Skip Nav Destination
Close Modal
Search Results for
tooling
Update search
Filter
- Title
- Authors
- Author Affiliations
- Full Text
- Abstract
- Keywords
- DOI
- ISBN
- EISBN
- Issue
- ISSN
- EISSN
- Volume
- References
Filter
- Title
- Authors
- Author Affiliations
- Full Text
- Abstract
- Keywords
- DOI
- ISBN
- EISBN
- Issue
- ISSN
- EISSN
- Volume
- References
Filter
- Title
- Authors
- Author Affiliations
- Full Text
- Abstract
- Keywords
- DOI
- ISBN
- EISBN
- Issue
- ISSN
- EISSN
- Volume
- References
Filter
- Title
- Authors
- Author Affiliations
- Full Text
- Abstract
- Keywords
- DOI
- ISBN
- EISBN
- Issue
- ISSN
- EISSN
- Volume
- References
Filter
- Title
- Authors
- Author Affiliations
- Full Text
- Abstract
- Keywords
- DOI
- ISBN
- EISBN
- Issue
- ISSN
- EISSN
- Volume
- References
Filter
- Title
- Authors
- Author Affiliations
- Full Text
- Abstract
- Keywords
- DOI
- ISBN
- EISBN
- Issue
- ISSN
- EISSN
- Volume
- References
NARROW
Format
Topics
Book Series
Date
Availability
1-20 of 1823 Search Results for
tooling
Follow your search
Access your saved searches in your account
Would you like to receive an alert when new items match your search?
1
Sort by
Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2006
DOI: 10.31399/asm.tb.ex2.t69980417
EISBN: 978-1-62708-342-3
... Abstract This chapter begins with a description of the requirements of tooling and tooling material for hot extrusion. It covers the processes of designing tool and die sets for direct and indirect extrusion. Next, the chapter provides information on extrusion tooling and die sets for direct...
Abstract
This chapter begins with a description of the requirements of tooling and tooling material for hot extrusion. It covers the processes of designing tool and die sets for direct and indirect extrusion. Next, the chapter provides information on extrusion tooling and die sets for direct external and internal shape production and tools for copper alloy extrusion. Further, it addresses design, calculation, and dimensioning of single-piece and two-part containers and describes induction heating for containers. Information on static- and elastic-based analysis and dimensioning of containers loaded in three dimensions is provided. Examples of calculations for different containers, along with their stresses and dimensions, are presented and the manufacture, operation, and maintenance of containers are described. The chapter further discusses the properties and applications of hot working materials for the manufacture of extrusion tooling and of different extruded materials for the manufacture of extrusion tooling for direct and indirect forming.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 November 2010
DOI: 10.31399/asm.tb.scm.t52870101
EISBN: 978-1-62708-314-0
... Abstract This chapter discusses the tooling used for autoclave curing, one of the most common composite fabrication processes. The discussion covers curing practices, material selection factors, and design challenges associated with thermal expansion, tool shrinkage, part complexity...
Abstract
This chapter discusses the tooling used for autoclave curing, one of the most common composite fabrication processes. The discussion covers curing practices, material selection factors, and design challenges associated with thermal expansion, tool shrinkage, part complexity, and heating and cooling rates. The chapter also includes best practices and recommendations for toolmaking and assembly.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 March 2000
DOI: 10.31399/asm.tb.aet.t68260087
EISBN: 978-1-62708-336-2
... Abstract This chapter familiarizes readers with the design, configuration, and function of tooling and dies used to extrude aluminum alloys. It discuses basic design considerations, including the geometry, location, and orientation of die openings; allowances for thermal shrinkage, stretching...
Abstract
This chapter familiarizes readers with the design, configuration, and function of tooling and dies used to extrude aluminum alloys. It discuses basic design considerations, including the geometry, location, and orientation of die openings; allowances for thermal shrinkage, stretching, and deflection; and the length and profile of bearing surfaces. It outlines the steps and processes involved in die making, describes the selection and treatment of die materials, and examines the factors that influence friction and wear. It also discusses the general procedures for on-site die correction.
Image
Published: 01 August 2012
Fig. 9.29 Tube hydroforming (THF) tooling composition. (a) Major THF tooling components. (b) Typical tooling for engine cradle. (c) Detailed tooling cross section. Source: Ref 9.18 , 9.19
More
Image
Published: 01 October 2012
Fig. 2.19 Tooling and setup for rubber pad forming. Dimensions given in inches. Source: Ref 2.18
More
Image
Published: 01 August 2012
Fig. 8.28 The tooling used to form the rectangular cup was instrumented to measure the loads and stroke during the deformation. Source: Ref 8.18
More
Image
Published: 01 August 2012
Fig. 11.15 Tooling designed for precision blanking (tool design by Todo Kogyo). Source: Ref 11.9
More
Image
Published: 01 August 2012
Fig. 11.22 Schematic of tooling and sequence of operations used in warm forming. Source: Ref 11.16
More
Image
Published: 01 August 2012
Fig. 11.24 Round cups formed in a servo-drive press with heated tooling. Source: Ref 11.16
More
Image
Published: 01 December 2006
Fig. 6.26 Components of an indirect-extrusion press with tooling
More
Image
Published: 01 December 2006
Fig. 6.31 Direct tube extrusion tooling. Source: Schmidt & Clemans
More
Image
Published: 01 January 1998
Fig. 2-4 Tooling for cold forming a hexagon nut. (a) First operation: upsetting. (b) Second operation: upsetting and chamfering. (c) Third operation: forming and prepiercing. (d) Final operation: piercing
More
Image
Published: 01 January 2022
Fig. 6.32 Tooling correction based on pre-production capability analysis. Source: Ref 6
More
Image
Published: 01 January 2022
Fig. 12.44 Tooling correction based on preproduction capability analysis. Source: Ref 4
More
Image
in Attributes of Advanced High-Strength Steels
> Advanced-High Strength Steels: Science, Technology, and Applications
Published: 01 August 2013
Fig. 4.11 Tooling used for the forming limit diagram and limiting dome height tests. Source: Ref 4.1
More
Image
in Attributes of Advanced High-Strength Steels
> Advanced-High Strength Steels: Science, Technology, and Applications
Published: 01 August 2013
Fig. 4.12 Limiting dome height tooling and measurements for TRIP 600 and HSLA 550 steels. Source: Ref 4.1
More
Image
in Attributes of Advanced High-Strength Steels
> Advanced-High Strength Steels: Science, Technology, and Applications
Published: 01 August 2013
Fig. 4.16 Tooling for deep drawing of flat-bottomed cups
More
Image
in Consequences of Using Advanced High-Strength Steels
> Advanced-High Strength Steels: Science, Technology, and Applications
Published: 01 August 2013
Fig. 12.7 Tooling used for the springback U-channel draw test. Source: Ref 12.3
More
Image
in Innovative Forming Technologies
> Advanced-High Strength Steels: Science, Technology, and Applications
Published: 01 August 2013
Fig. 15.7 Sketch of an active drawbead tooling.
More
Image
Published: 30 April 2020
Fig. 6.8 Tooling pieces and assembly for die compaction of the cluster gear shown in the box. The two-level gear requires a core rod, inner and outer lower punches, die, and upper punch, with motions coordinated to properly position and compact the granules.
More
1