DE 
FR 
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PT Diamond polishing pastes
DIAMOND EMULSION SPRAY, HIGH CONCENTRATION (DEH)
DIAMOND EMULSION SPRAY, DIAMOND SUSPENSION, DIAMOND SLURRY
HIGH CONCENTRATION
Weight: 40 gr.
Water based
Grain size: Please select from the list
Diamond concentration: HIGH, INCREASED
please see the difference between concentrations below
Diamond weight per 40 gr., cts
Surface roughness after polishing
30000 grit = 0.5/0 μ - fine polishing
15000 grit = 1/0 μ - fine polishing
10000 grit = 2/1 μ - fine polishing
5000 grit = 3/2 μ - fine polishing
4000 grit = 5/3 μ - polishing
3000 grit = 7/5 μ - polishing
1700 grit = 10/7 μ - polishing
1500 grit = 14/10 μ - polishing
1100 grit = 20/14 μ - polishing
650 grit = 28/20 μ - polishing
550 grit = 40/28 μ - fine grinding
325 grit = 50/40 μ - fine grinding
Free shipping
Contact us for combined shipping quote or bulk discounts.
Download full catalog
HIGH CONCENTRATION
Weight: 40 gr.
Water based
Grain size: Please select from the list
The finest grain size is 0.5/0 micron (fine polishing), but we can make 0.25/0 and 0.1/0 micron.
We replaced spray bottles (second photo) with dropper bottles (main photo),
as the dropper is more convenient (according to customer reviews) and does not clog.
Sprayer bottles are still available, please tell me if you need them.
This emulsion shows excellent non-drying(delayed drying) properties:
- Unlike other common water-based products on the market that dry out easily, this emulsion is very suitable for lapping as it can be used for a long time without particle clog and fixation(less impregnation) due to fast drying.
- It works really well on strop media that is harder than leather, like copper(half impregnation/half loose), cast iron, granite, CGSW hard strop.
- Excellent deburr properties in loose abrasive's rolling abrasion mode.
Why it's important:
As you know, once you apply diamond/CBN to leather, it will work almost forever. However, for non-absorbent surfaces, most emulsions will lose most of its abrasiveness when washed out -> frequent reapply required = higher consumption and higher costs.
Shake it well before use
Coarse grains (> 5/3 micron) are heavier, so shake it even better,
if you still see residue on the bottom - It wouldn't hurt to stir it with thin stick.
Blade of old knife, polished with these emulsions, grain sizes 7/5 and 5/3
We replaced spray bottles (second photo) with dropper bottles (main photo),
as the dropper is more convenient (according to customer reviews) and does not clog.
Sprayer bottles are still available, please tell me if you need them.
This emulsion shows excellent non-drying(delayed drying) properties:
- Unlike other common water-based products on the market that dry out easily, this emulsion is very suitable for lapping as it can be used for a long time without particle clog and fixation(less impregnation) due to fast drying.
- It works really well on strop media that is harder than leather, like copper(half impregnation/half loose), cast iron, granite, CGSW hard strop.
- Excellent deburr properties in loose abrasive's rolling abrasion mode.
Why it's important:
As you know, once you apply diamond/CBN to leather, it will work almost forever. However, for non-absorbent surfaces, most emulsions will lose most of its abrasiveness when washed out -> frequent reapply required = higher consumption and higher costs.
Shake it well before use
Coarse grains (> 5/3 micron) are heavier, so shake it even better,
if you still see residue on the bottom - It wouldn't hurt to stir it with thin stick.
