Manufacturer part number: FNCLM-V20-D26-L38
Brand: MISUMI
Price: Please contact the support for quotation
Delivery time: 8 Days
Features, Areas of Application: Corrosion and Chemical Resistance
O.D. D: 26 mm
I.D.: 20 mm
Thickness/Length: 38 mm
Material: [Steel] EN 1.1191 Equiv.
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FNCLM-V20-D26-L38
* D = 16 or less: C0.1 to 0.2
D = 16.5 or more: C0.5 or less
Part Number | [M] Material | [S] Surface Treatment | |
Standard Grade | Precision Grade | ||
FNCL | FAC | Steel for general structure | — |
FNCLC | FACS | EN 1.1191 Equiv. | — |
FNCLB | FABSC | Black Oxide | |
FNCLM | FAMSC | Electroless Nickel Plating | |
FNCLR | FARSC | Low Temp. Black Chrome Plating | |
FNCA | FNCAA | 2000 Series Aluminum Alloy | — |
FNCLA | FAASC | Clear Anodize | |
FNCLAB | - | Black Anodize | |
FNCLBB | - | EN CW614N Equiv. | — |
FNCLSS | FSASC | EN 1.4301 Equiv. | — |
FNCLSSR | FSASCR | Low Temp. Black Chrome Plating | |
FNCLSUS | FSASUC | EN 1.4401 Equiv. | — |
Part Number | — | V | — | D | — | L |
FNCLB | — | V10.5 | — | D19.5 | — | L50.5 |
Part Number | V 0.5 mm Increments (V Dimension 3 or More) | D | L 0.1 mm Increments |
FNCL FNCLC FNCLB FNCLM FNCLR FNCA FNCLA FNCLAB FNCLBB FNCLSS FNCLSSR FNCLSUS | (Selection) 2 2.6 (0.5 mm Increments) 3.0 to 90.0 | 4.0 to 10.0 (0.5 mm Increments) | 10.0 to 25.0 |
25.1 to 50.0 | |||
50.1 to 64.0 | |||
10.5 to 20.0 (0.5 mm Increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
21 to 30 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
31 to 40 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
41 to 50 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
51 to 60 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
61 to 75 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
76 to 80 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
81 to 100 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
[ ! ] Machining conditions *1, *2, *3 |
Part Number | — | V | — | D | — | L |
FAMSC | — | V10.5 | — | D19.5 | — | L50.5 |
Part Number | V 0.5 mm Increments (V Dimension 3 or More) | D | L 0.1 mm Increments |
FAC FACS FABSC FAMSC FARSC FNCAA FAASC FSASC FSASCR FSASUC | (Selection) 2 2.6 (0.5 mm Increments) 3.0 to 90.0 | 4.0 to 10.0 (0.5 mm Increments) | 10.0 to 25.0 |
25.1 to 50.0 | |||
50.1 to 64.0 | |||
10.5 to 20.0 (0.5 mm Increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
21 to 30 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
31 to 40 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
41 to 50 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
51 to 60 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
61 to 80 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
81 to 100 (1 mm increments) | 10.0 to 25.0 | ||
25.1 to 50.0 | |||
50.1 to 75.0 | |||
75.1 to 100.0 | |||
[ ! ] Machining conditions *1, *2,*3 |
Part Number | — | V (CVE) | — | D | — | L | — | (VKC, DKC, HKC, etc.) |
FNCLB | — | V10.5 | — | D45 | — | L70.5 | — | VKC |
FNCLC | — | CVE15.2 | — | D30 | — | L50.0 | — | DKC |
Alterations | I.D. Tolerance | O.D. Tolerance | I.D. dimension change (0.1 mm increments) | ||||||||||||||||||||||||
Code | VKC | DKC (g6) HKC (h7) | CVE | ||||||||||||||||||||||||
Spec. | Changes the I.D. Tolerance to H7. Ordering Code VKC Machining conditions [ ! ] When V ≥ 8 and L ≥ V × 5, adds a central relief shown on the right. | [ NG ] Not applicable for FNCLAB [ ! ]D ≥ 6 V ≥ 3
