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TA2

TA2
TA2_image_3d_v1
TA2_image_3d_v2

Description

The TA2 profile is a shaft seal composed of a single external metal cage with a metal reinforcement, a primary sealing lip with integrated spring and an additional anti-pollution sealing lip.

Advantages

Excellent radial rigidity, particularly for large diameters
Very good stability when assembled, preventing the bounce-back effect
Sealing for low and high viscosity fluids
Modern primary sealing lip with low radial forces
Protection against undesirable air contaminants

Technical data

Applications

Shaft sealing
Motors
Pumps
Transmissions

Materials

Rubber

ACM 70 - 75 Shore A
EPDM 70 - 75 Shore A
FKM 70 - 75 Shore A
HNBR 70 - 75 Shore A
NBR 70 - 75 Shore A

Metal cage

Steel - AISI 1010
Stainless steel - AISI 304
Stainless steel - AISI 316

Spring

Steel - AISI 1070 - 1090
Stainless steel - AISI 316

Dimensions
Materials
Conditions
for use
Seal design
Shaft design
Housing design

Dimensions

Installation drawingLogement pour bague d'étanchéité - Housing Groove for shaft seal

Materials

Metal cage - Spring

The table below shows the materials that we can offer for metal cages and springs.

Application Material Standard Characteristics
Metal cage Non-alloy standard steel AISI 1010
(DIN 1624)
Cold rolled steel
Metal cage Nickel chrome steel AISI 304
(DIN 1.4301 - V2A)
Standard stainless steel
Metal cage and spring Chrome-nickel-molybdenum steel AISI 316
(DIN 1.4401 - V4A)
Stainless steel highly resistant to corrosion
Spring Steel for springs AISI 1070 - 1090
DIN 17223
Cold drawn carbon steel wire
Spring Nickel chrome steel AISI 302
(DIN 1.4300)
Stainless steel for springs with a high carbon content

Rubbers

ACM (Polyacrylate)

Polymers containing ethyl acrylate (or butyl acrylate) have a small amount of monomer, which is necessary for cross-linking; ACM is a material with better heat resistance than NBR. It is often used for automatic gearboxes.

Chemical resistance Mineral oils (motor oils, gear box oils, ATF oils)
Atmospheric and ozone agents
Compatibility issue Glycol-based brake fluids (Dot 3 & 4)
Aromatic and chlorinated hydrocarbons
Water and steam
Acids, alkalis and amines
Temperature range -25°C to + 150°C (short-term peak at +160°C)
-35°C / +150°C with particular ACMs
AEM (ethylene acrylate rubber)

As a methyl acrylate and ethylene copolymer, AEM is considered to be more resistant to heat than ACM. Its characteristics make it an intermediary between ACM and FKM.

Chemical resistance Cooling fluids
Aggressive mineral oils
Atmospheric agents
Water
Compatibility issue Aromatic solvents
Strong acids
Brake fluids
Gearbox oils
ATF oils
Temperature range - 40°C to + 150°C
CR (Polychloroprene)

This CR-based rubber is used in the refrigeration industry and for ventilation systems. This chloroprene was the first synthetic rubber to be developed and marketed.

Chemical resistance Paraffinic mineral oils
Silicone oils and greases
Water and water-based solvents for use at low temperatures
Refrigerant fluids
Ammoniac
Carbon dioxide
Atmospheric and ozone agents
Limited chemical resistance Naphthenic mineral oils
Aliphatic hydrocarbons (propane, butane, petroleum)
Glycol-based brake fluids
Compatibility issue Aromatic hydrocarbons (benzene)
Chlorinated hydrocarbons (trichlorethylene)
Polar solvents (ketone, acetone, acetic acid, ethylene-ester)
Temperature range -40°C / +100°C (short-term peak at +120°C)
EPDM (Ethylene Propylene Diene Monomer rubber)

As an Ethylene Propylene Diene Monomer copolymer, EPDM is commonly used for hot water taps, cooling systems, brake systems, dishwashers and washing machines.

