak
GB/T5329-2003
.-2.3.3
2. 2. 13
.2.4.3
.2.2. 10
G/T 53292003
Manual sieving
Bulk density
Weaving
Single material
agglomerate
aperturysice
apparent hulk density
hlinding
bridgefldth
rertified test sieve
charge
clegging
cumulative oversize dlsirlbntiam enrrecumulative undersixx distrilbution curvedrysieving
electoformed sheet
ead point
fractlon
ull set of test sieve?
hand sieviny
Irregularsel aftesl sievu
English quotation
GB/I5329——2003
2. 1. January
CB/T 5329—2003
machine sfering
mntched test sieve||t t||neur-size purlicle
nesl af test sieves
orrsize
Paurticle
particle density
partlcle slze
particle sizr analysi by sieringpegging r.
percenlage sieving area
perrorated plate | tt||siave size nf a Farticle
sieving
sising mediuin
sieving Tatk
size distributlon curve
, 2.2.29
.... 2.3.86
Dry sleving
Add liquid sieving.
Wet sieving
Add sieving during the body scanning period.
Sieving rate
The ratio of the amount of material passing through the sieve to the given material mass within a specified time 2.3.9
Sieving point
GR/T5329—2003
When the sieving reaches the point where the amount of material passing through the sieve is not enough to significantly change the sieving result, for each material, the liquid that passes through the sieve is measured or measured, and the amount of liquid that passes through the sieve is measured. 2. 3. 10
Pegging
Particles that are unable to pass through the sieve holes are a common state. 2. 3. 11
Chopping
The state in which very fine particles are completely screened from the smallest to the smallest is called "screening". 2. 3. 12
Lacan sizeFrartinnfractinn
The particle size is within the given upper and lower size limits of the pulling compartment 2.4 Expression of results expressiun r results 2. 4. 1
Frequency particle size particlesixe
The size of a particle passing through the sievesizeufaparticle The smallest sieve size that can be measured under favorable conditions 2. 4.2
menr-size particle
Approximate size particle
Approximately! The required hole center particle size
undersize
material is
the portion of the material that passes through the specified pipe.GH/T5329—2003
oversize
residue
the portion of the material that passes through the specified pipe.
sicedistribulion crve
particle size distribution curve
represents the required distribution curve:
oversize distribution curve
cumulatiweoversizedistribntioneurreIn a test with decreasing sieve hole size, the curve showing the relationship between the cumulative percentage of the mass of the material on each sieve and its corresponding sieve hole size.
undersize distribution curve
cumulatiwenndersize distribution In the process of sieving size reverse test, the cumulative ratio of the material under each sieve and its corresponding simple hole size are related to the following lines:
Auxiliary fabric type
Conventional test sieve group
Type of hole
Variable hole plate
Electroforming sheet
Unconventional test sieve group
Dry screening
Screening rate
Qualified test sieve
Mechanical screening·
Impact plate
Particle size:
Including metal wire diameter
Golden wire woven net
Non-north rate
Medium female lead
The cross-hole size of the particles passing through the compartment
Particle size.
. 2. 2. 6
...2.3.6
Two-grain density
Grain size analysis
Granularity distribution
Pull plate level
Matching test
Flat twist braid
Full variable test wax
Thickness of hoof pepper
Screening area percentage
Screening frequency Particle size classification
Screening test-
Screening point·
Screen hole size
Cumulative distribution curve of material on the sieve
Material on the sieve-
Integral distribution curve of material under the sieve
Sieve for,
South residue
Wet screening
Tester
Test sieve height H
Test depth H,
Test peak
GB/T5329-2003
.-2.3.3
2. 2. 13
.2.4.3
.2.2. 10
G/T 53292003
Manual sieving
Bulk density
Weaving
Single material
agglomerate
aperturysice
apparent hulk density
hlinding
bridgefldth
rertified test sieve
charge
clegging
cumulative oversize dlsirlbntiam enrrecumulative undersixx distrilbution curvedrysieving
electoformed sheet
ead point
fractlon
ull set of test sieve?
hand sieviny
Irregularsel aftesl sievu
English quotation
GB/I5329——2003
2. 1. January
CB/T 5329—2003
machine sfering
mntched test sieve||t t||neur-size purlicle
nesl af test sieves
orrsize
Paurticle
particle density
partlcle slze
particle sizr analysi by sieringpegging r.
percenlage sieving area
perrorated plate | tt||siave size nf a Farticle
sieving
sising mediuin
sieving Tatk
size distributlon curve
, 2.2.29
.... 2.3.86
Dry sleving
Add liquid sieving.