| Changes the O.D. Tolerance to g6 or h7. Ordering code DKC/HKC [ NG ] Not applicable for FNCLAB | Specify the I.D. dimension in 0.1 mm increments. Ordering code CVE15.2 (V dimensions can be specified in 0.1 mm increments for CVE) Machining conditions [ ! ] CVE > 13 mm | |||||||||||||||||||||||
Machining conditions [ ! ] D ≥ 6 [ NG ] Not applicable for FNCLAB |
|
Alterations | C Chamfering (1 Location on One Side - Both Sides) | Taper (1 Location on One Side - Both Sides) | Tapping | Set Screw Hole (1 location, 2 locations) | Slitting | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||
[ ! ]Combination with other alteration is not available. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Code | CC·WCC (O.D.) | CV·WCV (I.D.) | AC·WAC | VM (coarse) VMA (fine thread) | MC·WMC | SLC | |||||||||||||||||||||||||||||||||||||||||||||||||||||||
Spec. | Chamfers C plane on the outer and inner diameters. | Adds a taper. | Adds a tapped hole (through). | Adds a tapped hole (coarse thread) at D part | Adds a slit | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Ordering Code CC1.5 WCC2.5 CC, WCC = 0.5 mm increments Machining conditions [ ! ]0.5 < CC·WCC ≤ 10 [ ! ]D ≤ 16: (D-V)/2-0.7 > CV·WCV, CC·WCC [ ! ]D ≥ 16.5: (D-V)/2-1 > CV·WCV, CC·WCC [ ! ]L-CC ≥ 5 [ ! ]L- (WCC × 2) ≥ 5 | Ordering Code CV1.5 WCV2.5 CV, WCV = 0.5 mm Increments Machining conditions [ ! ]0.5 < CV·WCV ≤ 10 [ ! ]D ≤ 20 [ ! ]D ≤ 16: (D-V)/2-0.7 > CV·WCV, CC·WCC [ ! ]D ≥ 16.5: (D-V)/2-1 > CV·WCV, CC·WCC [ ! ]L-CV ≥ 5 [ ! ]L- (WCV × 2) ≥ 5 | Ordering Code AC3.5 - Q60 WAC5.0-Q30 [ ! ] AC, WAC = 0.5 mm Increments [ ! ] Q = Selection 15 20 30 60 [ ! ]AC ≤ L-5 [ ! ] (D - V)/2 ≥ tanQ × AC (WAC) + 0.5 | Ordering code Specify VM4 V instead of VM or VMA Example: FNCL-VMA4-D10-L18 [ ! ]For the machining limits of tap diameter and overall length (L), see the table below. Tap dia. ≤ D/2
| Ordering Code MC3 WMC5 [ ! ]For the condition of the thickness (D - V)/2, see the table below. [ ! ]L ≥ MC·WMC × 3 [ ! ] MC, WMC = Select from the table below
| Ordering Code SLC [ ! ]For the condition of the thickness (D - V)/2, see the table below. [ ! ]Slit width is fixed.
[ ! ] D, V and L dimension tolerances are the values before alteration. They may change after alteration depending on the material. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||
[ NG ] CC/WCC and CV/WCV cannot be used together. |
- Material: steel, stainless steel, aluminum, brass, tool steel
- Coating: untreated, burnished, nickel-plated, LTBC coating, anodized, chrome-plated
- Basic shapes: straight, with collar, sleeve, disc, front panel with open oblong hole
- Designs: through hole, two through holes, bolt circle, oblong hole, counterbore, conical counterbore, internal thread
- Hardness: up to ~55HRC
- ISO tolerances: g6, h7
- Inner diameter: 0 mm to 90 mm
- Outer diameter: 3 mm to 100 mm
- Length: 1 mm to 200 mm
Overview of the various designs as PDF
A spacer sleeve or distance washer serves as a spacer in mechanical engineering to maintain a predetermined position. Unlike the known washers, spacer sleeves and distance washers are not punched. Spacer sleeves, which are also known as spacer sleeves, have a precise length. Their length tolerance (precision class) is up to +/- 0.01 mm. A spacer sleeve can therefore also be used as a bearing sleeve of rolling bearings.
