Linear shafts / stepped on one side / two-sided internal thread / stepped on one side / internal thread (Part Numbers - CAD Download)
- Order quantities extended (D-JIT)
(i)Remark
- SFAA has been localized according to European needs and requirements. Please have a look on the EU version SFAAEU. SFAAEU is available in EN 1.1213 (Cf53) and h6 / h7.
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| Type | Material | Hardness | Surface Treatment | |||||
| One End Stepped, Both Ends Tapped | One End Stepped, One End Tapped | |||||||
| D Tol. g6 | D Tol. h5 | D Tol. f8 | D Tol. g6 | D Tol. h5 | D Tol. f8 | |||
| SFAA | SFUE | - | SFNA | SFEU | - | EN 1.3505 Equiv. | Effective Hardened Depth of Induction Hardening >>P.112 EN 1.3505 Equiv. 58HRC~ EN 1.4037 Equiv. 56HRC~ | - |
| SSFAA | SSFUE | - | SSFNA | SSFEU | - | EN 1.4037 Equiv. | ||
| PSFAA | PSFUE | - | PSFNA | PSFEU | - | EN 1.3505 Equiv. | Hard Chrome Plating Plating Hardness: HV750 ~ Plating Thickness: 5µ or More ~ | |
| PSSFAA | PSSFUE | - | PSSFNA | PSSFEU | - | EN 1.4037 Equiv. | ||
| RSFAA | - | - | RSFNA | - | - | EN 1.3505 Equiv. | LTBC Plating | |
| - | - | PSFGA | - | - | PSNGA | EN 1.1191 Equiv. | - | Hard Chrome Plating Plating Hardness: HV750 ~ Plating Thickness: 10µ or More ~ |
| - | - | PSSFGA | - | - | PSSNGA | EN 1.4301 Equiv. | ||
Further specifications can be found under the tab More Information.
| Part Number | - | L | - | F | - | P | - | M | - | N |
| SFAA20 SFUE20 SFNA20 | - - - | 400 400 400 | - - - | F25 F25 F25 | - - - | P16 P16 P15 | - - | M10 M10 | - - - | N10 N10 N10 |
You find further options in detail under Option Overview.
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| Part Number |
Standard Unit Price
| Minimum order quantity | Volume Discount | RoHS | Shaft end Shape (Left) | [D] Diameter (Shaft) (mm) | [L] Length (Shaft) (mm) | Material | Heat Treatment | Surface Treatment | ISO Tolerance | Hardness | [NSC] Size (fine thread - depth 2xN) (mm) | [ND] Size (thread - depth 3xN) (mm) | [MD] Size (thread - depth 3xM) (mm) | [F] Length (stud - offset - front side) (mm) | [P] Diameter (stepped - front side) (mm) | [N] Size (thread - depth 2xN) (mm) | [M] Size (thread - depth 2xM) (mm) | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
- | 1 | 6 Days | 10 | Internal thread | 20 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | - | 2 ~ 68 | 8 ~ 17 | 4 ~ 12 | 4 ~ 12 | ||
- | 1 | 6 Days | 10 | Internal thread | 20 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | 6 ~ 12 | - | 2 ~ 68 | 8 ~ 17 | - | 4 ~ 12 | ||
- | 1 | 6 Days | 10 | Internal thread | 20 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 8 ~ 14 | - | - | 2 ~ 68 | 8 ~ 17 | - | 4 ~ 12 | ||
- | 1 | 6 Days | 10 | Internal thread | 20 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | 6 ~ 12 | 2 ~ 68 | 8 ~ 17 | 4 ~ 12 | - | ||
- | 1 | 6 Days | 10 | Internal thread | 20 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | 6 ~ 12 | 6 ~ 12 | 2 ~ 68 | 8 ~ 17 | - | - | ||
- | 1 | 6 Days | 10 | Internal thread | 20 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 8 ~ 14 | - | 6 ~ 12 | 2 ~ 68 | 8 ~ 17 | - | - | ||
- | 1 | 6 Days | 10 | Internal thread | 25 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | - | 2 ~ 88 | 8 ~ 22 | 4 ~ 16 | 4 ~ 16 | ||
- | 1 | 6 Days | 10 | Internal thread | 25 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | 6 ~ 16 | - | 2 ~ 88 | 8 ~ 22 | - | 4 ~ 16 | ||
- | 1 | 6 Days | 10 | Internal thread | 25 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 8 ~ 18 | - | - | 2 ~ 88 | 8 ~ 22 | - | 4 ~ 16 | ||
