Full High temperature Light Weight Ceramic Ball Bearing

Model NO.: Self-Aligning Ball Bearing
Separated: Unseparated
Precision: P0, P6,P4,P2
Trademark: ZGXSY
Transport Package: Single Box Packing+Cartons+Pallets
Specification: 13-260mm
Origin: China
HS Code: 84823000
Model NO.: Self-Aligning Ball Bearing
Separated: Unseparated
Precision: P0, P6,P4,P2
Trademark: ZGXSY
Transport Package: Single Box Packing+Cartons+Pallets
Specification: 13-260mm
Origin: China
HS Code: 84823000
An antifriction ball bearing constructed entirely of ceramic material.
Inner/outer races and balls are made of either Silicon Nitride (Si3N4) or Zirconium Oxide (ZrO2).

CONFIGURATIONS
Retainers can be made of steel or composite materials such as PEEK or Vespel.
Full complement versions without retainers are available for your heavily radial loaded applications.

EXTREME HIGH TEMPERATURE CAPABILITY
When temperatures exceed 572 Deg. F. (300 Deg. C) standard  440C stainless steel and 52100 chrome steel materials begin to lose their mechanical properties.  Full ceramic bearings have the advantage of extreme high temperature capability up to 1800 Deg. F.

LIGHT WEIGHT
Full ceramic bearings are light weight. In applications implementing many bearing units or utilizing larger sizes this can help reduce the total weight of the overall product. Reducing weight can reduce effects such as vibration and stress caused by out of balance applications. Weight reduction in rotating assemblies can increase speed capability and efficiency.

NON-MAGNETIC
Full ceramic bearings are non-magnetic and will not cause interference in applications where there is strong magnetic field exposure such as electron beam processes.

EXTREME CORROSION RESISTANCE
Full ceramic bearings are highly corrosion resistant and will stand up to most common acids, they will not corrode in exposure to water or salt water.

ISOLATING & NON-CONDUCTIVE
Full ceramic bearings are electrically non-conductive and thermal insulating.
Ceramic ball bearings have quickly proven themselves far superior to their steel counterparts. Increased demands for more efficient and quicker production have uncovered many weaknesses in the use of steel bearings. Faster production speeds mean more loads and negative forces are being applied to the steel parts. As temperatures and friction increase with the higher production speeds the steel rolling elements and their surrounding rings will show small imperfections that can shorten the life span of the bearing. Lubrication for the bearings will also wear out quickly causing the parts to seize possibly causing more damage to the machine than just needing to replace the bearing. Certain applications for bearings are not conducive to using traditional steel. Corrosive elements such as water and salt will break down steel very quickly and where electricity or magnetic fields are created the steel will act as a conductor damaging the bearing over time. Ceramic ball bearings are pretty much immune to all of these factors making them the product of choice for all bearing applications. The ceramic ball bearings are made of either silicon nitride or zirconium oxide that is much stronger than steel, but at the same time up to 60% lighter. These bearings have a much smoother finish that allows them to run at much higher speeds and as temperatures increase with the higher speeds the ceramics will run cooler. Ceramic can withstand heat up to 1800 degrees Fahrenheit where steel will start to break down at around 572 degrees. The cooler running temperatures will prolong the life of their lubrication which will save money by not having to replace it as often or possibly eliminating the need for a lubrication system all together in certain applications. The perfectly smooth surface of the ceramic rolling elements will prevent the microscopic imperfections that cause failure in steel bearings. Ceramic ball bearings are also non conductive so they are perfect for use in applications where electricity or magnetic fields are created, and they are non corrosive so they can be submerged in water or salt and not break down.
Bearing No. Boundary dimensions Mass
mm kg
d D B
1200 10 30 9 0.033
1201 12 32 10 0.04
1202 15 35 11 0.049
1203 17 40 12 0.072
1204 20 47 14 0.116
1204K 20 47 14 0.114
1205 25 52 15 0.138
1205K 25 52 15 0.135
1206 30 62 16 0.217
1206K 30 62 16 0.213
1207 35 72 17 0.317
1207K 35 72 17 0.312
1208 40 80 18 0.414
1208K 40 80 18 0.407
1209 45 85 19 0.457
1209K 45 85 19 0.448
1210 50 90 20 0.515
1210K 50 90 20 0.504
1211 55 100 21 0.692
1211K 55 100 21 0.679
1212 60 110 22 0.879
1212K 60 110 22 0.864
1213 65 120 23 1.13
1213K 65 120 23 1.11
1214 70 125 24 1.24
1215 75 130 25 1.33
1215K 75 130 25 1.31
1216 80 140 26 1.65
1216K 80 140 26 1.62
1217 85 150 28 2.06
1217K 85 150 28 2.03
1218 90 160 30 2.51
1218K 90 160 30 2.47
1219 95 170 32 3.1
1219K 95 170 32 3.05
1220 100 180 34 3.7
1220K 100 180 34 3.64
1221 105 190 36 4.34
1222 110 200 38 5.15
1222K 110 200 38 5.07
An antifriction ball bearing constructed entirely of ceramic material.
Inner/outer races and balls are made of either Silicon Nitride (Si3N4) or Zirconium Oxide (ZrO2).

