Formability of Porous Tantalum Sheet-Metal

Paul S. Nebosky; Steven R. Schmid

Source: Journal of Manufacturing Science and Engineering:;2011:;volume( 133 ):;issue: 006::page 61006

Author:

Paul S. Nebosky

Steven R. Schmid

DOI: 10.1115/1.4005353

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Over the past 10 years, a novel cellular solid, Trabecular MetalTM (TM), has been developed for use in the orthopedics industry as an ingrowth scaffold. Manufactured using chemical vapor deposition (CVD) on top of a graphite foam substrate, this material has a regular matrix of interconnecting pores, high strength, and high porosity. Manufacturing difficulties encourage the application of stamping and forming technologies to increase CVD reactor throughput and reduce materials wastes. In this study, the formability of TM was evaluated using a novel camera-based system for measuring surface strains, since the conventional approach of printing or etching gridded patterns was not feasible. A forming limit diagram was then obtained using specially fabricated 1.65 mm thick sheets. No lubricant was used due to the cleanliness requirements for orthopedic implants.

keyword(s): Deformation , Metals , Manufacturing , Sheet metal , Chemical vapor deposition , Testing , Orthopedics , Porosity , Tantalum , Brittleness , Lubricants , Fracture (Process) , Bone , Printing AND Graphite ,

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Formability of Porous Tantalum Sheet-Metal

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contributor author	Paul S. Nebosky
contributor author	Steven R. Schmid
date accessioned	2017-05-09T00:45:19Z
date available	2017-05-09T00:45:19Z
date copyright	December, 2011
date issued	2011
identifier issn	1087-1357
identifier other	JMSEFK-28500#061006_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/146807
description abstract	Over the past 10 years, a novel cellular solid, Trabecular MetalTM (TM), has been developed for use in the orthopedics industry as an ingrowth scaffold. Manufactured using chemical vapor deposition (CVD) on top of a graphite foam substrate, this material has a regular matrix of interconnecting pores, high strength, and high porosity. Manufacturing difficulties encourage the application of stamping and forming technologies to increase CVD reactor throughput and reduce materials wastes. In this study, the formability of TM was evaluated using a novel camera-based system for measuring surface strains, since the conventional approach of printing or etching gridded patterns was not feasible. A forming limit diagram was then obtained using specially fabricated 1.65 mm thick sheets. No lubricant was used due to the cleanliness requirements for orthopedic implants.
publisher	The American Society of Mechanical Engineers (ASME)
title	Formability of Porous Tantalum Sheet-Metal
type	Journal Paper
journal volume	133
journal issue	6
journal title	Journal of Manufacturing Science and Engineering
identifier doi	10.1115/1.4005353
journal fristpage	61006
identifier eissn	1528-8935
keywords	Deformation
keywords	Metals
keywords	Manufacturing
keywords	Sheet metal
keywords	Chemical vapor deposition
keywords	Testing
keywords	Orthopedics
keywords	Porosity
keywords	Tantalum
keywords	Brittleness
keywords	Lubricants
keywords	Fracture (Process)
keywords	Bone
keywords	Printing AND Graphite
tree	Journal of Manufacturing Science and Engineering:;2011:;volume( 133 ):;issue: 006
contenttype	Fulltext

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