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Search Results for Sealing
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Image
Taper sealing faces for sealing between the die set and the container. (a) ...
Available to PurchasePublished: 01 December 2006
Fig. 7.14 Taper sealing faces for sealing between the die set and the container. (a) Taper seal between the die holder and the container, to DIN 24540. (b) Taper seal between the die and the container, to DIN 24540. (c) Additional internal taper on the die holder and the die, not included
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Published: 01 December 2006
Fig. 3.51 Variation of the sealing stem force F VSt over the sealing stem displacement s VSt in indirect hot extrusion with an initial billet temperature equal to the container temperature
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Image
Published: 01 December 2006
Fig. 3.52 Calculated variation in the sealing stem force F VSt over the sealing stem displacement s VSt for Al99.5 in indirect hot extrusion with an initial billet temperature equal to the container temperature. This gives the variation of the sealing stem force over the sealing stem
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Variation in the sealing stem load with the sealing stem displacement in in...
Available to PurchasePublished: 01 December 2006
Fig. 3.54 Variation in the sealing stem load with the sealing stem displacement in indirect hot extrusion with an initial billet temperature ϑ B that is higher than the container temperature ϑ R (e.g., copper alloys)
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Image
Schematic arrangement of the three methods of sealing the container against...
Available to PurchasePublished: 01 December 2006
Fig. 7.11 Schematic arrangement of the three methods of sealing the container against the die. Source: Sauer
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Image
Schematic arrangement of the three methods of sealing the container against...
Available to PurchasePublished: 01 December 2006
Fig. 7.12 Schematic arrangement of the three methods of sealing the container against the die holder. Source: Sauer
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Sealing edge widths of pattern plates of vertical flaskless molding. Source...
Available to PurchasePublished: 01 January 2022
Fig. 6.65 Sealing edge widths of pattern plates of vertical flaskless molding. Source: Ref 15
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Seawater corrosion damage on the outboard portion (a) and sealing surfaces ...
Available to Purchase
in Cold Spray Applications in the Defense Industry
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 9.12 Seawater corrosion damage on the outboard portion (a) and sealing surfaces (b) on the valve actuator internal bore. Courtesy of Puget Sound Naval Ship Yard
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(a) Corrosion and sealing surface valve actuator body repair application (T...
Available to Purchase
in Cold Spray Applications in Repair and Refurbishment for the Aerospace, Oil and Gas, and Power-Generation Industries
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 11.7 (a) Corrosion and sealing surface valve actuator body repair application (TD-3, U.S. Navy), using cold-sprayed aluminum on steel. (b) Airframe-mounted accessory drive housing repair buildup. Source: Ref 11.14
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Schematic illustration of a typical cap-sealing application in the packagin...
Available to Purchase
in Special Applications of Induction Heating
> Elements of Induction Heating: Design, Control, and Applications
Published: 01 June 1988
Fig. 11.14 Schematic illustration of a typical cap-sealing application in the packaging industry Source: Lepel Corp.
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in Special Applications of Induction Heating
> Elements of Induction Heating: Design, Control, and Applications
Published: 01 June 1988
Fig. 11.20 Hermetic solder sealing of electronic case assemblies Source: Lepel Corp.
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Image
Published: 01 December 2006
Fig. 3.41 Sealing stem with recess for withdrawal of discard and die
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Image
Published: 01 December 2006
Fig. 3.42 Sealing stem with recess for withdrawal of discard and loose guide ring
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Temperature variation over the sealing stem displacement or the length of t...
Available to PurchasePublished: 01 December 2006
Fig. 3.53 Temperature variation over the sealing stem displacement or the length of the extrusion in indirect hot extrusion with an initial billet temperature ϑ B that is higher than the container temperature ϑ R (e.g., for copper alloys)
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Sealing stem, hollow stem, and container for a container diam of 85 mm and ...
Available to PurchasePublished: 01 December 2006
Fig. 3.56 Sealing stem, hollow stem, and container for a container diam of 85 mm and a sealing stem load of 8000 kN
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Variation of the axial forces over the sealing stem displacement in indirec...
Available to PurchasePublished: 01 December 2006
Fig. 3.94 Variation of the axial forces over the sealing stem displacement in indirect tube extrusion over a fixed mandrel (e.g., of aluminum, without mandrel lubrication, without mandrel cooling). F D , mandrel load (tensile force); F M , axial compressive load on the die; F HSt , axial
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Book Chapter
Failure of a Sealed Ball Bearing
Available to PurchaseSeries: ASM Technical Books
Publisher: ASM International
Published: 01 October 2005
DOI: 10.31399/asm.tb.faesmch.t51270197
EISBN: 978-1-62708-301-0
... to seizure if it continued. The report recommends the use of electrically conductive grease and proper grounding practices. ball bearings electric motors energy-dispersive X-ray spectrophotometry greases scanning electron microscopy visual examination Summary A grease-packed sealed ball...
Abstract
One of the rotor bearings in an electric motor failed, producing excessive vibrate. The bearing was removed and disassembled, revealing craters and bruises on the inner ring raceway and balls along with evidence of melting and burning of metal. Scanning electron microscopy revealed metal particles near the craters, and energy-dispersive x-ray analysis showed that slivers recovered from the grease had the same composition as the bearing raceway and balls. Based on these observations, it was concluded that the bearing failed due to electrostatic discharge, which would have led to seizure if it continued. The report recommends the use of electrically conductive grease and proper grounding practices.
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Published: 01 November 2011
Fig. 10.19 Typical design of matched glass-to-metal seal. Source: Ref 10.6
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Published: 01 November 2011
Fig. 10.20 Typical designs of compression glass-to-metal seals. Source: Ref 10.6
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