Wet sieving
Add sieving during the body scanning period.
Sieving rate
The ratio of the amount of material passing through the sieve to the given material mass within a specified time 2.3.9
Sieving point
GR/T5329—2003
When the sieving reaches the point where the amount of material passing through the sieve is not enough to significantly change the sieving result, for each material, the liquid that passes through the sieve is measured or measured, and the amount of liquid that passes through the sieve is measured. 2. 3. 10
Pegging
Particles that are unable to pass through the sieve holes are a common state. 2. 3. 11
Chopping
The state in which very fine particles are completely screened from the smallest to the smallest is called "screening". 2. 3. 12
Lacan sizeFrartinnfractinn
The particle size is within the given upper and lower size limits of the pulling compartment 2.4 Expression of results expressiun r results 2. 4. 1
Frequency particle size particlesixe
The size of a particle passing through the sievesizeufaparticle The smallest sieve size that can be measured under favorable conditions 2. 4.2
menr-size particle
Approximate size particle
Approximately! The required hole center particle size
undersize
material is
the portion of the material that passes through the specified pipe.GH/T5329—2003
oversize
residue
the portion of the material that passes through the specified pipe.
sicedistribulion crve
particle size distribution curve
represents the required distribution curve:
oversize distribution curve
cumulatiweoversizedistribntioneurreIn a test with decreasing sieve hole size, the curve showing the relationship between the cumulative percentage of the mass of the material on each sieve and its corresponding sieve hole size.
undersize distribution curve
cumulatiwenndersize distribution In the process of sieving size reverse test, the cumulative ratio of the material under each sieve and its corresponding simple hole size are related to the following lines:
Auxiliary fabric type
Conventional test sieve group
Type of hole
Variable hole plate
Electroforming sheet
Unconventional test sieve group
Dry screening
Screening rate
Qualified test sieve
Mechanical screening·
Impact plate
Particle size:
Including metal wire diameter
Golden wire woven net
Non-north rate
Medium female lead
The cross-hole size of the particles passing through the compartment
Particle size.
. 2. 2. 6
...2.3.6
Two-grain density
Grain size analysis
Granularity distribution
Pull plate level
Matching test
Flat twist braid
Full variable test wax
Thickness of hoof pepper
Screening area percentage
Screening frequency Particle size classification
Screening test-
Screening point·
Screen hole size
Cumulative distribution curve of material on the sieve
Material on the sieve-
Integral distribution curve of material under the sieve
Sieve for,
South residue
Wet screening
Tester
Test sieve height H
Test depth H,
Test peak
GB/T5329-2003
.-2.3.3
2. 2. 13
.2.4.3
.2.2. 10
G/T 53292003
Manual sieving
Bulk density
Weaving
Single material
agglomerate
aperturysice
apparent hulk density
hlinding
bridgefldth
rertified test sieve
charge
clegging
cumulative oversize dlsirlbntiam enrrecumulative undersixx distrilbution curvedrysieving
electoformed sheet
ead point
fractlon
ull set of test sieve?
hand sieviny
Irregularsel aftesl sievu
English quotation
GB/I5329——2003
2. 1. January
CB/T 5329—2003
machine sfering
mntched test sieve||t t||neur-size purlicle
nesl af test sieves
orrsize
Paurticle
particle density
partlcle slze
particle sizr analysi by sieringpegging r.
percenlage sieving area
perrorated plate | tt||siave size nf a Farticle
sieving
sising mediuin
sieving Tatk
size distributlon curve
, 2.2.29
.... 2.3.81
frequency particle sizeparticlesixe
sizeofparticlesthesizeufaparticlethesmallestsizeofparticlesthatcanpassthesieveundertherigidconditions2. 4.2
menr-sizeparticle
approximatesizeparticle
approximately! The required size of the particle
undersize
materialis
thefillingamountisthepartthatpassesthroughthespecifiedsize.GH/T5329—2003
oversize
residueri
thefillingendisalsospecifiedpart.