Blade of old knife, polished with these emulsions, grain sizes 7/5 and 5/3
Diamond concentration: HIGH, INCREASED
please see the difference between concentrations below
Diamond weight per 40 gr., cts
| 100/80 | 120 |
| 80/63 | 120 |
| 60/40 | 40 |
| 40/28 | 40 |
| 28/20 | 30 |
| 20/14 | 30 |
| 14/10 | 30 |
| 10/7 | 20 |
| 7/5 | 20 |
| 5/3 | 20 |
| 3/2 | 10 |
| 2/1 | 10 |
| 1/0 | 10 |
| 0,5/0 | 10 |
| 0,25/0 | 10 |
| 0,1/0 | 10 |
Surface roughness after polishing
| Grain size, µm | Surface roughness Ra, µm | Processing | |
before | after | ||
125/100 - 50/40 | - | 0,32 | grinding, fine grinding |
60/40-40/28 | 0,4 - 0,2 | 0,195 - 0,155 | fine grinding |
28/20 - 14/10 | 0,16 - 0,1 | 0,12 - 0,075 | polishing |
10/7 - 5/3 | 0,08 - 0,05 | 0,06 - 0,038 | polishing |
3/2 - 1/0 | 0,04 - 0,025 | 0,03 - 0,02 | fine polishing |
0,5/0 - 0,1/0 | - | - | fine polishing |
30000 grit = 0.5/0 μ - fine polishing
15000 grit = 1/0 μ - fine polishing
10000 grit = 2/1 μ - fine polishing
5000 grit = 3/2 μ - fine polishing
4000 grit = 5/3 μ - polishing
3000 grit = 7/5 μ - polishing
1700 grit = 10/7 μ - polishing
1500 grit = 14/10 μ - polishing
1100 grit = 20/14 μ - polishing
650 grit = 28/20 μ - polishing
550 grit = 40/28 μ - fine grinding
325 grit = 50/40 μ - fine grinding
Free shipping
Contact us for combined shipping quote or bulk discounts.
Download full catalog
Warranty, returns and refunds Grain size conversion, selection and use of your tool |
40 gr
DIAMOND PASTES, CONCENTRATION 15%, SUPER HIGH (DP)
DIAMOND POLISHING, LAPPING PASTE, CONCENTRATION 15%, SUPER HIGH
Weight: 40 gr.
Soluble in organic solvents.
Grain size: Please select from the list
Diamond concentration: 15% by weight, or 30 ct. (6 gr.) of diamond in 40 gr. bottle. This is the highest concentration, which can be manufactured.
If you need higher concentration, simply mix required quantity of diamond powder with any lubricant (oil, glycerol, etc.)
Comparison of diamond weight in this paste and extra high concentration paste per 1 kg of product.
0.25/0 Extra high 10% - 500 cts
0.25/0 15% - 750 cts
0.5/0 Extra high 10% - 500 cts
0.5/0 15% - 750 cts
1/0 Extra high 10% - 500 cts
1/0 15% - 750 cts
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
Available on stock
Application
Sharpening of straight razors for shaving
Free shipping
Contact us for combined shipping quote or bulk discounts.
Download full catalog
Weight: 40 gr.
Soluble in organic solvents.
You can dilute the paste with benzene, kerosene.
We make also water based pastes, which have less areas of application, but may be more convenient for you.
More information about the difference between water-based and oil-based pastes.
More information about the difference between water-based and oil-based pastes.
Grain size: Please select from the list
The finest grain size is 0.25/0 micron (fine polishing) , the coarsest - 1/0 micron
Diamond concentration: 15% by weight, or 30 ct. (6 gr.) of diamond in 40 gr. bottle. This is the highest concentration, which can be manufactured.
If you need higher concentration, simply mix required quantity of diamond powder with any lubricant (oil, glycerol, etc.)
Comparison of diamond weight in this paste and extra high concentration paste per 1 kg of product.
0.25/0 Extra high 10% - 500 cts
0.25/0 15% - 750 cts
0.5/0 Extra high 10% - 500 cts
0.5/0 15% - 750 cts
1/0 Extra high 10% - 500 cts
1/0 15% - 750 cts
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
Available on stock
Application
Sharpening of straight razors for shaving
Free shipping
Contact us for combined shipping quote or bulk discounts.
Download full catalog
Warranty, returns and refunds Grain size conversion, selection and use of your tool |
40 gr
DIAMOND PASTES, NORMAL CONCENTRATION (DP)
DIAMOND POLISHING, LAPPING PASTE
Weight: 40 gr.
Diamond concentration: NORMAL (STANDARD, LIGHT),
please see the difference between concentrations below
Normal concentration is recommended when lapping area is relatively high, for polishing metals, alloys, glass. Results with normal concentration diamond paste are slower, but you have better control over the process.
Diamond weight per 40 gr., cts
Surface roughness after polishing
Available on stock
We have all types of diamond pastes and supply products according to customer requirements, which include: base compound (water, oil), packaging, color, concentrations. Please note, some products are impossible to make, for example, maximum concentration of 0.5/0 paste is 15% by weight.
Application
Finishing and polishing of ferrous and non-ferrous metals, alloys, steels, hard alloys, ceramics, jewelry.
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
Free shipping
Contact us for combined shipping quote or bulk discounts.
Download full catalog
Weight: 40 gr.
Oil based (Soluble in organic solvents): for polishing of ferrous and non-ferrous metals, alloys, non-metal materials, steels and semiconducting materials.
