210HB Galvanized Slide Copper Alloy Oil Groove Bushing

Basic Information
Place of Origin: China
Brand Name: SEAMOUNT
Certification: ISO, CE
Model Number: OEM
Minimum Order Quantity: 1 piece
Price: USD 10-15/kg
Packaging Details: Standard export wooden case
Delivery Time: 5-30 work days
Payment Terms: T/T, Western Union
Supply Ability: 50000KG per month
Product Material: Bronze Alloy Processing Method: CNC Processing
Hardness: >210HB Certification: CE
Standard: ASTM/ JIS/ ASME/ AISI/ EN/ BS Customized: Available
Delivery Time: 30 Days Type: Plain Bushing
Application: Machinery Parts
High Light:

copper alloy oil groove bushing

,

galvanized oil groove bushing

,

210HB Oil Groove Bushing

Customized Galvanized Slide Bushing Copper Alloy Oil Groove Bushing Bearing

 

Product Description

 

The finished copper alloy bushing provides a simple and economical bearing application, featuring high bearing capacity, good corrosion resistance, and arbitrariness of dimension processing.At the same time, different brands of copper alloy can be provided according to different service conditions, and different forms can be processed according to projection requirements. It has higher dimensional accuracy than rolled copper bearings.

 

210HB Galvanized Slide Copper Alloy Oil Groove Bushing 0

 

Material bronze alloy:C93700, C93800,C93200,C90700, etc
Brass alloy: 3602, 2604, H59, H62, copper, phosphor bronze, etc.
Steel & Galvanized
Surface Treatment Anodizing, Polishing, Powder coating, Passivation, Sandblasting, Nickal plating, Zinc plating, Chrome plating, Heat treatment,Oxidation, Laser engraved logo.
Tensile Strength >750N/mm²
Yield Strength >340N/mm²
Working Tempreture Limit -40~200℃

 

Oil-free bushing lifespan calculation

 

The life of oilless bushings depends on the amount of wear. The calculation of wear amount is very different due to surface pressure, sliding speed, movement pattern, lubrication conditions, surface roughness of matching shaft and other conditions.From the viewpoint that the wear amount is proportional to the load and sliding distance, the following formula is usually used to calculate the wear amount. Please consider it as the standard for selection.

 

Estimate wear(mm)W=K*1×p×v×T

Wear ratio(k):mm/(N/mm2·m/s·Hr)

Design surface pressure(p):N/mm2

Sliding speed(v):m/s

Friction time(T):Hr-hr

 

Roughly Standard for Friction Ratio

 

 

Contact Details
admin

WhatsApp : +8617719955658