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APPIE MBP10-100

kvt part2 — Wed, 09 Sep 2020 08:46:46 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: MBP10-100

Material: Barium-titanate glass beads

particle density : 4.0∼4.2 g/cm³
aspect ratio : 1.0∼1.1

Chemical component

Chemical component	% ( weight )
TiO₂	33∼38
BaO	41∼48
SiO₂	10∼14
CaO	4∼8

Particle size distribution – measured by microscopy

Undersize (volume%)	Particle size range ( µm )
10	15.5~31.0
20	18.6~37.1
30	21.3~42.2
40	23.8~47.3
50	26.4~52.4
60	29.6~58.4
70	32.9~65.1
80	37.6~74.5
90	45.2~89.1

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APPIE MBP1-10

kvt part2 — Wed, 09 Sep 2020 08:20:20 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: MBP1-10

Material: Barium-titanate glass beads

particle density : 4.0∼4.2 g/cm³
aspect ratio : 1.0∼1.1

Chemical component

Chemical component	% ( weight )
TiO₂	33∼38
BaO	41∼48
SiO₂	10∼14
CaO	4∼8

Particle size distribution – measured by microscopy

Undersize (volume%)	Particle size range ( µm )
10	1.55~3.10
20	1.86~3.71
30	2.13~4.22
40	2.38~4.73
50	2.64~5.24
60	2.96~5.84
70	3.29~6.51
80	3.76~7.45
90	4.52~8.91

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APPIE E-Quartz Dust Sand

kvt part2 — Wed, 09 Sep 2020 08:04:50 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Material: Quartz

particle density : 2.6∼2.8 g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	95.5 (min.)
AI₂O₃	0.03 (max.)
Fe₂O₃	0.13 (max.)

Particle size distribution

Top size: Sieving
Particle size distribution : Laser diffraction–scattering method

E- Quartz Dust Sand
Top size : 850μm over size 1 % or less
Distribution
Particle size (µm)	under size % ( weight )
592	95.5±3.5
419	77±13
296	32±12
209	12±6
148	8±4

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APPIE E-Quartz Dust Coarse

kvt part2 — Wed, 09 Sep 2020 07:01:22 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Material: Quartz

particle density : 2.6∼2.8 g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	95.5 (min.)
AI₂O₃	0.03 (max.)
Fe₂O₃	0.13 (max.)

Particle size distribution

Top size: Sieving
Particle size distribution : Laser diffraction–scattering method

E- Quartz Dust Coarse
Top size : 150μm over size 1 % or less
Distribution
Particle size (µm)	under size % ( weight )
105	79±9
74	60±8
40	36±8
20	24±8
10	15±7
5	9±5
2	3.5±2.5

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APPIE E-Quartz Dust Fine

kvt part2 — Wed, 09 Sep 2020 06:23:09 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Material: Quartz

particle density : 2.6∼2.8 g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	95.5 (min.)
AI₂O₃	0.03 (max.)
Fe₂O₃	0.13 (max.)

Particle size distribution

Top size: Sieving
Particle size distribution : Laser diffraction–scattering method

E- Quartz Dust Fine
Top size : 75μm over size 1 % or less (weight)
Particle size distribution
Particle size (µm)	under size % (volume)
40	87±7
20	64±6
10	42±6
5	25±5
2	10±4

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APPIE E-Talc Dust Powder

kvt part2 — Wed, 09 Sep 2020 06:13:47 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: E-Talc

Material: Talc

particle density : 2.8∼3.0 g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	60∼63
Fe₂O₃	0∼3
AI₂O₃	0∼3
CaO	0∼2
MgO	30∼34
Ignition Loss	3∼7

Particle size distribution

Top size: Sieving
Particle size distribution : Laser diffraction–scattering method

E-Talc Dust Powder
Top size : 75μm over size 1 % or less (weight)
Particle size distribution
Particle size (µm)	under size % (volume)
62	96±4
40	91±7
20	58±10

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APPIE SAP Test Powders 3 Class 4 STP3-4 Calcium Carbonate Ground

kvt part2 — Wed, 09 Sep 2020 06:04:32 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Material: Calcium carbonate (ground)

particle density : 2.7∼2.8 g/cm³

Chemical component

Chemical component	% ( weight )
CaO	54∼56
MgO	0∼3
SiO₂	0∼4
AI₂O₃	0∼3
Fe₂O₃	0∼1
Ignition Loss	42∼45