- | 1 | 6 Days | 10 | Internal thread | 25 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | 6 ~ 16 | 2 ~ 88 | 8 ~ 22 | 4 ~ 16 | - | ||
- | 1 | 6 Days | 10 | Internal thread | 25 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | 6 ~ 16 | 6 ~ 16 | 2 ~ 88 | 8 ~ 22 | - | - | ||
- | 1 | 6 Days | 10 | Internal thread | 25 | 25 ~ 1198 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 8 ~ 18 | - | 6 ~ 16 | 2 ~ 88 | 8 ~ 22 | - | - | ||
- | 1 | 6 Days | 10 | Internal thread | 30 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | - | 2 ~ 108 | 9 ~ 27 | 6 ~ 20 | 5 ~ 24 | ||
- | 1 | 6 Days | 10 | Internal thread | 30 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | 6 ~ 20 | - | 2 ~ 108 | 9 ~ 27 | - | 5 ~ 24 | ||
- | 1 | 6 Days | 10 | Internal thread | 30 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 8 ~ 18 | - | - | 2 ~ 108 | 9 ~ 27 | - | 5 ~ 24 | ||
- | 1 | 6 Days | 10 | Internal thread | 30 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | 6 ~ 20 | 2 ~ 108 | 9 ~ 27 | 6 ~ 20 | - | ||
- | 1 | 6 Days | 10 | Internal thread | 30 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | 6 ~ 20 | 6 ~ 20 | 2 ~ 108 | 9 ~ 27 | - | - | ||
- | 1 | 6 Days | 10 | Internal thread | 30 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 8 ~ 18 | - | 6 ~ 20 | 2 ~ 108 | 9 ~ 27 | - | - | ||
- | 1 | 7 Days | 10 | Internal thread | 35 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | - | 2 ~ 128 | 9 ~ 32 | 8 ~ 24 | 5 ~ 24 | ||
- | 1 | 7 Days | 10 | Internal thread | 35 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 8 ~ 18 | - | - | 2 ~ 128 | 9 ~ 32 | - | 5 ~ 24 | ||
- | 1 | 7 Days | 10 | Internal thread | 40 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | - | 2 ~ 148 | 11 ~ 37 | 10 ~ 30 | 6 ~ 30 | ||
- | 1 | 7 Days | 10 | Internal thread | 40 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 10 ~ 18 | - | - | 2 ~ 148 | 11 ~ 37 | - | 6 ~ 30 | ||
- | 1 | 7 Days | 10 | Internal thread | 50 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | - | - | - | 2 ~ 188 | 11 ~ 47 | 12 ~ 30 | 6 ~ 30 | ||
- | 1 | 7 Days | 10 | Internal thread | 50 | 25 ~ 1498 | [Unalloyed Steel] EN 1.1191 Equiv. | No Treatment | Hard Chrome Plating | f8 | No Induction Hardening | 12 ~ 18 | - | - | 2 ~ 188 | 11 ~ 47 | - | 6 ~ 30 | ||
- | 1 | 4 Days | 10 | Straight | 8 | 25 ~ 998 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 24 | 6 | 3 ~ 5 | - | ||
- | 1 | 4 Days | 10 | Straight | 10 | 25 ~ 998 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 32 | 6 ~ 8 | 3 ~ 6 | - | ||
- | 1 | 4 Days | 10 | Straight | 12 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 40 | 6 ~ 10 | 4 ~ 8 | - | ||
- | 1 | 4 Days | 10 | Straight | 12 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 | - | 2 ~ 40 | 6 ~ 10 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 12 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 | - | - | 2 ~ 40 | 6 ~ 10 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 13 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 44 | 6 ~ 11 | 4 ~ 8 | - | ||
- | 1 | 4 Days | 10 | Straight | 13 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 ~ 8 | - | 2 ~ 44 | 6 ~ 11 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 13 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 | - | - | 2 ~ 44 | 6 ~ 11 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 15 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 52 | 6 ~ 13 | 4 ~ 8 | - | ||
- | 1 | 4 Days | 10 | Straight | 15 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 ~ 10 | - | 2 ~ 52 | 6 ~ 13 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 15 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 ~ 10 | - | - | 2 ~ 52 | 6 ~ 13 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 16 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 56 | 6 ~ 14 | 4 ~ 8 | - | ||