Chemical resistance Hot water and steam up to +150°C
Glycol-based brake fluids (Dot 3 & 4) and silicone-based brake fluids (Dot 5)
Organic and inorganic acids
Cleaning agents, sodium and potassium alkalis
Hydraulic fluids (HFD-R)
Silicone oils and greases
Polar solvents (alcohols, ketones and esters)
Atmospheric and ozone agents
Compatibility issue Mineral oils and greases
Hydrocarbons
Low impermeability to gas
Temperature range -45°C / +150°C (short-term peak at +175°C)
FFKM (perfluorinated rubber)

FFKM has the best characteristics for resistance to high temperatures, with an excellent chemical inertia. This FKM-based rubber is very often used for high-temperature hydraulic and pneumatic systems, industrial valves, injection/fuel systems, motor seals and high-vacuum systems.

Chemical resistance Aliphatic and aromatic hydrocarbons
Polar solvents (ketones, esters and ethers)
Organic and inorganic acids
Water and steam
High-vacuum system
Compatibility issue Coolants (R11, R12, R13, R113, R114, etc.)
PFPE
Temperature range -15°C/+320°C
FKM (fluorinated rubber)

Depending on their structure and fluorine content, the chemical resistance and resistance to the cold in fluororubbers can vary. This FKM-based rubber is very often used for high-temperature hydraulics and pneumatics, for industrial valves, injection/fuel systems, motor seals and high-vacuum systems.

Chemical resistance Mineral oils and greases, ASTM n°1, IRM 902 and IRM 903 oils.
Fire-resistant liquids (HFD)
Silicone oils and greases
Mineral and vegetable oils and greases
Aliphatic hydrocarbons (propane, butane, petroleum)
Aromatic hydrocarbons (benzene, toluene)
Chlorinated hydrocarbons (trichlorethylene)
Fuel (including high alcohol content)
Atmospheric and ozone agents
Compatibility issue Glycol-based brake fluids
Ammonia gas
Organic acids with a low molecular weight (formic and acetic acids)
Temperature range -20°C / +200°C (short-term peak at +230°C)
-40°C / +200°C with particular FKMs
FVMQ (fluorosilicone rubber)

The FVMQ has mechanical and physical properties that are very similar to those of the VMQ. However, the FVMQ offers better resistance to fuels and mineral oils. However, resistance to hot air is not as good as that of the VMQ.

Chemical resistance Aromatic mineral oils (IRM 903 oil)
Fuels
Aromatic hydrocarbons with low molecular weights
(benzene, toluene)
Temperature range -70°C/+175°C
HNBR (Hydrogenated Nitrile Butadiene Rubber)

This HNBR-based rubber is obtained through selective hydrogenation of the NBR's butadiene groups. It is commonly used for power-assisted steering and for air conditioning.

Chemical resistance Aliphatic hydrocarbons
Mineral and vegetable oils and greases
Fire-resistant fluids (HFA, HFB and HFC)
Diluted acids, saline solutions and bases for operation at an average temperature
Water and steam up to +150°C
Atmospheric and ozone agents
Compatibility issue Chlorinated hydrocarbons
Polar solvents (ketones, esters and ethers)
Strong acids
Temperature range -30°C / +150°C (short-term peak at +160°C)
-40°C / +150°C with particular HNBRs
NBR (Nitrile Butadiene Rubber)

Nitrile rubber (NBR) is the general term for acrylonitrile-butadiene copolymer. The ACN content can vary between 18% and 50%. While the acrylonitrile content is important, the resistance to oil and fuel is more so. Conversely, the elasticity and compression set are not as good. The NBR has good mechanical properties and good wear resistance. However, its resistance to atmospheric agents and the ozone is relatively low.

