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strips
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in Avoidance, Control, and Repair of Fatigue Damage[1]
> Fatigue and Durability of Structural Materials
Published: 01 March 2006
Fig. 11.67 Fatigue life of 2.5 cm (1 in.) wide strips of aluminum 7075-T6 with 0.476 cm ( 3 / 16 in.) diam 100° countersunk holes compared with lives when filled with unloaded NAS-333 bolts and tapered bolts. Source: Ref 11.73
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Published: 01 December 1999
Fig. 8.26 Typical saturation curve from shot-peened Almen strips. The time to saturation is that which, when doubled, does not produce an increase of arc height greater than 20%.
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in Tribological Properties of Ceramics, Cermets, and Cemented Carbides
> Tribomaterials: Properties and Selection for Friction, Wear, and Erosion Applications
Published: 30 April 2021
Fig. 10.9 How rubber soles conform to silicon carbide friction strips on stairs and walkways
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Published: 01 December 2003
Fig. 9 Hand grinders using 76 × 280 mm (3 × 11 in.) strips, 230 × 355 mm (9 × 14 in.) sheets, and 100 mm × 137 m (4 in. × 150 yard) rolls of abrasive paper
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Published: 01 August 2013
Fig. 5.5 Thermal history for producing hot rolled DP steel strips. Source: Ref 5.3
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in Dual-Phase Steels
> Advanced High-Strength Steels: Science, Technology, and Applications, Second Edition
Published: 31 October 2024
Fig. 5.5 Thermal history for producing hot rolled dual-phase (DP) steel strips. M s , martensite start temperature. Source: Ref 5.3
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in Inductor Construction
> Handbook of Induction Soldering: Principles, Processing, and Applications
Published: 31 December 2024
Fig. 4.11 Cross-field inductor for heating sheet metal strips for various induction solders. Courtesy of ETP
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Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 January 2015
DOI: 10.31399/asm.tb.tpmpa.t54480243
EISBN: 978-1-62708-318-8
... or an external heat source is used. Special heaters that match the die contour are common, such as ceramic bodies with embedded resistance wires. In other instances, simple strip heaters or cartridge heaters are adapted to the process. Uniform temperature of the die surface is also essential. Forming...
Abstract
This chapter describes the equipment and processes used to form titanium alloy parts. It discusses the advantages and disadvantages of hot and cold forming, the factors that influence formability, and the effect of forming temperature and lubricants. It describes common processes, including brake forming, stretch forming, deep drawing, and spin forming as well as roll forming, drop-hammer forming, tube bulging and bending, and superplastic forming. It also discusses dimpling and joggling and the use of hot sizing to correct springback.
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Published: 01 August 2012
Fig. 7.6 Setup for strip reduction. A, strip; B, hardened steel rod; C, pressing block; D, distance sheet; E, vertical piston; F, horizontal piston with claw; G, tools. Source: Ref 7.12
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Published: 30 September 2023
Figure 8.1: Geometry of the rolling process. (a) Strip thickness and roll and strip velocities; (b) detail of the roll gap, showing roll and friction stresses acting on the workpiece. The dashed lines illustrate a deformed roll, as described in Eq. (8.19) .
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in Special Applications of Induction Heating
> Elements of Induction Heating: Design, Control, and Applications
Published: 01 June 1988
Fig. 11.8 Induction heating arrangement used to strip 152-cm (60-in.) printing rolls Source: American Induction Heating Corp.
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in Special Applications of Induction Heating
> Elements of Induction Heating: Design, Control, and Applications
Published: 01 June 1988
Fig. 11.9 Typical setup for stripping rubber by an induction heating method Source: Lepel Corp.
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Published: 01 December 2006
Fig. 4.42 Subgrain formation in Al99.99 (hot strip). The width is approminately 8.4 μm [ Grz 93 ]
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Published: 01 August 2012
Fig. 7.23 Steel strip used for the experiment and the temperature measurement point. Dimensions are in meters. Source: Ref 7.20
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Published: 01 August 2005
Fig. 1.24 Production of foil directly from a molten charge by strip casting. Source: Vacuumschelze GmbH, Germany
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Published: 01 August 2005
Fig. 1.25 Examples of foil strip produced by rapid-solidification casting technology. Source: Fleetwood et al. [1988]
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Published: 01 August 2005
Fig. 1.27 Metallographic cross section of a stainless steel strip clad on both sides with copper braze. In this case, the ratio of braze cladding to core material is in the ratio 5/90/5.
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Published: 01 August 2005
Fig. 5.13 Progressive recovery of the ductility of strip-cast foils of the 22 carat gold solder 91.6Au-6.8Ge-1.6Si, during heat treatment at 285 °C (545 °F)
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