- | 1 | 4 Days | 10 | Straight | 16 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 ~ 10 | - | 2 ~ 56 | 6 ~ 14 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 16 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 ~ 10 | - | - | 2 ~ 56 | 6 ~ 14 | - | - | ||
- | 1 | 7 Days | 10 | Straight | 18 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 60 | 6 ~ 16 | 4 ~ 12 | - | ||
- | 1 | 7 Days | 10 | Straight | 18 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 ~ 12 | - | 2 ~ 60 | 6 ~ 16 | - | - | ||
- | 1 | 7 Days | 10 | Straight | 18 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 ~ 12 | - | - | 2 ~ 60 | 6 ~ 16 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 20 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 68 | 8 ~ 17 | 4 ~ 8 | - | ||
- | 1 | 4 Days | 10 | Straight | 20 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 ~ 12 | - | 2 ~ 68 | 8 ~ 17 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 20 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 ~ 14 | - | - | 2 ~ 68 | 8 ~ 17 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 25 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 88 | 8 ~ 22 | 4 ~ 16 | - | ||
- | 1 | 4 Days | 10 | Straight | 25 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 ~ 16 | - | 2 ~ 88 | 8 ~ 22 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 25 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 ~ 18 | - | - | 2 ~ 88 | 8 ~ 22 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 30 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 108 | 9 ~ 27 | 6 ~ 20 | - | ||
- | 1 | 4 Days | 10 | Straight | 30 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | 6 ~ 20 | - | 2 ~ 108 | 9 ~ 27 | - | - | ||
- | 1 | 4 Days | 10 | Straight | 30 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 ~ 18 | - | - | 2 ~ 108 | 9 ~ 27 | - | - | ||
- | 1 | 7 Days | 10 | Straight | 35 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 128 | 9 ~ 32 | 8 ~ 24 | - | ||
- | 1 | 7 Days | 10 | Straight | 35 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 8 ~ 18 | - | - | 2 ~ 128 | 9 ~ 32 | - | - | ||
- | 1 | 7 Days | 10 | Straight | 40 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 148 | 11 ~ 37 | 10 ~ 30 | - | ||
- | 1 | 7 Days | 10 | Straight | 40 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 10 ~ 18 | - | - | 2 ~ 148 | 11 ~ 37 | - | - | ||
- | 1 | 7 Days | 10 | Straight | 50 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 188 | 11 ~ 47 | 12 ~ 30 | - | ||
- | 1 | 7 Days | 10 | Straight | 50 | 25 ~ 1498 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | g6 | Induction Hardening (58HRC~) | 12 ~ 18 | - | - | 2 ~ 188 | 11 ~ 47 | - | - | ||
- | 1 | 4 Days | 10 | Internal thread | 8 | 25 ~ 998 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | h5 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 24 | 6 | 3 ~ 5 | 3 | ||
- | 1 | 4 Days | 10 | Internal thread | 10 | 25 ~ 998 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | h5 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 32 | 6 ~ 8 | 3 ~ 6 | 3 ~ 5 | ||
- | 1 | 4 Days | 10 | Internal thread | 12 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | h5 | Induction Hardening (58HRC~) | - | - | - | 2 ~ 40 | 6 ~ 10 | 4 ~ 8 | 3 ~ 6 | ||
- | 1 | 4 Days | 10 | Internal thread | 12 | 25 ~ 1198 | [Alloyed Steel] EN 1.3505 Equiv. | Induction Hardened | Hard Chrome Plating | h5 | Induction Hardening (58HRC~) | - | 6 | - | 2 ~ 40 | 6 ~ 10 | - | 3 ~ 6 |
Loading...