Chemical resistance Aliphatic hydrocarbons (propane, butane, petroleum, diesel fuel)
Mineral oils and greases
Fire-resistant fluids (HFA, HFB and HFC)
Diluted acids, low-temperature alkaline and saline solutions
Water (up to +100°C max)
Compatibility issue Fuels with high aromatic content
Aromatic hydrocarbons (benzene)
Chlorinated hydrocarbons (trichlorethylene)
Polar solvents (ketone, acetone, acetic acid, ethylene-ester)
Strong acids
Glycol-based brake fluids
Atmospheric and ozone agents
Temperature range -30°C / +100°C (short-term peak at +120°C)
-40°C / +100°C with particular NBRs
VMQ (silicone rubber: methyl vinyl polysiloxane)

This FVMQ-based rubber is very often used in fuel systems.

Chemical resistance Animal and vegetable oils and greases
Water for operation at an average temperature
Diluted saline solutions
Atmospheric and ozone agents
Compatibility issue Superheated steam up to +120°C
Chlorinated hydrocarbons with a low molecular weight (trichlorethylene)
Aromatic hydrocarbons (benzene, toluene)
Temperature range -60°C / +200°C (short-term peak at +230°C)

The table below gives an overview of the physical, chemical and mechanical characteristics for each of the materials.

Characteristics/Materials ACM AEM CR EPDM FFKM FKM FVMQ HNBR NBR VMQ
Abrasion resistant 2 3 2 2 4 2 4 2 2 4
Resistance to acids 4 3 2 2 1 1 3 1 3 3
Chemical resistance 4 2 2 1 1 1 1 2 2 2
Resistance to cold 4 2 2 2 3 4 2 2 2 2
Dynamic properties 3 3 3 2 3 2 4 1 2 4
Electrical properties 3 3 3 2 1 4 1 3 3 1
Flame resistant 4 4 2 4 1 1 2 4 4 3
Heat resistant 1 1 2 2 1 1 1 1 2 1
Sealing water 1 1 2 2 2 2 4 2 2 4
Oil resistant 1 3 2 4 1 1 2 1 1 2
Ozone resistant 1 1 2 1 1 1 1 2 4 1
Tearing resistant 2 3 3 1 4 3 4 2 2 4
Traction resistant 3 2 2 1 2 1 3 1 2 4
Water/vapour resistant 4 4 3 1 2 3 3 1 2 3
Resistance to atmospheric agents 1 1 1 1 1 1 1 2 3 1

1. Excellent properties 2. Good properties 3. Average properties 4. Poor properties

Chemical compatibility

A "Chemical compatibility guide" catalogue can be downloaded from the Documentation section. You can also use our online "Chemical compatibility" tool free of charge.

These two tools give you the option of measuring the behaviour of our materials that come into contact with the majority of existing fluids. The data displayed is the result of rigorous testing of the ambient temperature and in consultation with previous publications. Test results are not fully representative due to the specific features of your application. The tests performed actually do not consider additives and impurities that may exist under the actual conditions of use, nor the potential elevation of temperatures. Other parameters can also alter the behaviour of our materials, such as the hardness, persistence, abrasion, etc. We therefore recommend performing your own tests to verify the compatibility of our materials according to your specific application. Our technical team can provide you with any additional information.

Conditions for use

Speed

The table below indicates the relationships between the linear speed, the rotation speed and the recommended material.

Maximum speed for standard shaft seals with spring

The shaft seals with an additional protective lip are limited to a speed of 8 m/s.

Linear speed calculation:

s (m/s) = [Ø shaft (mm) x speed (rpm) x π] / 60,000

Loss of power

Power loss is due to a set of parameters, such as the design of the seal, choice of material, strength of the spring, speed, temperature, design of the rotating shaft, media and lubrication quality. In general, the table below provides information on power loss in Watts for a SC - SB-type shaft seal (without the anti-pollution sealing lip).

Maximum pressure for standard shaft seals

Pressure

The standard shaft seals are generally used in unpressurised environments, or for pressures between 0.02 and 0.05 MPa maximum.

