Place of Origin:
Shandong, China
Brand Name:
sennai
Model Number:
001
Hydraulic cylinder bushings are commonly found in various applications including construction equipment, agricultural machinery, mining equipment, and industrial machinery. They are designed to withstand high pressure, heavy loads, and frequent movement, making them an essential component in hydraulic systems.
Here are some key aspects related to hydraulic cylinder bushings:
Material: Hydraulic cylinder bushings are typically made from materials that offer good wear resistance, high load capacity, and low friction. Common materials used for hydraulic cylinder bushings include bronze, cast iron, or composite materials with self-lubricating properties.
Design considerations: When selecting a hydraulic cylinder bushing, important design factors to consider include the inner diameter (ID), outer diameter (OD), length, tolerances, type of lubrication (self-lubricating or requiring external lubrication), and compatibility with the cylinder's operating conditions.
Load capacity: Hydraulic cylinder bushings are designed to withstand the loads and pressures exerted within the hydraulic cylinder. Proper selection of the bushing material and size is crucial to ensure it can handle the specific load requirements of the cylinder.
Lubrication: Some hydraulic cylinder bushings are self-lubricating, meaning they have embedded lubricants or are made from materials that provide inherent lubrication properties. This reduces the need for additional lubrication and maintenance. However, some bushings may require external lubrication through grease fittings or oil ports.
Installation: Hydraulic cylinder bushings are typically press-fit or installed using other suitable methods into the cylinder's housing or mounting points. The precise fit and alignment of the bushing are crucial to ensure proper functioning and minimize wear.
Performance Index
|
|
Data
|
|
Hardness
|
HRC
|
58-62
|
|
Max Load
|
N/mm2
|
250
|
|
Max Linear Velocity
|
m/s
|
0.1
|
|
Max PV Value
|
N/mm2.m/s
|
1.5
|
|
WorkingTemperature Limit
|
℃
|
-100~ +350
|
|
Linear Expension Coefficient
|
10-5/℃
|
1.1
|
Performance Index
|
|
Data
|
|
Hardness
|
HV
|
≥650
|
|
Max Load
|
N/mm2
|
200
|
|
Max Linear Velocity
|
m/s
|
0.1
|
|
Max PV Value
|
N/mm2.m/s
|
1.5
|
|
WorkingTemperature Limit
|
℃
|
-100~ +350
|
|
Linear Expension Coefficient
|
10-5/℃
|
1.1
|
Performance Index
|
|
Data
|
|
Hardness
|
HV
|
≥650
|
|
Max Load
|
N/mm2
|
200
|
|
Max Linear Velocity
|
m/s
|
0.1
|
|
Max PV Value
|
N/mm2.m/s
|
1.5
|
|
WorkingTemperature Limit
|
℃
|
-100~ +350
|
|
Linear Expension Coefficient
|
10-5/℃
|
1.1
|
Material and bushing
characteristics |
|
value
|
Company
|
value
|
|
Maximum load
|
Mpa
|
100
|
psi
|
145,00
|
|
working temperature
|
℃
|
-40 to 300
|
°F
|
-40 to 572
|
|
Max Linear Velocity
|
m/s
|
0.5
|
fpm
|
100
|
|
Maximum PV Value
|
m/sxMPa
|
1.65
|
pis x fpm
|
48,000
|
|
Minimum hardness of sliding layer
|
HB
|
210
|
HB
|
210
|
|
Minimum hardness of dual parts
|
HRC
|
40
|
HRC
|
40
|
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