high speed shear slitting: facing the issues · •critical speed •run out •vibration. critical...
TRANSCRIPT
![Page 1: High Speed Shear Slitting: Facing the Issues · •Critical Speed •Run Out •Vibration. Critical Speed Critical Speed. Runout, Axial & Radial Axial Runout ... Check assembled slitter](https://reader034.vdocument.in/reader034/viewer/2022042213/5eb823bc7e38842cae7244c9/html5/thumbnails/1.jpg)
Presented By: Mike Flannigan, District Manager
[email protected], 828-248-9582
AIMCAL Fall Technical Conference – October 27, 2004
Francis Marion Hotel – Charleston, South Carolina
High Speed Shear Slitting:
Facing the Issues
By: Reinhold Schable, Tidland Corp.
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What is “High Speed” ?
• !! Paper mills: 3000m/min (9000fpm)
• Film Coater: 1500m/min (4500fpm)
• Metalizer: 1000m/min (3000fpm)
• Laminator: 800m/min (2400fpm)
• Flex-pack Printer: 500m/min (1500fpm)
• Thermoformer: 150m/min (500fpm)
• !! Flooring: 20m/min (60fpm)
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High Speed?
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High Speed?
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I: Four Dynamics
I: Hardware Dynamics
II: Nip Dynamics
III: Web Path Dynamics
IV: Material Shear Dynamics
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I: Hardware Dynamics
• Critical Speed
• Run Out
• Vibration
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Critical Speed
Critical Speed
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Runout, Axial & Radial
Axial RunoutUpper Blade
Radial RunoutLower Ring
Radial RunoutUpper Blade
Axial RunoutLower Ring
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Axial Runout
Axial "Wobble"
• Lower slitte ring too loose on shaft.
• Lower slitter ring too narrow.
• Debris under slitter ring or blade mount.
• Inaccurately ground blade edges.
• Knifeholder axle bent.
• Blade hub bearings worn.
• Warped blade.
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Radial Runout
• Slitter shaft bent. Surface inaccurately ground.
• Slitter shaft critical speed problem.
• Slitter ring or blade ID too large.
• Slitter ring or blade bore not concentric to OD.
• Debris under blade or hub.
• Blade hub ID too large (loose fit onto shaft).
• Blade hub bearings worn.
Radial "Loping"
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Runout, Slitter Rings
Axial run-out("loping")
Radial run-out("wobble")
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Runout Evidence!
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Shaft Runout
Check journals & bearingsfor straightness and wear.
Check body for round-ness at extreme ends.
Check body for straightnessat several points across face.
Check assembled slitter shaft and ringsat operating speed
1
3
2
4
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Vibration, from many sources…
Bearings& Gears
Shafts& Rollers
Out of BalanceUnwind Rolls
Time
Typical Vibration Patterns
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II: Nip Dynamics
• Cant Angle
• Sideload
• Nip Speed
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The Cant Angle
…The cant angle (toe-in, or shear angle) brings the edges
of the sitters into contact, closing the nip at the cut
point.
Closed Nip(Cut Point)
Slit Line Lower Ring
Top Slitter Blade
Cant Angle
Web Path
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Cant Angle -vs- Speed Issues
– Purpose: “To close the nip”.
– Compensates for blade “tilt”.
– A feature of individual knifeholders.
– Amount needed is material dependant,
usually not more than 1°.
– As speed increases; cant angle is relatively
unaffected, but Sideload may vary.
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Beware of the Cant Angle!
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Sideload: 2-shaft slitters
Sideloading Twin-Arbor Slitters
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Sideload: Spring Type, 2-Arbor Slitters
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Sideload: Individual holders
Axial Coil Spring
•
• •
•
Paralell Links
•
•
Pneumatic
RigidSuspension
FlexibleSuspension
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Sideloading: a modern system
…Shear slitting can involve a large, complex machine, or…….
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Sideloading: a primitive system
…Shear slitting can involve a simple “old timer”.
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Nip Speed Must Equal Web Speed!
• Blade Overlap Influences Nip Speed
on Traction Driven Slitters.
• Tangent Systems Can (and should) be
oversped to compensate for Nip Speed Loss.
• Traction DrivenWrap Slitter Systems
Cannot Compensate for Nip Speed Loss.
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Nip Speed = Web Speed
Synchronized Nip
…The speed of the nip must be the the same as the speed of the we
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8a. Overlap Influences Nip Speed
…Overlap reduces the speed of traction driven slitters and creates
a
radial friction component.
…Nip velocity slows, blade wear accelerates with increased
overlap.
…Actively driven upper slitters may eliminate the speed
Radial FrictionTop Blade
PeripheralSpeed
Bottom Blade
Peripheral SpeedTop Blade
Top Blade
Bottom Blade
Nip("Cut Point")
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8b. Overlap Influences Nip Speed & Blade Wear
Blade Dia.