Higher pressures are acceptable, following testing, for standard NBR or FKM shaft seals used on a shaft diameter less than 30 mm. Refer to the graph below:

Maximum pressure for standard shaft seals

For higher pressures, we recommend using high-pressure SCHP - TCHP shaft seals which, because of their specific design (shorter sealing lip, thicker rubber membrane, metal cage closer to the shaft), can support pressures of up to 1.0 MPa with speeds reduced to 0.3 m/s.

Temperature

The table below indicates the temperature limits, depending on the materials and fluids used.

Media Maximum temperature, depending on the materials
ACM AEM EPDM FKM HNBR NBR VMQ
Mineral oils Oils for motors +130°C +130°C - +170°C +130°C +100°C +150°C
Oils for gearboxes +120°C +130°C - +150°C +110°C +80°C +130°C
Oils for hypoid gears +120°C +130°C - +150°C +110°C +80°C -
ATF oils +120°C +130°C - +170°C +130°C +100°C -
Hydraulic oils +120°C +130°C +150°C +130°C +90°C -
Greases - +130°C - - +100°C +90°C -
Fire-resistant
fluids
HFA group - Emulsion with more than 80% water - - - - +70°C +70°C +60°C
HFB group - Opposite solution (water in oil) - - - - +70°C +70°C +60°C
HFC group - Polymer aqueous solution - - +60°C - +70°C +70°C -
HFD group - Water-free synthetic fluids - - - +150°C - - -
Other fluids EL + L heating oil - - - - +100°C +90°C -
Air +150°C +150°C +150°C +200°C +130°C +90°C +200°C
Water - - +150°C +100°C +100°C +90°C -
Water for washing - - +130°C +100°C +100°C +100°C -
Temperature range Min. -25°C -40°C -45°C -20°C -30°C -30°C -60°C
Max. +150°C +150°C +150°C +200°C +150°C +100°C +200°C

The sealing lip of the shaft seal endures a higher temperature due to shaft rotation, and the significant pressure and friction on the mechanical parts. Good lubrication is therefore necessary to allow for a better release of heat and thus limits the temperature rise in the parts subjected to friction.

By definition, the temperature at the edge of the seal is raised when the rotation speed (and thus the linear speed) as well as the shaft diameter increases. The graph below gives an overview of the increase in temperature (in °C) at the point of contact on the sealing lip.

Under sealing lip for rotary seals 2

Under sealing lip for rotary seals 1

Fluids

Mineral oils

In general, this type of oil has few additives and is therefore perfectly suitable for all of the rubbers used for the rotary shaft seals. The following oils are suitable for rotating applications:

  • motor oils
  • gearbox oils
  • hypoid oils
  • ATF oils for automatic gearboxes
  • transmission oils
synthetic oils

This type of oil is used to improve different characteristics such as the resistance to ageing, resistance to high temperatures, viscosity, etc. and has a good compatibility with the majority of rubbers used for the shaft seals. Tests may need to be performed beforehand to measure the degree of compatibility of this type of oil with the materials used. Among the synthetic oils are:

  • brake fluids
  • fluids for automatic gearboxes
  • fluids for suspensions
  • fluids for steering systems
  • fluids for hydraulic transmissions
Hypoid oils

This type of oil contains special components such as EP additives. These enable lubrication and thus limit any seizing at the bearings, for example. When affected by heat, these additives have the tendency to lead to deposits on the sealing lip. That is why we recommend using shaft seals with a sealing lip comprising return pumping leads in order to limit the increase in temperature and above all, to reduce these potential carbon deposits.

Greases

Greases are generally applied to bearings etc. and require specific adaptation to provide favourable operating conditions for the shaft seal. To prevent the lip of the seal from sustaining more significant pressures than planned, we recommend positioning the lip seal on one side of the bearing in such a way so that the lip is not prematurely destroyed. We also recommend reducing the rotation speed by 50% when lubricated, to ensure that less heat escapes during friction.

Aggressive fluids

It is critical to choose the correct material to better resist different aggressive fluids (acids, solvents, chemical products, etc.). For applications in a rotating environment, we recommend using materials such as FKM rather than NBR. For operations that are dry or use very little lubrication, and where the rubbers do not resist certain aggressive fluids, we advise you to use our PTFE shaft seals.

