X The High-Tech Problem Solver Temperature resistant from -1 C to +25 C in continuous operation Universal resistance to chemicals High compressive strength Very low moisture absorption Excellent wear resistance through the entire temperature range 6.1
X The High-Tech Problem Solver is defined by its combination of high temperature resistance with compressive strength, along with high resistance to chemicals. is designed for higher speeds than other iglidur bearings. 3 styles > 25 dimensions Ø 2 75 Phone +49 +44 () - 22 16 3 4 - - 96 67 49-145 72 4 + 25º - 1º igus GmbH igus 51147 UK Ltd Cologne Price index Picture 6.1: High temperature resistant and maintenance free The High-Tech Problem Solver When to use plain bearings: For pressure loads up to 15 MPa For linear movements with stainless steel For linear movements, especially at high temperatures When universal resistance to chemicals is required Temperature resistant from -1 C to +25 C (short term to + 315 C) Very low moisture absorption High wear resistance over the entire temperature range When not to use plain bearings: For very low wear at high loads iglidur Q (chapter 18), Z (chapter 22) For underwater applications iglidur H (chapter 12), H37 (chapter 15) For edge pressure iglidur Z (chapter 22) Picture 6.2: Battery filling 6.2
Technical data X Material Table General Properties Unit Testing Method Density g/cm 3 1,44 Colour Black Max. moisture absorption at 23 C / 5% r.f. % weight,1 DIN 53495 Max. moisture absorption % weight,5 Coefficient of sliding friction, dynamic against steel µ,9 -,27 p x v value, max. (dry) MPa x m/s 1,32 Mechanical Properties Modulus of elasticity MPa 8.1 DIN 53457 Tensile strength at 2 C MPa 17 DIN 53452 Compressive strength MPa 1 Max. recoended surface pressure (2 C) MPa 15 Shore D hardness 85 DIN 5355 Physical and Thermal Properties Max. long term application temperature C 25 Max. short term application temperature C 315 Min. application temperature C -1 Thermal conductivity W/m x K,6 ASTM C 177 Coefficient of thermal expansion (to 23 C) K -1 x 1-5 5 DIN 53752 Picture 6.3: Flaps, valves with, high temperatures Electrical Properties Specific volume resistance Ωcm < 1 5 DIN IEC 93 Surface resistance Ω < 1 3 DIN 53482 Table 6.1: Material Data Picture 6.4: Catering equipment 1 1 1 Pressure [MPa] 1,1,1,1,1 1 1 Surface Speed [m/s] Graph. 6.1: Permissible p x v values for running dry against a steel shaft, at 2 C 6.3
X Technical data 8 7 6 has an excellent combination of high temperature resistance, high compressive strength, and excellent resistance to chemicals. Deformation in % 5 4 3 2 1 25 5 75 1 Pressure [MPa] 6 C 23 C Graph 6.2: Deformation under pressure and temperature m/s Rotating Oscillating Linear Continuous 1,5 1,1 5 Short term 3,5 2,5 1 Table 6.2: Maximum surface speeds Surface Pressure Graph 6.2 shows how plain bearings deform elastically under load. Graph 6.1 on the preceding page shows the maximum p x v values at room temperature. In this case, the compressive strength of even measures up to that of steel. Graph 6.3 shows the special compression