| D Tol. | |||
| D | g6 | h5 | f8 |
| 8 | -0.005 -0.014 | 0 -0.006 | -0.013 -0.035 |
| 10 | |||
| 12 | -0.006 -0.017 | 0 -0.008 | -0.016 -0.043 |
| 13 | |||
| 15 | |||
| 16 | |||
| 18 | |||
| 20 | -0.007 -0.020 | 0 -0.009 | -0.020 -0.053 |
| 25 | |||
| 30 | |||
| 35 | -0.009 -0.025 | 0 -0.011 | -0.025 -0.064 |
| 40 | |||
| 50 | |||
| Part Number | 1mm Increment | M (Coarse) Selection | N (Coarse) Selection | (Y)Max. | R | C | ||||||||||||||||||||||||||
| Type | D | L | F | P | ||||||||||||||||||||||||||||
| One End Stepped, Both Ends Tapped (D Tolerance g6) SFAA SSFAA PSFAA PSSFAA RSFAA (D≤30, L≤500) (D Tolerance f8) PSFGA PSSFGA | (D Tolerance h5) SFUE SSFUE PSFUE PSSFUE | One End Stepped One End Tapped (D Tolerance g6) SFNA SSFNA PSFNA PSSFNA RSFNA (D≤30, L≤500) (D Tolerance f8) PSNGA PSSNGA | (D Tolerance h5) SFEU SSFEU PSFEU PSSFEU | 8 | 25~798 | 2≤F≤Px4 | 6 | 3 | 3 | 4 | 5 | 800 | 0.3 or Less | 0.5 or Less | ||||||||||||||||||
| 10 | 25~798 | 6~ 8 | 3 | 4 | 5 | 3 | 4 | 5 | 6 | 800 | ||||||||||||||||||||||
| 12 | 25~998 | 6~10 | 3 | 4 | 5 | 6 | 4 | 5 | 6 | 8 | 1000 | |||||||||||||||||||||
| 13 | 25~998 | 6~11 | 3 | 4 | 5 | 6 | 8 | 4 | 5 | 6 | 8 | 1000 | ||||||||||||||||||||
| 15 | 25~998 | 6~13 | 3 | 4 | 5 | 6 | 8 | 10 | 4 | 5 | 6 | 8 | 10 | 1000 | ||||||||||||||||||
| 16 | 25~1198 | 6~14 | 3 | 4 | 5 | 6 | 8 | 10 | 4 | 5 | 6 | 8 | 10 | 1200 | ||||||||||||||||||
| 18 | 25~1198 | 8~16 | 4 | 5 | 6 | 8 | 10 | 12 | 4 | 5 | 6 | 8 | 10 | 12 | 1200 | |||||||||||||||||
| 20 | 25~1198 | 8~17 | 4 | 5 | 6 | 8 | 10 | 12 | 4 | 5 | 6 | 8 | 10 | 12 | 1200 | 1.0 or Less | ||||||||||||||||
| 25 | 25~1198 | 8~22 | 4 | 5 | 6 | 8 | 10 | 12 | 16 | 4 | 5 | 6 | 8 | 10 | 12 | 16 | 1200 | |||||||||||||||
| 30 | 25~1498 | 9~27 | 5 | 6 | 8 | 10 | 12 | 16 | 20 | 24 | 6 | 8 | 10 | 12 | 16 | 20 | 1500 | |||||||||||||||
| 35 | 25~1498 | 9~32 | 5 | 6 | 8 | 10 | 12 | 16 | 20 | 24 | 8 | 10 | 12 | 16 | 20 | 24 | 1500 | 0.5 or Less | ||||||||||||||
| 40 | 25~1498 | 11~37 | 6 | 8 | 10 | 12 | 16 | 20 | 24 | 30 | 10 | 12 | 16 | 20 | 24 | 30 | 1500 | |||||||||||||||
| 50 | 25~1498 | 11~47 | 6 | 8 | 10 | 12 | 16 | 20 | 24 | 30 | 12 | 16 | 20 | 24 | 30 | 1500 | ||||||||||||||||
P dimensions require M+3≤P. When D-P≤4, stepped section chamfer C is 0.2 or less. For One End Stepped One End Tapped Type, L dimensions require Nx3≤L.
When Mx2.5+4+Nx2.5+4≥(Y), tap pilot holes may go through. When Mx2+Nx2≥(Y), effective depth of larger diameter tap has priority.
You find further options in detail under Option Overview.
