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1-20 of 2003
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Image
Improvements in heading tool design to eliminate tool failure in the produc...
Available to PurchasePublished: 01 January 2005
Fig. 11 Improvements in heading tool design to eliminate tool failure in the production of recessed-head screws. Dimensions given in inches
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Image
Original tool design used by The Welding Institute to develop the friction ...
Available to PurchasePublished: 31 October 2011
Fig. 4 Original tool design used by The Welding Institute to develop the friction stir welding process. Source: Ref 33
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Published: 01 January 2003
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Strip-reduction test tool design with its main components. See text for des...
Available to PurchasePublished: 15 January 2021
Fig. 21 Strip-reduction test tool design with its main components. See text for description. Adapted from Ref 95
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Tool design created a knit line in the center of the latch component subjec...
Available to PurchasePublished: 15 May 2022
Fig. 5 Tool design created a knit line in the center of the latch component subjected to repeated bending. The material at this position exhibits different mechanical properties from the material at other positions and fails in use—rather than flexing and returning to the original shape
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Series: ASM Handbook
Volume: 6A
Publisher: ASM International
Published: 31 October 2011
DOI: 10.31399/asm.hb.v06a.a0005629
EISBN: 978-1-62708-174-0
... for friction stir welding (FSW) pin tools, various tool geometries that have been used, designs for specific applications, predicting and measuring tool performance, and other considerations in FSW pin tool design. The tool materials include tool steels, superalloys, refractory metals, carbides and ceramics...
Abstract
A key differentiator between friction stir welding (FSW) and other friction welding processes is the presence of a nonconsumable tool in FSW, often referred to as a pin tool to differentiate it from other tooling associated with the process. This article discusses materials for friction stir welding (FSW) pin tools, various tool geometries that have been used, designs for specific applications, predicting and measuring tool performance, and other considerations in FSW pin tool design. The tool materials include tool steels, superalloys, refractory metals, carbides and ceramics, and superabrasives.
Image
Tooling designs for hybrid systems combining conventional tooling and elect...
Available to PurchasePublished: 01 January 2006
Fig. 4 Tooling designs for hybrid systems combining conventional tooling and electromagnetic forming. (a) General setup. (b) Closeup in one section. Source: Ref 9
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Blanking-tooling design to ensure proper edge preparation for laser welding...
Available to PurchasePublished: 01 January 2006
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Three types of rotary-cut broaching tools designed to penetrate rough skins...
Available to PurchasePublished: 01 January 1989
Fig. 17 Three types of rotary-cut broaching tools designed to penetrate rough skins, as on castings and forgings, without exceeding the power ratings of a broaching machine. (a) Hexagonal rotary cut. (b) Radial rotary cut. (c) Spline rotary cut
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Published: 01 November 2010
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Press setup and sample tooling design used for the hot compression of cylin...
Available to Purchase
in Measurement and Interpretation of Flow Stress Data for the Simulation of Metal-Forming Processes
> Metals Process Simulation
Published: 01 November 2010
Fig. 7 Press setup and sample tooling design used for the hot compression of cylinders and rings
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Published: 31 August 2017
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Published: 01 December 2008
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Published: 01 January 2006
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Changes in drill design to improve tool life in hand drilling Inconel X-750...
Available to PurchasePublished: 01 January 1989
Fig. 9 Changes in drill design to improve tool life in hand drilling Inconel X-750. Graph shows effects on tool life. All drills were of screw-machine length, with a diameter of 2.5 mm (0.098 in.) and a flute helix angle of 29°. Designs 1 and 2 had a web thickness of 0.5 mm (0.020
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Published: 01 January 1989
Book Chapter
Design, Tooling, and Manufacturing Interaction
Available to PurchaseBook: Composites
Series: ASM Handbook Archive
Volume: 21
Publisher: ASM International
Published: 01 January 2001
DOI: 10.31399/asm.hb.v21.a0003395
EISBN: 978-1-62708-195-5
... The role of the tool or mold is to impart the shape to the composite part during the manufacturing process. Tool design is based on the requirements for the tool to maintain its shape during the manufacturing process and is a function of the processing temperature, applied loads, and curing time...
Abstract
Designing composites for structural performance initially involves meeting a set of desired performance specifications at a minimum cost. This article discusses the factors that are considered in designing the manufacturing of polymeric composites. It describes the various aspects of manufacturing, forming process, and post-processing and fabrication for designing the composites.
Book: Composites
Series: ASM Handbook Archive
Volume: 21
Publisher: ASM International
Published: 01 January 2001
DOI: 10.31399/asm.hb.v21.a0003403
EISBN: 978-1-62708-195-5
... for composite tool design, such as master model or pattern design selection, fiber and fabric selection, resins, and surface coat and ply. Various tool laminate construction techniques, such as curing and demolding, and cutting and trimming, are reviewed. The article also describes the substructure design...
Abstract
Composite tooling is the making of tools from composite materials. This article focuses on wet lay-up methods and techniques that are used to fabricate prepreg tooling. It discusses the advantages and disadvantages of composite tools. The article describes the process considerations for composite tool design, such as master model or pattern design selection, fiber and fabric selection, resins, and surface coat and ply. Various tool laminate construction techniques, such as curing and demolding, and cutting and trimming, are reviewed. The article also describes the substructure design for the construction of tool laminates.
Book Chapter
Machining of Aluminum and Aluminum Alloys
Available to PurchaseBook: Machining
Series: ASM Handbook
Volume: 16
Publisher: ASM International
Published: 01 January 1989
DOI: 10.31399/asm.hb.v16.a0002184
EISBN: 978-1-62708-188-7
... Abstract This article begins with a discussion on the classification of aluminum alloys and the selection of alloy and temper based on machinability. It provides an overview of cutting force and power, tool design and material, and general machining conditions. In addition, the article...
Abstract
This article begins with a discussion on the classification of aluminum alloys and the selection of alloy and temper based on machinability. It provides an overview of cutting force and power, tool design and material, and general machining conditions. In addition, the article discusses distortion and dimensional variation and machining problems during the machining of high-silicon aluminum alloy. It also provides information on tool design and material, speed and feed, and the cutting fluid used for various machining processes, namely, turning, boring, planing and shaping, broaching, reaming, tapping, milling, sawing, grinding, honing, and lapping. The article concludes with a discussion on drilling operations in automatic bar and chucking machines and drill presses.
Book Chapter
Methods, Tools, and Software for Physical Process Analysis and Design
Available to PurchaseSeries: ASM Handbook
Volume: 4C
Publisher: ASM International
Published: 09 June 2014
DOI: 10.31399/asm.hb.v04c.a0005876
EISBN: 978-1-62708-167-2
... Abstract Designing of induction heating, or, generally electro technological installations, requires mathematical modeling for solving problems related to various physical phenomena, including electromagnetic (EM), thermal, mechanical, fluidic, and metallurgical fields. This article focuses...
Abstract
Designing of induction heating, or, generally electro technological installations, requires mathematical modeling for solving problems related to various physical phenomena, including electromagnetic (EM), thermal, mechanical, fluidic, and metallurgical fields. This article focuses on the solution of Maxwell's equations (MEs) and provides some basic information regarding the heat transfer and fluid equations, because these physical phenomena usually are strongly coupled to magnetic and electric fields. The solutions are usually obtained by using specific numerical methods such as finite-element method, finite difference method, boundary-element method or volume-integral method, and direct-solution method. The article also discusses the typical structure of commercial codes (preprocessor, solver, and postprocessor) to solve field problems mainly in finite-element method.
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