Channel configuration effects in 3D-ECAP

A. Rosochowski; L. Olejnik; M. Richert

Channel configuration effects in 3D-ECAP

A. Rosochowski, L. Olejnik, M. Richert

Design, Manufacturing And Engineering Management

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

This paper explains the concept of 3D-ECAP with "in-die rotation" and presents the results of experiments for two sets of tooling with channel passages orientated at 90º and 120º. The results for aluminium 1070 are compared in terms of the process force, billet end effects, mechanical properties and structure of the material.

Original language	English
Pages (from-to)	179-184
Number of pages	5
Journal	Materials Science Forum
Volume	503-4
Publication status	Published - 2006

Keywords

3D-ECAP
channel configuration
die design
1070 aluminium
UFG structure
mechanical properties

Cite this

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title = "Channel configuration effects in 3D-ECAP",

abstract = "This paper explains the concept of 3D-ECAP with {"}in-die rotation{"} and presents the results of experiments for two sets of tooling with channel passages orientated at 90º and 120º. The results for aluminium 1070 are compared in terms of the process force, billet end effects, mechanical properties and structure of the material.",

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author = "A. Rosochowski and L. Olejnik and M. Richert",

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volume = "503-4",

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journal = "Materials Science Forum",

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T1 - Channel configuration effects in 3D-ECAP

AU - Rosochowski, A.

AU - Olejnik, L.

AU - Richert, M.

PY - 2006

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N2 - This paper explains the concept of 3D-ECAP with "in-die rotation" and presents the results of experiments for two sets of tooling with channel passages orientated at 90º and 120º. The results for aluminium 1070 are compared in terms of the process force, billet end effects, mechanical properties and structure of the material.

AB - This paper explains the concept of 3D-ECAP with "in-die rotation" and presents the results of experiments for two sets of tooling with channel passages orientated at 90º and 120º. The results for aluminium 1070 are compared in terms of the process force, billet end effects, mechanical properties and structure of the material.

KW - 3D-ECAP

KW - channel configuration

KW - die design

KW - 1070 aluminium

KW - UFG structure

KW - mechanical properties

UR - http://www.scientific.net/0-87849-985-7/179/

M3 - Article

SN - 1662-9760

VL - 503-4

SP - 179

EP - 184

JO - Materials Science Forum

JF - Materials Science Forum

ER -

Channel configuration effects in 3D-ECAP

Abstract

Keywords

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