Seal design

Tolerance for the outside diameter of the seal (ØD)

The table below indicates the pre-tightening for shaft seals on the housing diameter according to standard ISO 6194-1.

Bore diameter
ØD1 (mm)
Tolerances on the outside diameter ØD of the ring Roundness tolerance
Apparent metal cage Rubber coating Coating with grooves Apparent metal cage Rubber coating
ØD1 ≤ 50.0 +0.10 / +0.20 +0.15 / +0.30 +0.20 / +0.40 0.18 0.25
50.0 < ØD1 ≤ 80.0 +0.13 / +0.23 +0.20 / +0.35 +0.25 / +0.45 0.25 0.35
80.0 < ØD1 ≤ 120.0 +0.15 / +0.25 +0.20 / +0.35 +0.25 / +0.45 0.30 0.50
120.0 < ØD1 ≤ 180.0 +0.18 / +0.28 +0.25 / +0.45 +0.30 / +0.55 0.40 0.65
180.0 < ØD1 ≤ 300.0 +0.20 / +0.30 +0.25 / +0.45 +0.30 / +0.55 0.25% of ØD 0.80
300.0 < ØD1 ≤ 500.0 +0.23 / +0.35 +0.30 / +0.55 +0.35 / +0.65 0.25% of ØD 1.00
500.0 < ØD1 ≤ 630.0 +0.23 / +0.35 +0.35 / +0.65 +0.40 / +0.75 - -
630.0 < ØD1 ≤ 800.0 +0.28 / +0.43 +0.40 / +0.75 +0.45 / +0.85 - -

Tolerance for the inside diameter of the seal (Ød)

Free and without constraint, the inside diameter of the sealing lip is always smaller than the diameter of the shaft. The pre-tightening or interference denotes the difference between these two values. Depending on the shaft diameter, the diameter of the sealing lip is generally considered to be less, between 0.8 and 3.5 mm.

Pumping leads

The sealing lip operates with low lubrication and significant heating at the point of contact with the shaft during higher stresses with elevated temperatures and speeds, and with the seal close to the bearing exercising a considerable pumping effect.

To maintain the lubrication, we recommend integrating diagonal pumping leads on the primary sealing lip, on the air side oriented in the direction of the shaft rotation, which reinforces the pumping effect of the rubber's micro-striations. Below are the types of return pumping leads that can be made:

Pumping leads for shaft seals

The graph below sets out the pumping level of the rubber's micro-striations:

Pumping rate with pumping leads for shaft seals

Shaft design

Shaft installation for the shaft seal

Shaft material

Suitable materials are:

  • ordinary C35 and C45 steels used in mechanical construction
  • 1.4300 and 1.4112 stainless steels for sealing water
  • sprayed carbide coatings
  • graphite
  • malleable cast iron
  • materials with a CVD and PVD coating

Not appropriate:

  • chrome coatings solidified through non-uniform wear
  • plastic materials resulting from low thermal conductivity, which can lead to a disturbance in the transport of heat, an increase in temperature in friction areas with the shaft seal, as well as a potential softening

Shaft hardness

Shaft hardness will depend on the linear speed (in m/s) and the level of pollution.

Rotation speed Hardness in HRC
s ≤ 4.0 m/s 45 HRC
4.0 < s ≤ 10.0 m/s 55 HRC
s > 10.0 m/s 60 HRC

Surface roughness

The recommendations below must be considered for the quality of the shaft surface area.