Water based: for polishing of glass, semiconducting materials, carbide tools, dyes, sapphire.
To make selection easier: buy oil based paste in most cases and water based paste if stains may be an issue. More information about the difference between water-based and oil-based pastes.
Grain size: Please select from the list
The finest grain size is 0.1/0 micron (fine polishing) , the coarsest - 125/100 micron (grinding).
Diamond concentration: NORMAL (STANDARD, LIGHT),
please see the difference between concentrations below
Normal concentration is recommended when lapping area is relatively high, for polishing metals, alloys, glass. Results with normal concentration diamond paste are slower, but you have better control over the process.
Diamond weight per 40 gr., cts
| 160/125 | 80 |
| 125/100 | 80 |
| 100/80 | 80 |
| 80/63 | 80 |
| 63/60 | 40 |
| 60/40 | 16 |
| 40/28 | 16 |
| 28/20 | 12 |
| 20/14 | 12 |
| 14/10 | 12 |
| 10/7 | 8 |
| 7/5 | 8 |
| 5/3 | 8 |
| 3/2 | 4 |
| 2/1 | 4 |
| 1/0 | 4 |
| 0,5/0 | 4 |
| 0,25/0 | 4 |
| 0,1/0 | 4 |
Surface roughness after polishing
| Grain size, µm | Surface roughness Ra, µm | Processing | |
before | after | ||
125/100 - 50/40 | - | 0,32 | grinding, fine grinding |
60/40-40/28 | 0,4 - 0,2 | 0,195 - 0,155 | fine grinding |
28/20 - 14/10 | 0,16 - 0,1 | 0,12 - 0,075 | polishing |
10/7 - 5/3 | 0,08 - 0,05 | 0,06 - 0,038 | polishing |
3/2 - 1/0 | 0,04 - 0,025 | 0,03 - 0,02 | fine polishing |
0,5/0 - 0,1/0 | - | - | fine polishing |
We have all types of diamond pastes and supply products according to customer requirements, which include: base compound (water, oil), packaging, color, concentrations. Please note, some products are impossible to make, for example, maximum concentration of 0.5/0 paste is 15% by weight.
Application
Finishing and polishing of ferrous and non-ferrous metals, alloys, steels, hard alloys, ceramics, jewelry.
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
Free shipping
Contact us for combined shipping quote or bulk discounts.
Legally we required to mark pastes according to Ukrainian standard, in Cyrillic characters: grain size in microns type (concentration, composition). Concentrations: Н- normal, П- high, В- extra high, e.g.:
3/2 ПОМГ - 3/2 high concentration, oil based.
Download full catalog
Warranty, returns and refunds Grain size conversion, selection and use of your tool |
40 gr
DIAMOND PASTES, EXTRA HIGH CONCENTRATION (DPH)
DIAMOND POLISHING, LAPPING PASTE, EXTRA HIGH CONCENTRATION
Weight: 40 gr.
Diamond concentration: EXTRA HIGH
please see the difference between concentrations below,
EXTRA HIGH is the highest standard concentration of diamond paste, it has the highest removal rate; extra high concentration diamond pastes are recommended for hard materials.
Diamond weight per 40 gr., cts
Surface roughness after polishing
Available on stock
We have all types of diamond pastes and supply products according to customer requirements, which include: base compound (water, oil), packaging, color, concentrations. Please note, some products are impossible to make, for example, maximum concentration of 0.5/0 paste is 15% by weight.
Application
Finishing and polishing of stone (granite, marble), metal, glass.
30000 grit = 0.5/0 μ - fine polishing
15000 grit = 1/0 μ - fine polishing
10000 grit = 2/1 μ - fine polishing
5000 grit = 3/2 μ - fine polishing
4000 grit = 5/3 μ - polishing
3000 grit = 7/5 μ - polishing
1700 grit = 10/7 μ - polishing
1500 grit = 14/10 μ - polishing
1100 grit = 20/14 μ - polishing
650 grit = 28/20 μ - polishing
550 grit = 40/28 μ - fine grinding
325 grit = 50/40 μ - fine grinding
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
Free shipping
Contact us for combined shipping quote or bulk discounts.
Download full catalog
Weight: 40 gr.
Oil based (Soluble in organic solvents): for polishing of ferrous and non-ferrous metals, alloys, non-metal materials, steels and semiconducting materials.
Water based: for polishing of glass, semiconducting materials, carbide tools, dyes, sapphire.