CONFIGURATIONS
Retainers can be made of steel or composite materials such as PEEK or Vespel.
Full complement versions without retainers are available for your heavily radial loaded applications.

EXTREME HIGH TEMPERATURE CAPABILITY
When temperatures exceed 572 Deg. F. (300 Deg. C) standard  440C stainless steel and 52100 chrome steel materials begin to lose their mechanical properties.  Full ceramic bearings have the advantage of extreme high temperature capability up to 1800 Deg. F.

LIGHT WEIGHT
Full ceramic bearings are light weight. In applications implementing many bearing units or utilizing larger sizes this can help reduce the total weight of the overall product. Reducing weight can reduce effects such as vibration and stress caused by out of balance applications. Weight reduction in rotating assemblies can increase speed capability and efficiency.

NON-MAGNETIC
Full ceramic bearings are non-magnetic and will not cause interference in applications where there is strong magnetic field exposure such as electron beam processes.

EXTREME CORROSION RESISTANCE
Full ceramic bearings are highly corrosion resistant and will stand up to most common acids, they will not corrode in exposure to water or salt water.

ISOLATING & NON-CONDUCTIVE
Full ceramic bearings are electrically non-conductive and thermal insulating.
Ceramic ball bearings have quickly proven themselves far superior to their steel counterparts. Increased demands for more efficient and quicker production have uncovered many weaknesses in the use of steel bearings. Faster production speeds mean more loads and negative forces are being applied to the steel parts. As temperatures and friction increase with the higher production speeds the steel rolling elements and their surrounding rings will show small imperfections that can shorten the life span of the bearing. Lubrication for the bearings will also wear out quickly causing the parts to seize possibly causing more damage to the machine than just needing to replace the bearing. Certain applications for bearings are not conducive to using traditional steel. Corrosive elements such as water and salt will break down steel very quickly and where electricity or magnetic fields are created the steel will act as a conductor damaging the bearing over time. Ceramic ball bearings are pretty much immune to all of these factors making them the product of choice for all bearing applications. The ceramic ball bearings are made of either silicon nitride or zirconium oxide that is much stronger than steel, but at the same time up to 60% lighter. These bearings have a much smoother finish that allows them to run at much higher speeds and as temperatures increase with the higher speeds the ceramics will run cooler. Ceramic can withstand heat up to 1800 degrees Fahrenheit where steel will start to break down at around 572 degrees. The cooler running temperatures will prolong the life of their lubrication which will save money by not having to replace it as often or possibly eliminating the need for a lubrication system all together in certain applications. The perfectly smooth surface of the ceramic rolling elements will prevent the microscopic imperfections that cause failure in steel bearings. Ceramic ball bearings are also non conductive so they are perfect for use in applications where electricity or magnetic fields are created, and they are non corrosive so they can be submerged in water or salt and not break down.
Bearing No. Boundary dimensions Mass
mm kg
d D B
1200 10 30 9 0.033
1201 12 32 10 0.04
1202 15 35 11 0.049
1203 17 40 12 0.072
1204 20 47 14 0.116
1204K 20 47 14 0.114
1205 25 52 15 0.138
1205K 25 52 15 0.135
1206 30 62 16 0.217
1206K 30 62 16 0.213
1207 35 72 17 0.317
1207K 35 72 17 0.312
1208 40 80 18 0.414
1208K 40 80 18 0.407
1209 45 85 19 0.457
1209K 45 85 19 0.448
1210 50 90 20 0.515
1210K 50 90 20 0.504
1211 55 100 21 0.692
1211K 55 100 21 0.679
1212 60 110 22 0.879
1212K 60 110 22 0.864
1213 65 120 23 1.13
1213K 65 120 23 1.11
1214 70 125 24 1.24
1215 75 130 25 1.33
1215K 75 130 25 1.31
1216 80 140 26 1.65
1216K 80 140 26 1.62
1217 85 150 28 2.06
1217K 85 150 28 2.03
1218 90 160 30 2.51
1218K 90 160 30 2.47
1219 95 170 32 3.1
1219K 95 170 32 3.05
1220 100 180 34 3.7
1220K 100 180 34 3.64
1221 105 190 36 4.34
1222 110 200 38 5.15
1222K 110 200 38 5.07