Standard conditions:

  • Ra = 0.2 to 0.8 µm and 0.1 for demanding applications
  • Rz = 1.0 to 4.0 µm
  • Rmax ≤ 6.3 µm

For pressurev > 0.1 MPa:

  • Ra = 0.2 to 0.4 µm and 0.1 for demanding applications
  • Rz = 1.0 to 3.0 µm
  • Rmax ≤ 6.3 µm

Shaft tolerance

The shaft must have a tolerance of h11, in line with standard ISO 286-2

Shaft diameter
Ød1 (mm)
Tolerance
h11 (mm)
Ød1 ≤ 3.0 -0.060 / 0
3.0 < Ød1 ≤ 6.0 -0.075 / 0
6.0 < Ød1 ≤ 10.0 -0.090 / 0
10.0 < Ød1 ≤ 18.0 -0.110 / 0
18.0 < Ød1 ≤ 30.0 -0.130 / 0
30.0 < Ød1 ≤ 50.0 -0.160 / 0
50.0 < Ød1 ≤ 80.0 -0.190 / 0
80.0 < Ød1 ≤ 120.0 -0.220 / 0
120.0 < Ød1 ≤ 180.0 -0.250 / 0
180.0 < Ød1 ≤ 250.0 -0.290 / 0
250.0 < Ød1 ≤ 315.0 -0.320 / 0
315.0 < Ød1 ≤ 400.0 -0.360 / 0
400.0 < Ød1 ≤ 500.0 -0.400 / 0

Chamfer and radius

You are strongly advised to install a chamfer on the shaft so as not to alter the primary sealing sealing lip of the shaft seal during assembly. Please refer to the table below.

Shaft diameter
Ød1 (mm)
Chamfer diameter
Ød3 (mm)
Radius
R (mm)
Ød1 ≤ 10.0 Ød1 - 1.50 2.00
10.0 < Ød1 ≤ 20.0 Ød1 - 2.00 2.00
20.0 < Ød1 ≤ 30.0 Ød1 - 2.50 3.00
30.0 < Ød1 ≤ 40.0 Ød1 - 3.00 3.00
40.0 < Ød1 ≤ 50.0 Ød1 - 3.50 4.00
50.0 < Ød1 ≤ 70.0 Ød1 - 4.00 4.00
70.0 < Ød1 ≤ 95.0 Ød1 - 4.50 5.00
95.0 < Ød1 ≤ 130.0 Ød1 - 5.50 6.00
130.0 < Ød1 ≤ 240.0 Ød1 - 7.00 8.00
240.0 < Ød1 ≤ 500.0 Ød1 - 11.00 12.00

Shaft run out

The shaft run out is a deviation between the current shaft axis and the theoretical rotation axis. It is important to reduce the shaft run out as much as possible by positioning the shaft seal as close as possible to the bearing. The table below sets out the maximum permissible values depending on the rotation speed and the sealing lip material.

Shaft run-out for shaft seals with spring

Eccentricity

The shaft and housing must be assembled centred on one another in order to remove any unilateral radial load at the sealing lip of the ring.

Eccentricity for shaft seals with spring

Shaft machining

Correct shaft machining is essential to the proper operation of the sealing system.

  • Plunge grinding: preferred machining method that ensures the absence of striations on the shaft (0 +/- 0.05°)
  • Turning: suitable for shafts used with a unidirectional sense of rotation

Machining guidelines for surface adjustments

Parameters Requirements
Speed of the part to be machined 30 to 300 rpm
Wheel speed 1500 to 1700 rpm
Surfacing feed < 0.02 mm/turn
Dressing tool multi-grain dressing diamond, single drain dressing diamond
Grinding rate feed approximately 0.02 mm
Spark duration full spark, min. 30 secs
Passing depth > Rmax of the old machining operation
Eccentricity of the tool and part to be machined the best possible

Housing design

Housing installation for the shaft seals

Surface roughness

The recommendations below must be considered for the quality of the housing surface area.