Basic information
| Basic Shape | Solid, One End Stepped | Shaft end Shape (Right) | Internal thread | Shaft end Perpendicularity | 0.2 |
|---|
Configure
Basic Attributes
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Shaft end Shape (Left)
-
Straight -
Internal thread
-
-
[D] Diameter (Shaft)(mm)
-
[L] Length (Shaft)(mm)
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Material
- Unalloyed Steel
- Stainless Steel (austenitic)
- Alloyed Steel
- Stainless Steel (martensitique)
- Unalloyed Steel
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Heat Treatment
- No Treatment
- Induction Hardened
-
Surface Treatment
- No Treatment
- Hard Chrome Plating
- LTBC Plating
-
ISO Tolerance
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Hardness
- Induction Hardening (56HRC~)
- Induction Hardening (58HRC~)
- No Induction Hardening
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[NSC] Size (fine thread - depth 2xN)(mm)
-
[ND] Size (thread - depth 3xN)(mm)
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[MD] Size (thread - depth 3xM)(mm)
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[F] Length (stud - offset - front side)(mm)
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[P] Diameter (stepped - front side)(mm)
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[N] Size (thread - depth 2xN)(mm)
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[M] Size (thread - depth 2xM)(mm)
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Type
- PSFAA
- PSFEU
- PSFGA
- PSFNA
- PSFUE
- PSNGA
- PSSFAA
- PSSFEU
- PSSFGA
- PSSFNA
- PSSFUE
- PSSNGA
- RSFAA
- RSFNA
- SFAA
- SFEU
- SFNA
- SFUE
- SSFAA
- SSFEU
- SSFNA
- SSFUE
-
Filter by CAD data type
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Filter by standard shipping days
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Optional Attributes
- The specifications and dimensions of some parts may not be fully covered. For exact details, refer to manufacturer catalogs .
Frequently Asked Questions (FAQ)
-
Question:
What is the difference between a hollow shaft and a solid shaft?
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Answer:
With the same size, there are three differences between a hollow shaft and a solid shaft. Hollow shafts weigh less. The inner cavity of a hollow shaft is suitable for use as a channel (cable channel). Solid shafts are a bit more rigid (higher resistance torque).
-
Question:
What is the minimum order of linear shafts from MISUMI?
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Answer:
MISUMI supplies solid shafts, hollow shafts and precision shafts starting at a lot size of 1. This also applies to all other items in our product range.
-
Question:
Noises and vibrations occur with a linear shaft. In addition, there are jerky movements. What could cause this?
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Answer:
In general, it may be caused if the steel shaft is not properly lubricated. In addition, an incorrectly selected diameter tolerance of the linear shafts may also make the cycle of motion more difficult. When using MISUMI linear ball bearings, a g6 shaft tolerance is recommended (tolerance recommendations may vary depending on the manufacturer).
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Question:
What is the strength of a solid shaft?
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Answer:
The strength of a linear shaft, although it is a solid shaft, hollow shaft or precision shaft, should always be selected in consideration of the strength of the material used.
-
Question:
What are the advantages of a hollow shaft over a solid shaft?
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Answer:
There are various advantages of a hollow shaft compared to a solid shaft. If the outer diameter is the same, the weight of a hollow shaft is lower than that of a solid shaft. However, the cavity of the hollow shaft can also be used as a cable channel or for cooling. A hollow shaft is at the same weight or with the same cross-sectional area more rigid than a solid shaft, because the outer diameter is larger. However, the question that needs to be answered is whether the advantage is a greater room utilization or less weight.
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Question:
Is a hollow shaft stiffer than a solid shaft?
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Answer:
The rigidity of a hollow shaft is slightly lower with the same outer diameter than that of a solid shaft. However, with the same cross-sectional area or with the same weight, the stiffness of a hollow shaft is higher than that of a solid shaft, because the outer diameter of the hollow shaft is larger.
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Question:
Why do I have running grooves on the linear shafts of my 3D printers?
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Answer:
The running grooves on the linear shaft may have been created, for example, by using a linear ball bearing. To prevent grooves from forming on a steel shaft, it should be hardened and hard chromium plated, making it more durable and resistant to the wear and tear from ball bearings.
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Question:
How do the flexure properties of hollow shafts and solid shafts differ?
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Answer:
With an equally large outer diameter, a solid shaft has better flexure properties than an equally large hollow shaft. However, the solid shaft is not much stiffer than a hollow shaft with the same outer diameter, since the outer sections mainly carry the load. Hollow shafts with the same cross-sectional area are more rigid than solid shafts, because they have a larger outer diameter. Therefore, there is physically more material in the outer sections for the bending, which bears the loads.
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Question:
I need a lacquered or matted shaft because reflections cause problems with the optics. Does MISUMI have something like that?
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Answer:
MISUMI LTBC-coated linear shafts are an alternative to painted or matted steel shafts. The LTBC coating is low-reflection and has the same effect as painted and matte shafts. In addition, LTBC-coated linear shafts are more resistant to wear and tear and flaking. You can find further information on LTBC coating here .
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Question:
It has been shown that a hollow shaft is stronger than a solid shaft made of the same material. Why?
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Answer:
A hollow shaft with the same outer dimensions is principally not stronger than a solid shaft. However, a hollow shaft per weight unit is stronger.
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