sicedistribulion crve
particle size distribution curve
represents the curve of the distribution of the particle size:
oversize distribution
cumulatiweoversizedistribntioneurreIn a test with decreasing sieve size, the relationship between the cumulative percentage of the mass of the particle on each sieve and its corresponding sieve size is plotted.
undersize distribution
cumulatiwendersize distribution In the process of sieving size reverse test, the cumulative ratio of the material under each sieve and its corresponding simple hole size are related to the following lines:
Auxiliary fabric type
Conventional test sieve group
Type of hole
Variable hole plate
Electroforming sheet
Unconventional test sieve group
Dry screening
Screening rate
Qualified test sieve
Mechanical screening·
Impact plate
Particle size:
Including metal wire diameter
Golden wire woven net
Non-north rate
Medium female lead
The cross-hole size of the particles passing through the compartment
Particle size.
. 2. 2. 6
...2.3.6
Two-grain density
Grain size analysis
Granularity distribution
Pull plate level
Matching test
Flat twist braid
Full variable test wax
Thickness of hoof pepper
Screening area percentage
Screening frequency Particle size classification
Screening test-
Screening point·
Screen hole size
Cumulative distribution curve of material on the sieve
Material on the sieve-
Integral distribution curve of material under the sieve
Sieve for,
South residue
Wet screening
Tester
Test sieve height H
Test depth H,
Test peak
GB/T5329-2003
.-2.3.3
2. 2. 13
.2.4.3
.2.2. 10
G/T 53292003
Manual sieving
Bulk density
Weaving
Single material
agglomerate
aperturysice
apparent hulk density
hlinding
bridgefldth
rertified test sieve
charge
clegging
cumulative oversize dlsirlbntiam enrrecumulative undersixx distrilbution curvedrysieving
electoformed sheet
ead point
fractlon
ull set of test sieve?
hand sieviny
Irregularsel aftesl sievu
English reference
GB/I5329——2003
2. 1. January
CB/T 5329—2003
machine sfering
mntched test sieve||t t||neur-size purlicle
nesl af test sieves
orrsize
Paurticle
particle density
partlcle slze
particle sizr analysi by sieringpegging r.
percenlage sieving area
perrorated plate | tt||siave size nf a Farticle
sieving
sising mediuin
sieving Tatk
size distributlon curve
, 2.2.29
.... 2.3.81
frequency particle sizeparticlesixe
sizeofparticlesthesizeufaparticlethesmallestsizeofparticlesthatcanpassthesieveundertherigidconditions2. 4.2
menr-sizeparticle
approximatesizeparticle
approximately! The required size of the particle
undersize
materialis
thefillingamountisthepartthatpassesthroughthespecifiedsize.GH/T5329—2003
oversize
residueri
thefillingendisalsospecifiedpart.
sicedistribulion crve
particle size distribution curve
represents the curve of the distribution of the particle size:
oversize distribution
cumulatiweoversizedistribntioneurreIn a test with decreasing sieve size, the relationship between the cumulative percentage of the mass of the particle on each sieve and its corresponding sieve size is plotted.
undersize distribution
cumulatiwendersize distribution In the process of sieving size reverse test, the cumulative ratio of the material under each sieve and its corresponding simple hole size are related to the following lines:
Auxiliary fabric type
Conventional test sieve group
Type of hole
Variable hole plate
Electroforming sheet
Unconventional test sieve group
Dry screening
Screening rate
Qualified test sieve
Mechanical screening·
Impact plate
Particle size:
Including metal wire diameter
Golden wire woven net
Non-north rate
Medium female lead
The cross-hole size of the particles passing through the compartment
Particle size.