Particle size distribution – measured by Laser Diffraction-Scattering Method

Undersize (volume%)	Particle size range ( µm )
10	0.31~0.54
20	0.38~0.65
30	0.45~0.79
40	0.57~0.97
50	0.75~1.3
60	0.95~1.7
70	1.2~2.0
80	1.4~2.4
90	1.7~3.0

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APPIE SAP Test Powders 3 Class 3 STP3-3 Sintered KANTO Loam

kvt part2 — Wed, 09 Sep 2020 05:10:11 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Material: Sintered KANTO loam

particle density : 2.9∼3.1 g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	34∼40
Fe₂O₃	17∼23
AI₂O₃	26∼32
CaO	0∼3
MgO	0∼7
TiO₂	0∼4
Ignition Loss	0∼4

*Kanto Loam is natural soil and the ingredient may slightly vary according to the collection place.

Particle size distribution – measured by Laser Diffraction-Scattering Method

Undersize (volume%)	Particle size range ( µm )
10	0.89~1.3
20	1.2~1.7
30	1.4~2.0
40	1.5~2.3
50	1.7~2.5
60	1.8~2.7
70	2.0~2.9
80	2.4~3.5
90	2.9~4.2

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APPIE SAP Test Powders 3 Class 2 STP3-2 Talc

kvt part2 — Wed, 09 Sep 2020 04:59:52 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Material: Talc

particle density : 2.7∼2.9 g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	60∼63
Fe₂O₃	0∼3
AI₂O₃	0∼3
CaO	0∼2
MgO	30∼34
Ignition Loss	3∼7

Particle size distribution – measured by Laser Diffraction-Scattering Method

Undersize (volume%)	Particle size range ( µm )
10	1.7~2.9
20	2.3~3.9
30	2.7~4.6
40	3.1~5.3
50	3.6~6.1
60	4.0~6.9
70	4.4~7.6
80	5.1~8.7
90	6.3~11

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APPIE SAP Test Powders 3 Class 1 STP3-1 Quartz Sand

kvt part2 — Wed, 09 Sep 2020 04:48:12 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Material: Quarts sand

particle density : 2.6∼2.7 g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	95 (min.)
Fe₂O₃	5 (max.)
AI₂O₃
TiO₂
MgO
Ignition Loss

Particle size distribution – measured by Laser Diffraction-Scattering Method

Undersize (volume%)	Particle size range ( µm )
10	0.75~1.1
20	1.1~1.7
30	1.3~2.0
40	1.5~2.3
50	1.7~2.6
60	1.9~2.8
70	2.0~3.0
80	2.3~3.4
90	2.8~4.1

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APPIE JIS Test Powders2 White Fused Alumina

kvt part2 — Tue, 08 Sep 2020 04:32:05 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)

Standard

Reference standard:JIS Z 8901
Material：White fused alumina
Particle density：3.9∼4.0g/cm³

Chemical component：Al₂O₃ 99% min.

Particle size distribution – measured by Electrical Sensing Zone Method

Class	Particle size(μm)at 94%,50%,3% oversize weight basis(%) on the cummulative distribution curve
Class	94% (min.)	50%	3% (max.)
No.1	0.8	2±0.5	5
No.2	2.0	4±0.5	11
No.3	4.5	8±0.6	20
No.4	9.0	14±1	31
No.5	20	30±2	58
No.6	40	57±3	103

Electron Microscopic Photograph

Test Powders 2-White fused alumina No.1（SEM）

Test Powders 2-White fused alumina No.３（SEM）

Test Powders 2- White fused alumina No.６（SEM）

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APPIE JIS Test Powders1 JIS Z 8901 (Class 16,17 Calcium Carbonate（ground))

kvt part2 — Tue, 08 Sep 2020 04:09:59 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: JIS Z 8901 (Class 16,17 Calcium carbonate（ground))

Standard

Reference standard:JIS Z 8901
Material：Calcium- carbonate(ground)
Particle density：2.7∼2.8g/cm³

Chemical component

Chemical component	% ( weight )
CaO	54∼56
MgO	0∼3
SiO₂	0∼4
AI₂O₃	0∼3
Fe₂O₃	0∼1
Ignition Loss	42∼45

Particle size distribution – measured by Sedimentation Method

Particle size µm	Oversize(weight basis)%
Particle size µm	Class 16	Class 17
1	–	80±5
2	76±5	54±5
4	–	18±5
5	40±5	–
8	–	4±3
10	10±5	–
16	–	1 (max.)
20	1 (max.)