resistance of at very high temperatures. Even at the highest long term application temperature of 25 C plain bearings still withstand a surface pressure of approximately 3 MPa. Graph 6.2 Surface Pressure, page 1.18 Application Temperature Permissible Surface Speeds Picture 6.5: Application on an inboard engine igus GmbH igus 51147 UK Ltd Cologne Internet www.igus.de www.igus.co.uk E-mail info@igus.de sales_uk@igus.co.uk Pressure [MPa] 16 14 12 1 8 6 4 2 Minimum - 1 C Max., long term + 25 C Max., short term + 315 C Table 6.3: Temperature limits for 2 5 8 12 15 2 Temperature in C Graph 6.3: Recoended maximum surface pressure of as a function of temperature is designed for higher speeds than other iglidur bearings. This is due to its high temperature resistance and excellent thermal conductivity. One benefit of this is seen in the maximum pv value of 1.32 MPa x m/s. However, in this case, only the smallest radial loads may act on the bearings. At the given speeds, friction can cause a temperature increase to maximum permissible levels. Surface Speed, page 1.2 p x v value, page 1.22 6.4
Technical data X Temperature In terms of temperature resistance iglidur X has also taken on a leading position. Having a permissible long term application, temperature of 25 C, will even withstand 315 C short term. As with all thermoplastics, the compression resistance of decreases with increasing temperature. However, the wear drops considerably when used within the observed temperature range of 23 C to 15 C. In certain cases, relaxation of the bearing can even occur at temperatures of more than 17 C. This leads, after re-cooling, to the bearing moving out of the housing. At temperatures over 17 C the axial security of the bearing in the housing needs to be tested. If necessary, secondary measures must be taken to mechanically secure the bearing. Please contact us if you have questions on bearing use. Graphs 6.3 and 6.4 Application Temperatures, page 1.23 Friction and Wear Similar to wear resistance, the coefficient of friction also changes with the load. The coefficient of friction increases with an increase in surface speed. On the other hand, an increased load has an inverse effect: the coefficient of friction decreases (see Graphs 6.5 and 6.6). This explains the excellent performance of plain bearings for high loads. Friction and wear, to a high degree, are also dependent on the shaft material. Shafts that are too smooth increase the coefficient of friction of the bearing. Ground surfaces with an average roughness Ra of.6 to.8 are ideal. Graphs 6.5 to 6.7 Coefficients of Friction and Surfaces, page 1.25 Wear Resistance, page 1.26 Dry Grease Oil Water C.o.f. [µ],9 -,27,9,4,4 Table 6.4: Coefficient of friction for iglidur X against steel (Ra = 1µm, 5 HRC) Wear [µm/km] 8 7 6 5 4 3 2 1 23 C 15 C Temperature in C Graph 6.4: Wear of, rotation with p =.75 MPa, v =.5 m/s, Cf53 hardended and ground steel shaft Coefficient of friction µ,4,3,2,1,5,1,15,2,25,3,35 Surface Speed [m/s] Graph 6.5: Coefficient of friction for as a function of the surface speed; p =.75 MPa, Cf53 hardended and ground steel shaft Coefficient of friction µ,35,3,25,2,15,1,5, 1 2 3 4 5 6 7 8 9 Pressure [MPa] Graph 6.6: Coefficient of friction for as a function of the pressure, v =.1 m/s 6.5
