Bore (mm) | L1 (mm) | L2 (mm) | Standard | Ultra Precision | Ultra Precision Profile |
---|---|---|---|---|---|
0.5 – 1 | 3 | 3 – 5 | 0.015 mm | 0.01 mm | 0.12 mm |
1 – 1.6 | 6 | 5 – 8 | 0.02 mm | 0.01 mm | 0.12 mm |
1.6 – 3 | 10 | 8 – 12 | 0.02 mm | 0.01 mm | 0.12 mm |
3 – 6 | 16 | 12 – 18 | 0.02 mm | 0.01 mm | 0.12 mm |
6 – 10 | 25 | 18 – 24 | 0.02 mm | 0.01 mm | 0.15 mm |
10 – 18 | 40 | 24 – 32 | 0.03 mm | 0.01 mm | 0.2 mm |
18 – 24 | 50 | 32 – 48 | 0.03 mm | 0.01 mm | 0.2 mm |
24 – 30 | 60 | 48 – 60 | 0.04 mm | 0.01 mm | 0.2 mm |
30 – 50 | 80 | 60 | 0.04 mm | 0.01 mm | 0.2 mm |
50 | 100 | 60 – 70 | 0.04 mm | 0.01 mm | 0.2 mm |
Advantages:
-Wave slots prevent chips from getting into the guide bore
-Extended landings standard
-Ultra precision standard
-Scratch free properties
-Not sensitive to heat and non-abrasive
-Very low friction coefficient
-Concentricity accuracy is the same as carbide
Visit the Gold Wave Bushing Product Page to view more information.
Advantages:
-Maximum support given to part.
-Shorter processing times are possible during the turning operation.
-Ideal for cutting long threads.
-Carbide lined for higher durability and to keep the barstock clean and unmarked
Visit the Extended Carbide Inserts Product Pageto view more information.
Advantages:
-Reduced sliding friction
-Better protection against abrasion
-Very high corrosion-resistance
Advantages:
-Due to the waveform of the slots a scratch-free surface is ensured
-Well-suited to drive square and hexagon material
-Prevents chips and dirt in the bores and slits
-Highest concentric accuracy
-Available for all common types of guide bushes
Advantages:
-High scratch-free surface on the turning parts
-Very low coefficient of friction, ensuring very good sliding properties
-Shape consistency and stability is guaranteed by the steel body
-Concentric accuracy is the same as what the user is used to for a guide bush
-Extends over the entire length of the guide bush
-Not heat sensitive
-Non-abrasive
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