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Series: ASM Technical Books
Publisher: ASM International
Published: 01 January 2015
DOI: 10.31399/asm.tb.tpmpa.t54480243
EISBN: 978-1-62708-318-8
..., 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. forming lubricants titanium alloys...
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Published: 01 January 2017
Fig. 11.8 Effect of hoop stress on the rupture time of cold worked Zircaloy-4 tubing with the addition of 8 × 10 −3 g/cm 2 of iodine at 427 °C (800 °F). Source: Ref 11.45 More
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Published: 01 September 2008
Fig. 26 A 4140 grade steel seamless tubing that failed because of quench cracks. (a) Cross section of tube showing extensive cracking revealed by dye-penetrant inspection. (b) SEM micrograph showing intergranular fracture at a crack origin. Original magnification: 90×. (c) SEM micrograph More
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Published: 01 June 2016
Fig. 9.27 Hydraulic tubing with commercially pure titanium powder deposited to prevent chafing. (a) Tube in the as-sprayed condition. (b) Same area after a surface finish. Courtesy of South Dakota School of Mines and Technology More
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Published: 01 June 2016
Fig. 11.11 (a) Chafing of hydraulic tubing. (b) Repair by cold-sprayed titanium. Source: Ref 11.16 More
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Published: 01 April 2013
Fig. 1 Typical flaws in resistance welded steel tubing, (a) contact marks (electrode burns), (b) hook cracks (upturned fiber flaws), (c) weld area crack, (d) pinhole, (e) stitching. Views (c), (d), and (e) are mating fracture surfaces of welds. Source: Ref 1 More
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Published: 01 April 2013
Fig. 3 Setup for the flux leakage inspection of welded steel tubing. Source: Ref 1 More
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Published: 01 April 2013
Fig. 4 Typical flaws in seamless tubing, (a) blister, (b) gouge, (c) lamination, (d) lap (arrow), (e) pit, (f) plug scores, (g) rolled-in slugs, (h) scab, (i) seam (arrow). Source: Ref 1 More
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Published: 01 November 2011
Fig. 10.21 Steps in making a Housekeeper seal between copper and glass tubing: (1) the copper tube has to be thinned; (2) a glass bead is applied to the edge of the thinned copper tube; and (3) the glass tubing is then sealed to the bead. Source: Ref 10.6 More
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Published: 01 December 2006
Fig. 16 Autogenous weld microstructure of ASTM A-268, Grade 430 tubing. Light phase—ferrite, dark phase—martensite. Vilella’s etch. (a) 50× and (b) 500×. Source: Ref 30 More
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Published: 01 September 2011
Fig. 6.28 Small diameter long tubing More
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Published: 01 June 1988
Fig. 8.26 Single-turn, multiplace inductor with individual coils of copper tubing. From F. W. Curtis, High Frequency Induction Heating , McGraw-Hill, New York, 1950 ( Ref 1 ) More
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Published: 01 June 1988
Fig. 8.52 Heavy-wall tubing used in construction of induction coils More
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Published: 01 June 1988
Fig. 8.53 Comparative heating patterns produced by using round vs. square tubing for a solenoid induction coil. From M. G. Lozinskii, Industrial Applications of Induction Heating , Pergamon Press, London, 1969 ( Ref 2 ) More
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Published: 01 June 1988
Fig. 8.54 Mitering of square tubing to provide right-angle bends in an induction coil More
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Published: 01 June 1988
Fig. 8.55 Device used to flatten tubing during manufacture of induction coils Source: Lepel Corp. More
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Published: 01 June 1988
Fig. 8.56 Illustration of method for joining small- to large-diameter copper tubing for induction coils Source: F. W. Curtis, High Frequency Induction Heating, McGraw-Hill, New York, 1950 More
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Published: 01 August 2015
Fig. 4.12 Single-turn radio frequency tubing coil. Source: Ref 12 More
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Published: 01 August 2015
Fig. 4.20 Two-turn tubing coil. Source: Ref 12 More
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Published: 01 August 2015
Fig. 4.31 Multiturn coil rectangular tubing. Source: Ref 12 More