4"
6"
8"
10"
Overlap
.040"
.080"
.120"
.040"
.080"
.120"
.040"
.080"
.120"
.040"
.080"
.120"
% Speed Diff.of Top Blade
-4.0%-7.9%-11.8%
-2.6%-5.3%-7.9%
-2.0%-4.0%-6.0%
-1.6%-3.2%-4.4%
Radial Frictionof Top Blade.
29%39%47%
23%32%39%
20%28%34%
18%25%30%
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Nip Speed Must Equal Web Speed!
• Blade Overlap Influences Nip Speed
on Traction Driven Slitters.
• Tangent Systems Can (and should) be
oversped to compensate for Nip Speed Loss.
• Traction DrivenWrap Slitter Systems
Cannot Compensate for Nip Speed Loss.
![Page 29: High Speed Shear Slitting: Facing the Issues · •Critical Speed •Run Out •Vibration. Critical Speed Critical Speed. Runout, Axial & Radial Axial Runout ... Check assembled slitter](https://reader034.vdocument.in/reader034/viewer/2022042213/5eb823bc7e38842cae7244c9/html5/thumbnails/29.jpg)
Slitter-vs-Winder Speed…Nip speed must not lag behind web speed
Winder Speed Curve
Slitter Speed Curve
Web Break Likley to Occur
(Speed Tolerance Curve Superimposed)
Slitter Speed vs Winder Speed
Web Break Could Occur
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Nip Speed Must Equal Web Speed!
• Blade Overlap Influences Nip Speed
on Traction Driven Slitters.
• Tangent Systems Can (and should) be
oversped to compensate for Nip Speed Loss.
• Traction DrivenWrap Slitter Systems
Cannot Compensate for Nip Speed Loss.
![Page 31: High Speed Shear Slitting: Facing the Issues · •Critical Speed •Run Out •Vibration. Critical Speed Critical Speed. Runout, Axial & Radial Axial Runout ... Check assembled slitter](https://reader034.vdocument.in/reader034/viewer/2022042213/5eb823bc7e38842cae7244c9/html5/thumbnails/31.jpg)
The Wrap System
Arc of Overlap
Arc of Wrap
Nip.
("Cut Point").
Arc of "Rub"
Web speed and lower slitter speed is synchronous.
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Nip Speed is Slower than Web Speed
Undersped Nip
…If the nip closes slower than the web, slit quality is reduced.
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Nip Speed Must Equal Web Speed !
…Both edges will be bad if nip speed is less than web speed
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III: Web Path Dynamics
• Tangent Slit
• Wrap Slit
• Cross-Machine Symmetry
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The Tangent System
"Cut Point".
(Nip)
Arc of "Rub"
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“Flutter”
Web "Flutter"
Tangent "Slitter Table"
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“Flutter”: long web draw
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• Tangent slitter systems.
• Long slitter tables (a long “draw”).
• Vertical web paths, or inverted slitters.
• Thin, low stiffness web materials.
• Turbulent air currents, static electricity.
…however….
• Wrap slitter systems suppress flutter.
Flutter is prone with…
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“Symmetrical” Slitter Set-up
"Symmetrical" Slitter Set-up
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IV: Material Response Dynamics
Material responses at increasing speeds:
– Increased notch sensitivity.
– Increased shatter, fracture sensitivity.
– Increased delamination sensitivity
– Increased elongation effects.
– Increased rheology effects.
– Increased ”bow wave” effect.
– Increased ”shock wave” effect.
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Shear Resistance
.
Shear Resistance
Caliper (Thickness), Density,Rheology, Notch Sensitivity, etc....
SHEAR RESISTANCEAs a function of material properties
Shear Resistance
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Delaminated & Cracked edge
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Summary:
#1… Hardware dynamics
#2… Nip Dynamics
#3… Web path dynamics
#4… Material shear dynamics
Four Dynamic Issueswhen increasing slitter speed
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Presented By: Mike Flannigan, District Manager
[email protected], (-) 555-5550
AIMCAL Fall Technical Conference – October 27, 2004
Francis Marion Hotel – Charleston, South Carolina
High Speed Shear Slitting:
Facing the Issues
By: Reinhold Schable, Tidland Corp.
![Page 45: High Speed Shear Slitting: Facing the Issues · •Critical Speed •Run Out •Vibration. Critical Speed Critical Speed. Runout, Axial & Radial Axial Runout ... Check assembled slitter](https://reader034.vdocument.in/reader034/viewer/2022042213/5eb823bc7e38842cae7244c9/html5/thumbnails/45.jpg)
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