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  5. iglidur® L250 - Material data

iglidur® L250 - Material data

Materials table

General features Unit iglidur® L250 test method
Density g/cm³ 1,50
Colour Beige
Max. humidity absorption at 23°C/50% R. H. % weight 0,7 DIN 53495
Max. water absorption % weight 3,9
Coefficient of surface friction, dynamic, against steel μ 0,08–0,19
PV values max. (dry) MPa x m/s 0,4

Mechanical properties
Bending E-module MPa 1.950 DIN 53457
Tensile strength at +20 °C MPa 67 DIN 53452
compressive strength MPa 47
Maximum recommended surface pressure (20° C) MPa 45
Shore D hardness 68 DIN 53505

Physical and thermal properties
Max. long term application temperature °C +90
Max. short term application temperature °C +180
Upper short-term ambient temperature1) °C +200
Lower application temperature °C -40
Heat conductivity W/m x K 0,24 ASTM C 177
Coefficient of thermal expansion (at 23° C) K-1 x 10-5 10 DIN 53482

Electrical properties
Specific forward resistance Ωcm > 1010 DIN IEC 93
Surface resistance Ω > 1011 DIN 53482
1) Without additional load; no gliding movement; relaxation not excluded.
'Table 01: Material Data

 
iglidur® L250 is a bearing material for high rotary speeds, fast gliding movements and low coefficients of friction. The iglidur® L250 material can feature these advantages particularly with low loads. Applications which feature these advantages are fans, small motors, fast-running sensors or the magnet technology.
Surface pressure dependent on the temperature Figure 02: Maximum recommended surface pressure dependent on the temperature (45 MPa to +20 °C)

X = Temperature [°C]
Y = Load [MPa]

Mechanical properties

Maximum recommended surface pressure represents a mechanical material parameter. Tribological conclusions cannot be drawn from it. With increasing temperatures, the compressive strength of iglidur® L250 plain bearings decreases. Fig. 02 clarifies this connection.
Deformation under load and temperatures Figure 03: Deformation under load and temperatures

X = Load [MPa]
Y = Deformation [%]
Fig. 03 shows the elastic deformation of iglidur® L250 during radial loading. The deformation amounts to less than 3% at the maximum recommended surface pressure of 45 MPa. A plastic deformation can be negligible up to this value. It is however also dependent on the period of exposure.
Load, surface pressure

Maximum surface speed

m/s Rotating Oscillating Linear
Constant 1 0,7 2
Short-term 1,5 1,1 3

Permitted surface speeds

iglidur® L250 has been developed especially for high surface speeds with low loads. Besides the physical limit, which is preset by the heating of the bearing, the coefficients of wear also act limitedly if rapidly high glide paths emerge at high peripheral speeds and the permitted wear limit is thus reached earlier. The maximum speeds can be gathered from Table 02.
Surface speed
p x v value and lubrication
Figure 15.3: Maximum recommended surface pressure dependent on the temperature

Temperatures

The iglidur® L250 bearings can be used in temperatures up to 170° C for the short-term. Note that a mechanical securing of the bearing is recommended from temperatures of 60° C. Higher temperatures can also cause the bearing to lose its press-fit seating and move in the bore.

Temperatures, coefficient of thermal expansion
Figure 2.4: Coefficients of friction dependent on the surface speed, p = 0.75 MPa

Friction and wear

In the best pairing (with V2A shafts), friction coefficients of 0.14 are already reached with low loads. Coefficients of friction under 0.1 was already measured at 10 MPa. (Fig. 04 and 05).