X Technical data igus GmbH igus 51147 UK Ltd Cologne Coefficient of friction µ Wear [µm/km] Wear [µm/km],4,3,2,1,4,7 1, 1,3 1,6 Shaft Roughness Ra [µm] Graph 6.7: Coefficients of friction as a function of the shaft surface (Cf53 hardended and ground steel shaft) 12, 1, 8, 6, 4, 2, H.A. Aluminium Automatic Screw Steel Cf53 Cf53 hardchromed HR Carbon Steel 34 SS High grade Steel Shaft materials Graph 6.8: Wear of with different shaft materials, p =.75 MPa, v =.5 m/s 18 16 14 12 1 8 6 4 2 1 2 3 4 5 Load [MPa] Cf53 Hard chromed 34 SS HR Carbon Steel Graph 6.9: Wear of with different shaft materials Shaft Materials Graphs 6.7 and 6.8 show results of testing different shaft materials with plain bearings made of. For low loads in rotating operation, the best wear values are found with 33 Stainless and HR Carbon Steel shafts. However, above a load of 2 MPa the bearing wear greatly increases with these two shaft materials. For the higher load range, hard chromed shafts or Cf53 shafts are advantageous. In oscillating operation at low loads, similar wear values for Cf53 and 33 stainless steel shafts occur. The wear is somewhat higher than during rotational movements. If the shaft material you plan to use is not contained in this list, please contact us. Graphs 6.8 to 6.1 Shaft Materials, pages 1.28 Installation Tolerances plain bearings are meant to be oversized before pressfit. The bearings are designed for pressfit into a housing machined to a H7 tolerance. After being assembled into a nominal size housing, the inner diameter adjusts to meet our specified tolerances. Please adhere to the catalogue specifications for housing bore and recoended shaft sizes. This will help to ensure optimal performance of iglidur plain bearings. Please contact an iglidur technical expert if you have any question. Testing Methods, page 1.32/1.33 Internet www.igus.de www.igus.co.uk E-mail info@igus.de sales_uk@igus.co.uk 6.6 Wear [µm/km] 25 2 15 1 5 Cf53 Steel 33 Stainless Steel Oscillating, p = 2 MPa Rotating, p = 2 MPa Graph 6.1: Wear for oscillating and rotating applications (p = 2 MPa) with different shaft materials Chemical Resistance plain bearings have almost universal chemical resistance. The material is only attacked by concentrated nitric acid and by sulphuric acid with acidity levels over 65%. The list at the end of this catalogue provides more comprehensive detailed information. Graph 6.11 Chemical Table, pages 7.1