These metal sleeves and discs are available at MISUMI either unhardened or hardened. Particularly hard discs and sleeves have a high level of wear resistance. Stainless steel sleeves and stainless steel washers are well protected against oxidation in corrosive environments. Spacer sleeves or distance sleeves can be configured with collar (flange). The height of the government is also tolerated and can also be used for maintaining a distance.
Due to the individual configuration of the distance sleeve and spacer washer, they offer nearly an unlimited use in mechanical engineering.
The spacer sleeve or distance washer is suitable for many mechanical engineering applications due to its tolerable height. Compared to the commercially available washer, the distance washer can have a larger bearing surface. The special form as a countersunk washer is well suited for shaft mounting at the shaft end.
The precisely manufactured spacer sleeve is suitable for precisely maintaining a distance between two components. If several sleeves are necessary for this, MISUMI offers simultaneous grinding spacer sleeves. Due to the matched length of the grinding distance sleeves, which are used as a set (min. 2 pieces), a flat surface can be formed. In addition, the simultaneously ground sleeves can reduce play, because the height difference from one another is limited to +/- 5μ.
Alternatively, the metal disc or the metal collar can be suitable as a spring disk in order to serve a pressure spring as a receiver or stopper.
At MISUMI, you can configure the distance washer and distance sleeve to your specifications and order it online. The additionally selectable options extend the design freedom of the metal collars and metal discs.
Metal collars and metal discs in steel, tool steel and stainless steel are available in the MISUMI online shop. Stainless steel sleeves and washers provide good corrosion resistance and can be used in corrosive environments.
Alternatively, MISUMI offers discs and sleeves made of plastic and ceramic as well as thermally insulating materials for special environmental influences.
In addition, MISUMI offers discs and sleeves made of rubber and felt, which can work with diverse properties, e.g., antistatic and vibration damping.
MISUMI sleeves and discs are available uncoated, burnished, nickel-plated, LTBC-coated, anodized and chrome-plated versions to protect metal sleeves and metal washers from corrosion and wear.
Overview of the geometric variants as PDF
Standard class and precision class of the spacer sleeve
Standard class and precision class of the spacer disc
(1) Plate, (2) spacer washer, (3) screw – hexagon socket
(1) Screw, (2) metal washer, (3) metal collar, (4) natural rubber plate
(1) Spacer sleeve, (2) ball bearing, (3) rotary shaft
(1) Distance sleeve/spacer sleeve
Washers / Collars (Non-Metal, Plastic)
Washers / Collars (Urethane, Rubber, Sponge, Felt)
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Part Number
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FNCLM-V20-D26-L38 |
Part Number | Minimum order quantity | Volume Discount | RoHS | Features, Areas of Application | O.D. D (mm) | I.D. (mm) | Thickness/Length (mm) | Material | Surface Treatment | Thickness/Length Tolerance | Precision | Tapped Hole Machining (mm) | Tapping Coarse Thread Dia. Selection [VM] (mm) | I.D. Dimension Change [CVE] (mm) | Tapping Fine Thread Dia. Selection [VMA] (mm) | |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | 8 Days | 10 | Corrosion and Chemical Resistance | 26 | 20 | 38 | [Steel] EN 1.1191 Equiv. | Electroless Nickel Plating | 0 to -0.1 | Standard Grade | - | - | - | - |
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Shape | Straight | RoHS Information | RoHS Requirements Fulfilled | Inner Shape | Straight |
---|---|---|---|---|---|
O.D. Tolerance | 0 to -0.2 | I.D. Tolerance | +0.3 to +0.1 | Sale Type | Sold Separately |
Dimension Specifying Method | Dimension Configurable Type | Hardness(HRC) | Unhardened |
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Basic Attributes
Features, Areas of Application
Material
Surface Treatment
Thickness/Length Tolerance
Precision
Tapped Hole Machining(mm)
Tapping Coarse Thread Dia. Selection [VM](mm)
I.D. Dimension Change [CVE](mm)
Tapping Fine Thread Dia. Selection [VMA](mm)
Type
O.D. D(mm)
I.D.(mm)
Thickness/Length(mm)
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