To make selection easier: buy oil based paste in most cases and water based paste if stains may be an issue. More information about the difference between water-based and oil-based pastes.
Grain size: Please select from the listThe finest grain size is 0.1/0 micron (fine polishing) , the coarsest - 125/100
Diamond concentration: EXTRA HIGH
please see the difference between concentrations below,
EXTRA HIGH is the highest standard concentration of diamond paste, it has the highest removal rate; extra high concentration diamond pastes are recommended for hard materials.
Diamond weight per 40 gr., cts
| 60/40 | 80 |
| 40/28 | 80 |
| 28/20 | 60 |
| 20/14 | 60 |
| 14/10 | 60 |
| 10/7 | 40 |
| 7/5 | 40 |
| 5/3 | 40 |
| 3/2 | 20 |
| 2/1 | 20 |
| 1/0 | 20 |
| 0,5/0 | 20 |
| 0,25/0 | 20 |
| 0,1/0 | 20 |
Surface roughness after polishing
| Grain size, µm | Surface roughness Ra, µm | Processing | |
before | after | ||
125/100 - 50/40 | - | 0,32 | grinding, fine grinding |
60/40-40/28 | 0,4 - 0,2 | 0,195 - 0,155 | fine grinding |
28/20 - 14/10 | 0,16 - 0,1 | 0,12 - 0,075 | polishing |
10/7 - 5/3 | 0,08 - 0,05 | 0,06 - 0,038 | polishing |
3/2 - 1/0 | 0,04 - 0,025 | 0,03 - 0,02 | fine polishing |
0,5/0 - 0,1/0 | - | - | fine polishing |
Available on stock
We have all types of diamond pastes and supply products according to customer requirements, which include: base compound (water, oil), packaging, color, concentrations. Please note, some products are impossible to make, for example, maximum concentration of 0.5/0 paste is 15% by weight.
Application
Finishing and polishing of stone (granite, marble), metal, glass.
30000 grit = 0.5/0 μ - fine polishing
15000 grit = 1/0 μ - fine polishing
10000 grit = 2/1 μ - fine polishing
5000 grit = 3/2 μ - fine polishing
4000 grit = 5/3 μ - polishing
3000 grit = 7/5 μ - polishing
1700 grit = 10/7 μ - polishing
1500 grit = 14/10 μ - polishing
1100 grit = 20/14 μ - polishing
650 grit = 28/20 μ - polishing
550 grit = 40/28 μ - fine grinding
325 grit = 50/40 μ - fine grinding
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
Free shipping
Contact us for combined shipping quote or bulk discounts.
Legally we required to mark pastes according to Ukrainian standard, in Cyrillic characters: grain size in microns type (concentration, composition). Concentrations: Н- normal, П- high, В- extra high, e.g.:
3/2 ПОМГ - 3/2 high concentration, oil based.
Download full catalog
Warranty, returns and refunds Grain size conversion, selection and use of your tool |
40 gr
DIAMOND PASTES, HIGH CONCENTRATION (DPH)
Diamond concentration: HIGH (INCREASED, ELEVATED)
please see the difference between concentrations below
High concentration diamond pastes are recommended for polishing metals, stones, glass, in processes, requiring rapid material removal or achieving a high-gloss finish on hard materials.
Diamond weight per 40 gr., cts
Surface roughness after polishing
Available on stock
We have all types of diamond pastes and supply products according to customer requirements, which include: base compound (water, oil), packaging, color, concentrations. Please note, some products are impossible to make, for example, maximum concentration of 0.5/0 paste is 15% by weight.
Application
Finishing and polishing of ferrous and non-ferrous metals, alloys, steels, hard alloys, ceramics, jewelry.
30000 grit = 0.5/0 μ - fine polishing
15000 grit = 1/0 μ - fine polishing
10000 grit = 2/1 μ - fine polishing
5000 grit = 3/2 μ - fine polishing
4000 grit = 5/3 μ - polishing
3000 grit = 7/5 μ - polishing
1700 grit = 10/7 μ - polishing
1500 grit = 14/10 μ - polishing
1100 grit = 20/14 μ - polishing
650 grit = 28/20 μ - polishing
550 grit = 40/28 μ - fine grinding
325 grit = 50/40 μ - fine grinding
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
Free shipping
Contact us for combined shipping quote or bulk discounts.
Download full catalog
DIAMOND POLISHING, LAPPING PASTE, HIGH CONCENTRATION
Weight: 40 gr.