Technical data X Radiation Resistance Plain bearings made from are resistant to radiation up to an intensity of 1x1 5 Gy. is the most radioactive resistant material of the iglidur product line. is extremely resistant to hard gaa radiation and withstands a radiation dose of 1 Mrad without detectable change in its properties. The material also withstands an alpha or beta radiation of 1, Mrad with practically no damage. Diameter Shaft h9 d1 []) [] F1 [] up to 3 -,25 +,6 +,46 > 3 to 6 -,3 +,1 +,58 > 6 to 1 -,36 +,13 +,71 > 1 to 18 -,43 +,16 +,86 > 18 to 3 -,52 +,2 +,14 > 3 to 5 -,62 +,25 +,125 > 5 to 8 -,74 +,3 +,15 Table 6.5: Essential tolerances for iglidur X plain bearings according to ISO 3547-1 after pressfit UV Resistance The excellent material properties of iglidur X do not change under UV radiation and other weathering effects. Vacuum In a vacuum environment plain bearings can be used virtually without restrictions. Outgassing takes place to a very limited extent. Electrical Properties Medium Alcohol + Hydrocarbons + Greases, oils without additives + Fuels + Diluted acids + Strong acids + Diluted alkalines + Strong alkalines + Resistance Table 6.6: Chemical resistance of iglidur X detailed list, page 7.1 + resistant conditionally resistant not resistant All data given at room temperature [2 C] Phone +49 +44 - () 22 16 3 4 - - 96 67 49-145 72 4 plain bearings are electrically conductive.,1,8,6 Application Example Reduction of the inner diameter [%],4,2,,,1,2,3,4,5 Moisture absorption [weight %] Graph 6.11: Effect of moisture absorption on plain bearings Picture 6.6: plain bearing in a valve Specific volume resistance < 1 5 Ωcm Surface resistance < 1 3 Ω Table 6.7: Electrical properties of 6.7
X Sleeve Bearing Type S igus GmbH igus 51147 UK Ltd Cologne Internet www.igus.de www.igus.co.uk E-mail info@igus.de sales_uk@igus.co.uk Dimensions according to ISO 3547-1 and special dimensions Part Number d1 d1 Tolerance* d2 b1 h13 XSM-23-3 2, +,6 +,46 3,5 3, XSM-34-3 3, +,6 +,46 4,5 3, XSM-34-6 3, +,6 +,46 4,5 6, XSM-45-4 4, +,1 +,58 5,5 4, XSM-57-35 5, +,1 +,58 7, 3,5 XSM-57-5 5, +,1 +,58 7, 5, XSM-57-8 5, +,1 +,58 7, 8, XSM-68-6 6, +,1 +,58 8, 6, XSM-68-8 6, +,1 +,58 8, 8, XSM-68-1 6, +,1 +,58 8, 1, XSM-68-13 6, +,1 +,58 8, 13,8 XSM-79-12 7, +,13 +,71 9, 12, XSM-81-6 8, +,13 +,71 1, 6, XSM-81-8 8, +,13 +,71 1, 8, XSM-81-1 8, +,13 +,71 1, 1, XSM-81-12 8, +,13 +,71 1, 12, XSM-81-15 8, +,13 +,71 1, 15, XSM-112-6 1, +,13 +,71 12, 6, XSM-112-8 1, +,13 +,71 12, 8, XSM-112-1 1, +,13 +,71 12, 1, XSM-112-2 1, +,13 +,71 12, 2, XSM-1214-35 12, +,16 +,86 14, 3,5 XSM-1214-6 12, +,16 +,86 14, 6, XSM-1214-8 12, +,16 +,86 14, 8, XSM-1214-1 12, +,16 +,86 14, 1, XSM-1214-12 12, +,16 +,86 14, 12, XSM-1214-15 12, +,16 +,86 14, 15, XSM-1214-2 12, +,16 +,86 14, 2, XSM-1416-12 14, +,16 +,86 16, 12, XSM-1416-15 14, +,16 +,86 16, 15, XSM-1416-2 14, +,16 +,86 16, 2, XSM-1517-1 15, +,16 +,86 17, 1, XSM-1517-15 15, +,16 +,86 17, 15, XSM-1517-2 15, +,16 +,86 17, 2, XSM-1618-1 16, +,16 +,86 18, 1, XSM-1618-12 16, +,16 +,86 18, 12, *after pressfit. Testing methods page 1.32/1.33 Data in Structure part no. X S M-23-3 Chamfer in relation to the d1 d1 []: Ø 1 6 Ø 6 12 Ø 12 3 Ø > 3 f []:,3,5,8 1,2 b1 d2 d1 Metric Type Material Part Number d1 d1 Tolerance* d2 b1 h13 XSM-1618-15 16, +,16 +,86 18, 15, XSM-1618-2 16, +,16 +,86 18, 2, XSM-1618-35 16, +,16 +,86 18, 35, XSM-1719-2 17, +,16 +,86 19, 2, XSM-182-15 18, +,16 +,86 2, 15, XSM-182-2 18, +,16 +,86 2, 2, XSM-222-14 2, +,2 +,14 22, 14, XSM-222-145 2, +,2 +,14 22, 14,5 