Electron Microscopic Photograph

Test Powders 1-Class16（Calcium-carbonate(ground) ）（SEM）

Test Powders 1-Class17（Calcium-carbonate(ground)）（SEM）

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APPIE JIS Test Powders1 JIS Z 8901 (Class 12 Carbon Black)

kvt part2 — Tue, 08 Sep 2020 03:41:03 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: JIS Z 8901 (Class 12 Carbon black)

Standard

Reference standard:JIS Z 8901
Material：Carbon black

Physicochemical characteristic

Absorbed amount of DBP	25∼34 ml/100g
Adsorbed amount of iodine	22∼30 mg/g

Note）
Absorbed amount of DBP： The amount of the DBP（Dibutyl phthalate）necessary to fill the void among particles shows the state of the agglomeration of particles.
Adsorbed amount of iodine：This value is an amount of iodine which is adsorbed by the unit mass of carbon-black and relates with the specific surface area.
Particle size range : 0.03～0.20μm – measured by microscopy (Particle size distribution is not prescribed.)

Electron Microscopic Photograph

Test Powders 1-Class12（Carbon black）（SEM）

Test Powders 1-Class12（Carbon black）（TEM）

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APPIE JIS Test Powders1 JIS Z 8901 (Class 7,8,11 KANTO Loam)

kvt part2 — Tue, 08 Sep 2020 02:25:10 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: JIS Z 8901 (Class 7,8,11 KANTO Loam)

Standard

Reference standard: Class7, 8 (JIS Z 8901)
Class11 (JIS Z 8901 equivalent)
Material：KANTO ( Japanese ) loam 　　^*Sintered at 800°C, 2hours.
Particle density：2.9∼3.1g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	34∼40
Fe₂O₃	17∼23
AI₂O₃	26∼32
CaO	0∼3
MgO	0∼7
TiO₂	0∼4
Ignition Loss	0∼4

*Kanto Loam is natural soil and the ingredient may slightly vary according to the collection place.

Particle size distribution

Class7, 8: Sieving(Top size 75µm), Sedimentation Method
Class11: Laser Diffraction-Scattering Method

Particle size µm	Oversize(weight basis)%		Oversize(volume basis)%
Particle size µm	Class 7	Class 8	Class 11 (JIS Equivalent)
1	–		61.4±5
2	–		39.6±5
4	–		16.4±3
5	88±5	61±5	–
6	–		6.7±3
8	–		3.0±3
10	76±3	43±3	–
20	62±3	27±3	–
30	50±3	15±3	–
40	39±3	9±3	–
75	20 (max.)	3 (max.)

Electron Microscopic Photograph

Test Powders 1-Class7 (KANTO(Japanese) loam)

Test Powders 1-Class8 (KANTO(Japanese) loam)

Test Powders 1-Class 11 (JIS Equivalent) (KANTO(Japanese) loam)

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APPIE JIS Test Powders1 JIS Z 8901 (Class 5,10 Fly Ash)

kvt part2 — Tue, 08 Sep 2020 02:00:09 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: JIS Z 8901 (Class 5,10 Fly ash)

Standard

Reference standard:JIS Z 8901

Material：Fly ash
Particle density：1.95∼2.3g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	45 (min.)
Moisture content	1 (max.)
Ignition Loss	5 (max.)

Particle size distribution

Class5: Sieving(Top size 106µm), Sedimentation Method
Class10: Sedimentation Method

Particle size µm	Oversize(weight basis)%
Particle size µm	Class 5	Class 10
2	–	82±5
4	–	60±5
5	84±5	–
8	–	22±3
10	60±5	–
16	–	3±3
20	32±3
30	15±3
40	8±3
106	1 (max.)

Electron Microscopic Photograph

Test Powders 1-Class5（Fly ash ）（SEM）

Test Powders 1-Class10（Fly ash ）（SEM）

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APPIE JIS TEST POWDERS1 JIS Z 8901 (Class 4,9 Talc)

kvt part2 — Tue, 08 Sep 2020 00:59:15 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: JIS Z 8901 (Class 4,9 Talc)

Standard

Reference standard:JIS Z 8901
Material：Talc
Particle density：2.7∼2.9g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	60∼63
Fe₂O₃	0∼3
AI₂O₃	0∼3
CaO	0∼2
MgO	30∼34
Ignition Loss	3∼7

Particle size distribution

Class4: Sieving(Top size 75µm), Sedimentation Method
Class9: Sedimentation Method

Particle size µm	Oversize(weight basis)%
Particle size µm	Class 4	Class 9
2	–	79±5
4	–	55±5
5	69±5	–
8	–	23±5
10	40±5	–
16	–	6±3
20	12±5
30	–
40	3±3
75	1 (max.)