Standard conditions for shaft seals with an apparent metal cage:

  • Ra = 0.8 to 3.2 µm
  • Rz = 6.3 to 16.0 µm
  • Rmax ≤ 16.0 µm

Tolerance of the bore diameter of the housing

The bore diameter of the housing must have a tolerance of H8, in line with standard ISO 286-2

Bore diameter
ØD1 (mm)

Tolerance
H8 (mm)

3.0 < ØD1 ≤ 6.0 0 / +0.018
6.0 < ØD1 ≤ 10.0 0 / +0.022
10.0 < ØD1 ≤ 18.0 0 / +0.027
18.0 < ØD1 ≤ 30.0 0 / +0.033
30.0 < ØD1 ≤ 50.0 0 / +0.039
50.0 < ØD1 ≤ 80.0 0 / +0.046
80.0 < ØD1 ≤ 120.0 0 / +0.054
120.0 < ØD1 ≤ 180.0 0 / +0.063
180.0 < ØD1 ≤ 250.0 0 / +0.072
250.0 < ØD1 ≤ 315.0 0 / +0.081
315.0 < ØD1 ≤ 400.0 0 / +0.089
400.0 < ØD1 ≤ 500.0 0 / +0.097
500.0 < ØD1 ≤ 630.0 0 / +0.110

Groove width dimensions

The table below provides information on the width of the groove and the recommended radius.