XSM-222-18 2, +,2 +,14 22, 18, XSM-222-2 2, +,2 +,14 22, 2, XSM-223-7 2, +,2 +,14 23, 7, XSM-223-1 2, +,2 +,14 23, 1, XSM-223-15 2, +,2 +,14 23, 15, XSM-223-2 2, +,2 +,14 23, 2, XSM-223-25 2, +,2 +,14 23, 25, XSM-223-3 2, +,2 +,14 23, 3, XSM-2225-15 22, +,2 +,14 25, 15, XSM-2225-2 22, +,2 +,14 25, 2, XSM-2426-2 24, +,2 +,14 26, 2, XSM-2427-2 24, +,2 +,14 27, 2, XSM-2528-77 25, +,2 +,14 28, 7,7 XSM-2528-9 25, +,2 +,14 28, 9, XSM-2528-12 25, +,2 +,14 28, 12, XSM-2528-13 25, +,2 +,14 28, 13, XSM-2528-15 25, +,2 +,14 28, 15, XSM-2528-2 25, +,2 +,14 28, 2, XSM-2528-3 25, +,2 +,14 28, 3, XSM-273-5 27, +,2 +,14 3, 5,7 XSM-2832-2 28, +,2 +,14 32, 2, XSM-2832-3 28, +,2 +,14 32, 3, XSM-334-2 3, +,2 +,14 34, 2, XSM-334-25 3, +,2 +,14 34, 25, XSM-334-3 3, +,2 +,14 34, 3, XSM-334-4 3, +,2 +,14 34, 4, XSM-3236-25 32, +,25 +,125 36, 25, XSM-3236-3 32, +,25 +,125 36, 3, 6.8
Sleeve Bearing X Dimensions according to ISO 3547-1 and special dimensions Part Number d1 d1 Tolerance* d2 b1 h13 XSM-3539-2 35, +,25 +,125 39, 2, XSM-3539-3 35, +,25 +,125 39, 3, XSM-3539-4 35, +,25 +,125 39, 4, XSM-3539-5 35, +,25 +,125 39, 5, XSM-444-3 4, +,25 +,125 44, 3, XSM-444-4 4, +,25 +,125 44, 4, XSM-444-5 4, +,25 +,125 44, 5, XSM-455-5 45, +,25 +,125 5, 5, XSM-555-3 5, +,25 +,125 55, 3, XSM-555-4 5, +,25 +,125 55, 4, XSM-555-6 5, +,25 +,125 55, 6, XSM-556-5 55, +,3 +,15 6, 5, XSM-665-45 6, +,3 +,15 65, 45, XSM-665-6 6, +,3 +,15 65, 6, XSM-657-5 65, +,3 +,15 7, 5, XSM-775-7 7, +,3 +,15 75, 7, Data in Structure part no. X S M-3539-2 Chamfer in relation to the d1 d1 []: Ø 1 6 Ø 6 12 Ø 12 3 Ø > 3 f []:,3,5,8 1,2 b1 d2 d1 Metric Type Material Type S *after pressfit. Testing methods page 1.32/1.33 The extreme resistance to chemicals was decisive for the application of bearings in flange ball valves. 6.9
X Type F igus GmbH igus 51147 UK Ltd Cologne Internet www.igus.de www.igus.co.uk E-mail info@igus.de sales_uk@igus.co.uk 6.1 Dimensions according to ISO 3547-1 and special dimensions Flange Bearing Data in X F M-34-5 r = max.,5 Chamfer in relation to the d1 d1 []: Ø 1 6 Ø 6 12 Ø 12 3 Ø > 3 f []:,3,5,8 1,2 Part Number d1 d1 Tolerance* d2 d3 b1 b2 d13 h13 -,14 Structure part no. XFM-246-3 2, +,6 +,46 4, 6, 3, 1, XFM-34-5 3, +,6 +,46 4,5 7,5 5,,75 XFM-45-4 4, +,1 +,58 5,5 9,5 4,,75 XFM-45-6 4, +,1 +,58 5,5 9,5 6,,75 XFM-458-6 4, +,1 +,58 5,5 8, 6,,75 XFM-57-5 5, +,1 +,58 7, 11, 5, 1, XFM-68-8 6, +,1 +,58 8, 12, 8, 1, XFM-68-1 6, +,1 +,58 8, 12, 1, 1, XFM-6812-2 6, +,6 +,46 8, 12, 2, 1, XFM-81-5 8, +,13 +,71 1, 15, 5,5 1, XFM-81-75 8, +,13 +,71 1, 15, 7,5 1, XFM-81-8 8, +,13 +,71 1, 15, 8, 1, XFM-81-9 8, +,13 +,71 1, 15, 9, 1, XFM-8112-4 8, +,13 +,71 1, 12, 4, 1, XFM-8114-31 8, +,13 +,71 1, 14, 31,5 1, XFM-112-6 1, +,13 +,71 12, 18, 6, 1, XFM-112-8 1, +,13 +,71 12, 15, 8, 1, XFM-112-9 1, +,13 +,71 12, 18, 9, 1, XFM-112-15 1, +,13 +,71 12, 18, 15, 1, XFM-112-18 1, +,13 +,71 12, 18, 18, 1, XFM-112-22 1, +,13 +,71 12, 18, 22, 1, XFM-1214-55 12, +,16 +,86 14, 2, 5,5 1, XFM-121418-59 12, +,16 +,86 14, 18, 5,9 1, XFM-1214-9 12, +,16 +,86 14, 2, 9, 1, XFM-1214-12 12, +,16 +,86 14, 2, 12, 