Electron Microscopic Photograph

Test Powders 1-Class4（Talc）（SEM）

Test Powders 1-Class9（Talc）（SEM）

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APPIE JIS Test Powders1 JIS Z 8901 (Class1,2,3 Quartz Sand)

kvt part2 — Mon, 07 Sep 2020 01:48:28 +0000

Manufacturer: The Association of Powder Process Industry and Engineering (APPIE)
Model: JIS Z 8901 (Class1,2,3 Quartz sand)

Standard

Reference standard:JIS Z 8901
Material：Quartz sand
Particle density：2.6∼2.7g/cm³

Chemical component

Chemical component	% ( weight )
SiO₂	95 (min.)
Fe₂O₃	5 (max.)
AI₂O₃
TiO₂
MgO
Ignition Loss

Particle size distribution

Class1: Sieving
Class2, 3: Sieving(Top size 75µm), Sedimentation Method

Particle size µm	Oversize(weight basis)%
Particle size µm	Class 1	Class 2	Class 3
5	–	88±5	61±5
10	–	76±3	43±3
20	–	62±3	27±3
30	–	50±3	15±3
40	–	39±3	9±3
45	99 (min.)	–	–
75	90±3	20 (max.)	3 (max.)
106	80±3
150	65±3
212	45±3
300	1 (max.)

Electron Microscopic Photograph

Test Powders 1-Class1（Quartz sand）（SEM）

Test Powders 1-Class2（Quartz sand）（SEM）

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APPIE | Kouei Japan Trading | Get Quotation

APPIE MBP10-100

Material: Barium-titanate glass beads

Chemical component

APPIE MBP1-10

Material: Barium-titanate glass beads

Chemical component

APPIE E-Quartz Dust Sand

Material: Quartz

Chemical component

Particle size distribution

APPIE E-Quartz Dust Coarse

Material: Quartz

Chemical component

Particle size distribution

APPIE E-Quartz Dust Fine

Material: Quartz

Chemical component

Particle size distribution

APPIE E-Talc Dust Powder

Material: Talc

Chemical component

Particle size distribution

APPIE SAP Test Powders 3 Class 4 STP3-4 Calcium Carbonate Ground

Material: Calcium carbonate (ground)

Chemical component

APPIE SAP Test Powders 3 Class 3 STP3-3 Sintered KANTO Loam

Material: Sintered KANTO loam

Chemical component

APPIE SAP Test Powders 3 Class 2 STP3-2 Talc

Material: Talc

Chemical component

APPIE SAP Test Powders 3 Class 1 STP3-1 Quartz Sand

Material: Quarts sand

Chemical component

APPIE JIS Test Powders2 White Fused Alumina

Standard

Chemical component：Al2O3 99% min.

Electron Microscopic Photograph

APPIE JIS Test Powders1 JIS Z 8901 (Class 16,17 Calcium Carbonate（ground))

Standard

Chemical component

Electron Microscopic Photograph

APPIE JIS Test Powders1 JIS Z 8901 (Class 12 Carbon Black)

Standard

Physicochemical characteristic

Electron Microscopic Photograph

APPIE JIS Test Powders1 JIS Z 8901 (Class 7,8,11 KANTO Loam)

Standard

Chemical component

Particle size distribution

Electron Microscopic Photograph

APPIE JIS Test Powders1 JIS Z 8901 (Class 5,10 Fly Ash)

Standard

Chemical component

Particle size distribution

Electron Microscopic Photograph

APPIE JIS TEST POWDERS1 JIS Z 8901 (Class 4,9 Talc)

Standard

Chemical component

Particle size distribution

Electron Microscopic Photograph

APPIE JIS Test Powders1 JIS Z 8901 (Class1,2,3 Quartz Sand)

Standard

Chemical component

Particle size distribution

Electron Microscopic Photograph

Chemical component：Al₂O₃ 99% min.