Height
H1
Width Radius
Max R2
L2min (H1 x 0.85) L1min (H1 x +0.3)
7.00 5.95 7.30 0.50
8.00 6.80 8.30
10.00 8.50 10.30
12.00 10.30 12.30 0.70
15.00 12.75 15.30
20.00 17.00 20.30
128 dimensions found
TA2 17x30x8
Standard request
17,00 30,00 8,00
TA2 26x42x10
Standard request
26,00 42,00 10,00
TA2 27x62x12
Standard request
27,00 62,00 12,00
TA2 28x38x8
Standard request
28,00 38,00 8,00
TA2 28x47x8
Standard request
28,00 47,00 8,00
TA2 29x50x10
Standard request
29,00 50,00 10,00
TA2 29x52x10
Standard request
29,00 52,00 10,00
TA2 32x60x10
Standard request
32,00 60,00 10,00
TA2 36x50x7
Standard request
36,00 50,00 7,00
TA2 38x52x7
Standard request
38,00 52,00 7,00
TA2 38x58x8
Standard request
38,00 58,00 8,00
TA2 40x52x7
Standard request
40,00 52,00 7,00
TA2 40x70x10
Standard request
40,00 70,00 10,00
TA2 41x53x7
Standard request
41,00 53,00 7,00
TA2 42x62x12
Standard request
42,00 62,00 12,00
TA2 42x65x12
Standard request
42,00 65,00 12,00
TA2 43x54x6
Standard request
43,00 54,00 6,00
TA2 45x65x10
Standard request
45,00 65,00 10,00
TA2 45x70x13
Standard request
45,00 70,00 13,00
TA2 47x65x12
Standard request
47,00 65,00 12,00
TA2 48x62x7
Standard request
48,00 62,00 7,00
TA2 48x62x8
Standard request
48,00 62,00 8,00
TA2 48x65x12
Standard request
48,00 65,00 12,00
TA2 50x65x8
Standard request
50,00 65,00 8,00
TA2 50x68x8
Standard request
50,00 68,00 8,00
TA2 50x68x9
Standard request
50,00 68,00 9,00
TA2 50x70x7
Standard request
50,00 70,00 7,00
TA2 50x72x8
Standard request
50,00 72,00 8,00
TA2 50x73x9
Standard request
50,00 73,00 9,00
TA2 50x75x9
Standard request
50,00 75,00 9,00
TA2 50x76x13
Standard request
50,00 76,00 13,00
TA2 50x90x13
Standard request
50,00 90,00 13,00
TA2 55x80x10
Standard request
55,00 80,00 10,00
TA2 58x75x12
Standard request
58,00 75,00 12,00
TA2 60x74x10
Standard request
60,00 74,00 10,00
TA2 60x80x10
Standard request
60,00 80,00 10,00
TA2 60x85x16
Standard request
60,00 85,00 16,00
TA2 60x110x13
Standard request
60,00 110,00 13,00
TA2 62x80x10
Standard request
62,00 80,00 10,00
TA2 62x90x12
Standard request
62,00 90,00 12,00
TA2 65x88x12
Standard request
65,00 88,00 12,00
TA2 65x90x13
Standard request
65,00 90,00 13,00
TA2 66x85x8
Standard request
66,00 85,00 8,00
TA2 68x88x9,5
Standard request
68,00 88,00 9,50
TA2 68x90x10
Standard request
68,00 90,00 10,00
TA2 68x92x10
Standard request
68,00 92,00 10,00
TA2 70x90x10
Standard request
70,00 90,00 10,00
TA2 70x90x12
Standard request
70,00 90,00 12,00
TA2 70x92x12
Standard request
70,00 92,00 12,00
TA2 70x110x13
Standard request
70,00 110,00 13,00
TA2 72x100x13
Standard request
72,00 100,00 13,00
TA2 72x105x13
Standard request
72,00 105,00 13,00
TA2 75x95x13
Standard request
75,00 95,00 13,00
TA2 75x100x13
Standard request
75,00 100,00 13,00
TA2 75x105x10
Standard request
75,00 105,00 10,00
TA2 75x105x12
Standard request
75,00 105,00 12,00
TA2 75x105x13
Standard request
75,00 105,00 13,00
TA2 75x108x13
Standard request
75,00 108,00 13,00
TA2 78x108x13
Standard request
78,00 108,00 13,00
TA2 80x100x12
Standard request
80,00 100,00 12,00
TA2 80x100x13
Standard request
80,00 100,00 13,00
TA2 80x108x13
Standard request
80,00 108,00 13,00
TA2 80x110x13
Standard request
80,00 110,00 13,00
TA2 80x130x13
Standard request
80,00 130,00 13,00
TA2 82x108x13
Standard request
82,00 108,00 13,00
TA2 85x105x13
Standard request
85,00 105,00 13,00
TA2 85x127x13
Standard request
85,00 127,00 13,00
TA2 88x115x13
Standard request
88,00 115,00 13,00
TA2 90x110x12
Standard request
90,00 110,00 12,00
TA2 90x110x13
Standard request
90,00 110,00 13,00
TA2 90x110x15
Standard request
90,00 110,00 15,00
TA2 90x118x12
Standard request
90,00 118,00 12,00
TA2 90x120x13
Standard request
90,00 120,00 13,00
TA2 90x120x15
Standard request
90,00 120,00 15,00
TA2 90x130x13
Standard request
90,00 130,00 13,00
TA2 90x130x15
Standard request
90,00 130,00 15,00
TA2 90x135x15
Standard request
90,00 135,00 15,00
TA2 95x115x12
Standard request
95,00 115,00 12,00
TA2 95x115x13
Standard request
95,00 115,00 13,00
TA2 95x120x12
Standard request
95,00 120,00 12,00
TA2 95x125x13
Standard request
95,00 125,00 13,00
TA2 95x128x12,5
Standard request
95,00 128,00 12,50
TA2 95x130x13
Standard request
95,00 130,00 13,00
TA2 98x120x12
Standard request
98,00 120,00 12,00
TA2 98x130x13
Standard request
98,00 130,00 13,00
TA2 98x145x19
Standard request
98,00 145,00 19,00
TA2 100x125x13
Standard request
100,00 125,00 13,00
TA2 100x127x12
Standard request
100,00 127,00 12,00
TA2 100x130x13
Standard request
100,00 130,00 13,00
TA2 104x140x12
Standard request
104,00 140,00 12,00
TA2 105x130x13
Standard request
105,00 130,00 13,00
TA2 105x135x13
Standard request
105,00 135,00 13,00
TA2 108x140x13
Standard request
108,00 140,00 13,00
TA2 110x128x9
Standard request
110,00 128,00 9,00
TA2 110x130x13
Standard request
110,00 130,00 13,00
TA2 110x133x13
Standard request
110,00 133,00 13,00
TA2 110x140x13
Standard request
110,00 140,00 13,00
TA2 110x145x16
Standard request
110,00 145,00 16,00
TA2 110x150x13
Standard request
110,00 150,00 13,00
TA2 110x150x15
Standard request
110,00 150,00 15,00
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