. 2. 2. 6
...2.3.6
Two-grain density
Grain size analysis
Granularity distribution
Pull plate level
Matching test
Flat twist braid
Full variable test wax
Thickness of hoof pepper
Screening area percentage
Screening frequency Particle size classification
Screening test-
Screening point·
Screen hole size
Cumulative distribution curve of material on the sieve
Material on the sieve-
Integral distribution curve of material under the sieve
Sieve for,
South residue
Wet screening
Tester
Test sieve height H
Test depth H,
Test peak
GB/T5329-2003
.-2.3.3
2. 2. 13
.2.4.3
.2.2. 10
G/T 53292003
Manual sieving
Bulk density
Weaving
Single material
agglomerate
aperturysice
apparent hulk density
hlinding
bridgefldth
rertified test sieve
charge
clegging
cumulative oversize dlsirlbntiam enrrecumulative undersixx distrilbution curvedrysieving
electoformed sheet
ead point
fractlon
ull set of test sieve?
hand sieviny
Irregularsel aftesl sievu
English reference
GB/I5329——2003
2. 1. January
CB/T 5329—2003
machine sfering
mntched test sieve||t t||neur-size purlicle
nesl af test sieves
orrsize
Paurticle
particle density
partlcle slze
particle sizr analysi by sieringpegging r.
percenlage sieving area
perrorated plate | tt||siave size nf a Farticle
sieving
sising mediuin
sieving Tatk
size distributlon curve
, 2.2.29
.... 2.3.86
Double particle density
Grain size analysis
Particle size distribution pitch
Pull plate level
Matching test
Flat twist braid
Full variable test wax
Hawk pepper thickness
Screening area percentage
Screening frequency Particle size classification
Screening test-
Screening point·
Screen hole size
Screen Cumulative distribution curve of upper material
Master upper material-
Sieve material wing distribution curve
Road material·
Sieve,
South residue
Wet screening
Test master
Test sieve height H
Test depth H,
Test peak
GB/T5329-2003
.-2.3.3
2. 2. 13
.2.4.3
.2.2. 10
G/T 53292003
Manual sieving
Bulk density
Weaving
Single material
agglomerate
aperturysice
apparent hulk density
hlinding
bridgefldth
rertified test sieve
charge
clegging
cumulative oversize dlsirlbntiam enrrecumulative undersixx distrilbution curvedrysieving
electoformed sheet
ead point
fractlon
ull set of test sieve?
hand sieviny
Irregularsel aftesl sievu
English reference
GB/I5329——2003
2. 1. January
CB/T 5329—2003
machine sfering
mntched test sieve||t t||neur-size purlicle
nesl af test sieves
orrsize
Paurticle
particle density
partlcle slze
particle sizr analysi by sieringpegging r.
percenlage sieving area
perrorated plate | tt||siave size nf a Farticle
sieving
sising mediuin
sieving Tatk
size distributlon curve
, 2.2.29
.... 2.3.86
Double particle density
Grain size analysis
Particle size distribution pitch
Pull plate level
Matching test
Flat twist braid
Full variable test wax
Hawk pepper thickness
Screening area percentage
Screening frequency Particle size classification
Screening test-
Screening point·
Screen hole size
Screen Cumulative distribution curve of upper material
Master upper material-
Sieve material wing distribution curve
Road material·
Sieve,
South residue
Wet screening
Test master
Test sieve height H
Test depth H,
Test peak
GB/T5329-2003
.-2.3.3
2. 2. 13
.2.4.3
.2.2. 10
G/T 53292003
Manual sieving
Bulk density
Weaving
Single material
agglomerate
aperturysice
apparent hulk density
hlinding
bridgefldth
rertified test sieve
charge
clegging
cumulative oversize dlsirlbntiam enrrecumulative undersixx distrilbution curvedrysieving
electoformed sheet
ead point
fractlon
ull set of test sieve?
hand sieviny
Irregularsel aftesl sievu
English quotation
GB/I5329——2003
2. 1. January
CB/T 5329—2003
machine sfering
mntched test sieve||t t||neur-size purlicle
nesl af test sieves
orrsize
Paurticle
particle density
partlcle slze
particle sizr analysi by sieringpegging r.
percenlage sieving area
perrorated plate | tt||siave size nf a Farticle
sieving
sising mediuin
sieving Tatk
size distributlon curve
, 2.2.29
.... 2.3.8
Tip: This standard content only shows part of the intercepted content of the complete standard. If you need the complete standard, please go to the top to download the complete standard document for free.