1, XFM-1214-15 12, +,16 +,86 14, 2, 15, 1, XFM-121418-39 12, +,16 +,86 14, 18, 3,9 1, XFM-1416-1 14, +,16 +,86 16, 22, 1, 1, XFM-1416-12 14, +,16 +,86 16, 22, 12, 1, XFM-1416-17 14, +,16 +,86 16, 22, 17, 1, XFM-1517-6 15, +,15 +,86 17, 23, 6, 1, XFM-1517-12 15, +,16 +,86 17, 23, 12, 1, XFM-1517-17 15, +,16 +,86 17, 23, 17, 1, XFM-1618-12 16, +,16 +,86 18, 24, 12, 1, XFM-1618-17 16, +,16 +,86 18, 24, 17, 1, XFM-182-12 18, +,16 +,86 2, 26, 12, 1, XFM-182-17 18, +,16 +,86 2, 26, 17, 1, XFM-223-75 2, +,2 +,14 23, 3, 7,5 1,5 XFM-223-11 2, +,2 +,14 23, 3, 11, 1,5 *after pressfit. Testing methods page 1.32/1.33 b1 d2 d1 Metric Type Material
Flange Bearing X Dimensions according to ISO 3547-1 and special dimensions Data in XFM-223-16 2, +,2 +,14 23, 3, 16,5 1,5 XFM-223-21 2, +,2 +,14 23, 3, 21,5 1,5 XFM-2528-13 25, +,2 +,14 28, 35, 13,5 1,5 XFM-2528-21 25, +,2 +,14 28, 35, 21, 1,5 XFM-252833-8 25, +,2 +,14 28, 33, 8, 1, XFM-273-2 27, +,2 +,14 3, 38, 2, 1,5 XFM-334-16 3, +,2 +,14 34, 42, 16, 2, XFM-334-26 3, +,2 +,14 34, 42, 26, 2, XFM-334-4 3, +,2 +,14 34, 42, 4, 2, XFM-3236-15 32, +,25 +,125 36, 45, 15, 2, XFM-3236-26 32, +,25 +,125 36, 45, 26, 2, XFM-3539-26 35, +,25 +,125 39, 47, 26, 2, XFM-444-3 4, +,25 +,125 44, 52, 3, 2, XFM-444-4 4, +,25 +,125 44, 52, 4, 2, XFM-455-5 45, +,25 +,125 5, 58, 5, 2, XFM-555-4 5, +,25 +,125 55, 63, 4, 2, XFM-665-4 6, +,3 +,15 65, 73, 4, 2, XFM-775-4 7, +,3 +,15 75, 83, 4, 2, XFM-758-5 75, +,3 +,15 8, 88, 5, 2, Structure part no. X F M-223-16 r = max.,5 Chamfer in relation to the d1 d1 []: Ø 1 6 Ø 6 12 Ø 12 3 Ø > 3 f []:,3,5,8 1,2 Part Number d1 d1 Tolerance* d2 d3 b1 b2 d13 h13 -,14 b1 d2 d1 Metric Type Material Type F Fax +44 +49 () - 22 16 3 4 - - 96 67 49-334 72 45 *after pressfit. Testing methods page 1.32/1.33 Order example Type S Type F Type T Our price breaks are defined by the order quantity. 1 9 1 24 25 49 5 99 1 199 2 499 5 999 1 2499 25 4999 For the current prices please visit the igus -Homepage www.igus.co.uk www.igus.de/en No minimum order quantities, no surcharges. 6.11
X Thrust Washer inch Type T Data in inches Structure part no. X T M-62-15 s d2 d1 Inch Type Material XTM-62-15 6, 2, 1,5 13, 1,5 1, 2, XTM-818-15 8, 18, 1,5 13, 1,5 1, 18, XTM-118-1 1, 18, 1, ** **,7 18, XTM-1224-15 12, 24, 1,5 18, 1,5 1, 24, XTM-1426-15 14, 26, 1,5 2, 2, 1, 26, XTM-1524-15 15, 24, 1,5 19,5 1,5 1, 24, XTM-163-15 16, 3, 1,5 22, 2, 1, 3, XTM-1832-15 18, 32, 1,5 25, 2, 1, 32, XTM-236-15 2, 36, 1,5 28, 3, 1, 36, XTM-2238-15 22, 38, 1,5 3, 3, 1, 38, XTM-2442-15 24, 42, 1,5 33, 3, 1, 42, XTM-2644-15 26, 44, 1,5 35, 3, 1, 44, XTM-3254-15 32, 54, 1,5 38, 4, 1, 54, XTM-3862-15 38, 62, 1,5 5, 4, 1, 62, XTM-4266-15 42, 66, 1,5 54, 4, 1, 66, XTM-4874-2 48, 74, 2, 61, 4, 1,5 74, XTM-5278-2 52, 78, 2, 65, 4, 1,5 78, XTM-629-2 62, 9, 2, 76, 4, 1,5 9, Internet www.igus.de www.igus.co.uk E-mail info@igus.de sales_uk@igus.co.uk igus GmbH igus 51147 UK Ltd Cologne Dimensions according to ISO 3547-1 and special dimensions Part Number d1 d2 s d4 d5 h d6 +,25 -,25 -,5 -,12 +,375 +,2 +,12 +,12 +,125 -,2 ** Design without fixing bore 6.12