Oil based (Soluble in organic solvents): for polishing of ferrous and non-ferrous metals, alloys, non-metal materials, steels and semiconducting materials.
Water based: for polishing of glass, semiconducting materials, carbide tools, dyes, sapphire.
To make selection easier: buy oil based paste in most cases and water based paste if stains may be an issue. More information about the difference between water-based and oil-based pastes.
Grain size: Please select from the list
The finest grain size is 0.1/0 micron (fine polishing) , the coarsest - 125/100 micron (grinding).
Diamond concentration: HIGH (INCREASED, ELEVATED)
please see the difference between concentrations below
High concentration diamond pastes are recommended for polishing metals, stones, glass, in processes, requiring rapid material removal or achieving a high-gloss finish on hard materials.
Diamond weight per 40 gr., cts
| 100/80 | 120 |
| 80/63 | 120 |
| 60/40 | 40 |
| 40/28 | 40 |
| 28/20 | 30 |
| 20/14 | 30 |
| 14/10 | 30 |
| 10/7 | 20 |
| 7/5 | 20 |
| 5/3 | 20 |
| 3/2 | 10 |
| 2/1 | 10 |
| 1/0 | 10 |
| 0,5/0 | 10 |
| 0,25/0 | 10 |
| 0,1/0 | 10 |
Surface roughness after polishing
| Grain size, µm | Surface roughness Ra, µm | Processing | |
before | after | ||
125/100 - 50/40 | - | 0,32 | grinding, fine grinding |
60/40-40/28 | 0,4 - 0,2 | 0,195 - 0,155 | fine grinding |
28/20 - 14/10 | 0,16 - 0,1 | 0,12 - 0,075 | polishing |
10/7 - 5/3 | 0,08 - 0,05 | 0,06 - 0,038 | polishing |
3/2 - 1/0 | 0,04 - 0,025 | 0,03 - 0,02 | fine polishing |
0,5/0 - 0,1/0 | - | - | fine polishing |
Available on stock
We have all types of diamond pastes and supply products according to customer requirements, which include: base compound (water, oil), packaging, color, concentrations. Please note, some products are impossible to make, for example, maximum concentration of 0.5/0 paste is 15% by weight.
Application
Finishing and polishing of ferrous and non-ferrous metals, alloys, steels, hard alloys, ceramics, jewelry.
30000 grit = 0.5/0 μ - fine polishing
15000 grit = 1/0 μ - fine polishing
10000 grit = 2/1 μ - fine polishing
5000 grit = 3/2 μ - fine polishing
4000 grit = 5/3 μ - polishing
3000 grit = 7/5 μ - polishing
1700 grit = 10/7 μ - polishing
1500 grit = 14/10 μ - polishing
1100 grit = 20/14 μ - polishing
650 grit = 28/20 μ - polishing
550 grit = 40/28 μ - fine grinding
325 grit = 50/40 μ - fine grinding
Monocrystalline diamond powder.
Micron diamond powders (grain size below 40 micron) are monocrystalline by default. Yes. they may be obtained by milling of polycrystalline diamonds, but this hardy makes their crystal structure "poly", read more below.
Synthesis of polycrystalline diamonds: monocrystalline powders are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis), resulting, for example, in cutting inserts.
Synthesis of monocrystalline diamonds: graphite powder and catalyst are pressed in a capsule, which then is exposed to high temperature and high pressure (HTHP synthesis).
To receive really polycrystalline diamonds you need to use ultrafine micron powders (0.1/0 micron), obtained on super centrifuges in small amounts, because of high cost and comparatively low demand (e.g. for polishing of mirrors in space industry), so resulting crystals will be real agglomerates. But if you use powder 40 micron to make polycrystal and then mill it, you will receive powder containing monocrystals 40 micron and finer, but not polycrystalline powder.
Milling of polycrystalline diamonds for pastes does not make sense considering extra work and no benefits. Although defective diamond polycrystals are definitely milled. Fairy tales about "more cutting surfaces per particle" of diamond "micron polycrystal" were true about spiky diamond mono crystals synthesized on soviet presses long ago in a country far away. Presses, utilized now (American belt presses in South African E6 and Chinese cubic presses elsewhere) do not deploy synthesis profiles to make similar crystals. (Of course there are expensive exceptions :) )
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Legally we required to mark pastes according to Ukrainian standard, in Cyrillic characters: grain size in microns type (concentration, composition). Concentrations: Н- normal, П- high, В- extra high, e.g.:
3/2 ПОМГ - 3/2 high concentration, oil based.
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