Coefficients of friction for iglidur® L250 against steel
(Ra = 1 µm, 50 HRC)

iglidur® L250 Dry Grease Oil Water
Coefficients of friction µ 0,08 - 0,19 0,09 0,04 0,04
Coefficients of friction
Wear resistance
Fig. 05: Coefficients of friction dependent on the load Figure 05: Coefficients of friction dependent on the load, v = 0,01 m/s

X = Load [MPa]
Y = Coefficient of friction μ
Fig. 06: Wear, rotating application with various Figure 06: Wear, rotating application with different shaft materials, p = 1 MPa, v = 0,3 m/s
 
X = Shaft material
Y = Wear [μm/km]
 
A = Aluminum, hard-anodized
B = machining steel
C = Cf53
D = Cf53, hard chrome-plated
E = St37
F = V2A
G = X90

Shaft materials

As seen in Figure 06, many shafts are recommendable for low loads and low rotations.
 
The good coefficients of friction are additionally retained over a wide range of recommendable surface finishes for shafts. For loads greater than 1 MPa, particular attention should be paid to the shaft material used.
Shaft materials
Fig. 07: Wear in rotating and oscillating applications with shaft material Fig. 07: Wear with oscillating and rotating applications with Cf53 shaft material dependent on the load
 
X = Load [MPa]
Y = Wear [μm/km]
 
A = Cf53, rotating
B = Cf53, oscillating
Medium Resistance
Alcohol + to 0
Hydrocarbons +
Fats, oils, without additives +
Fuels +
Diluted acids 0 to -
Strong acids -
Diluted bases +
Strong bases +
+ resistant      0 conditionally resistant      - non-resistant


Electrical properties

Specific forward resistance > 1010 Ωcm
Surface resistance > 1011 Ω

Chemical resistance

iglidur® L250 bearings are resistant to diluted alkalis and very weak acids as well as to solvents and all kinds of lubricants.
 

Radioactive rays

iglidur® L250 bearings are radiation resistant up to a radioactive intensity of 3 x 104 Gy. Higher radiation affects the material and may potentially lead to a notable lowering of value of an important mechanical property.

UV-resistant

iglidur® L250 plain bearings change colour under the influence of UV rays. However, their properties do not deteriorate.
 

Vacuum

In application in vacuum, the potentially existent humidity is degassed. For this reason only the dry iglidur® L250 bearings are suitable for vacuum.

Electrical properties

The bearings are electrically insulating.
Maximum moisture absorption
by +23 °C/50 % r. F. 0,7 Wt.-%
Max. water absorption 3,9 Wt.-%

Table 06: Moisture absorption
Effect of moisture absorption on plain bearings Diagram 10: Effect of moisture absorption
 
X = Moisture absorption [weight %]
Y = Reduction of inside diameter [%]

humidity absorption / moisture absorption

Please take into account the humidity absorption in applications in which very minor bearing clearances occur.

Important tolerances for iglidur® L250 bearings according to ISO 3547-1 after the press-fit.

Diameter
d1 [mm]		 Shaft
h9 [mm]		 iglidur® L250
E10 [mm]		 Housing H7
[mm]
Up to 3 0 - 0,025 +0,014 +0,054 0 +0,010
> 3 to 6 0 - 0,030 +0,020 +0,068 0 +0,012
> 6 to 10 0 - 0,036 +0,025 +0,083 0 +0,015
> 10 to 18 0 - 0,043 +0,032 +0,102 0 +0,018
> 18 to 30 0 - 0,052 +0,040 +0,124 0 +0,021
> 30 to 50 0 - 0,062 +0,050 +0,150 0 +0,025
> 50 to 80 0 - 0,074 +0,060 +0,180 0 +0,030
> 80 to 120 0 - 0,087 +0,072 +0,212 0 +0,035
> 120 to 180 0 - 0,100 +0,085 +0,245 0 +0,040

Table 07: Important tolerances iaw. ISO 3547-1 after press-fitting.

Installation tolerances

iglidur® L250 plain bearings are standard bearings for shafts with h-tolerance (recommended minimum h9). After the installation in a housing with nominal diameter, the inner diameter of the bearing automatically adjusts to the E10 tolerance. In certain dimensions the tolerance in dependence on the wall thickness deviates from this (See delivery program )
 

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