Thermal Analysis and Modeling of Steady-State Rod Growth During Gas-Phase Solid Freeform Fabrication

Solid Freeform Fabrication at The University of Connecticut

Harrison, Shay
Crocker, James E.
Manzur, Tariq
Marcus, Harris L.

January 1996

Gas phase solid freeform fabrication research at The University of Connecticut focuses on two main ...

Process Maps for Controlling Residual Stress and Melt Pool Size in Laser-Based SFF Processes 200

Vasinonta, Aditad
Beuth, Jack
Griffith, Michelle

January 2000

Thermal control of solid freeform fabrication processes is critical for obtaining consistent build c...

Precision LCVD System Design with Real Time Process Control

Jean, Daniel L.
Duty, Chad E.
Fuhrman, Brian T.
Lackey, W. Jack

January 1999

A Laser Chemical Vapor Deposition (LCVD) system was designed using a fixed 100 Watt C02 laser focus...

Thermal Analysis and Modeling of Steady-State Rod Growth During Gas-Phase Solid Freeform Fabrication

Maxwell, James L.
Pegna, Joseph

January 1993

An analysis ofthe steady-state growth ofrods during gas-phase solidfreeform fabrication is presente...

Gas-Phase Laser-Induced Pyrolysis of Tapered Microstructures

Maxwell, James
Pegna, Joseph
Hill, Eric

January 1995

Gas-phase Selective Area Laser Deposition (SALD) is a useful freeform fabrication tool for the prot...

Modeling and experimental verification of growth of an axisymmetric cylindrical rod by three-dimensional laser-induced chemical vapor deposition

Chen, Qing

April 2002

Three-dimensional laser-induced chemical vapor deposition (3D-LCVD) is a recently developed micro-ma...

Integrated modeling and parallel computation of laser-induced axisymmetric rod growth

Lan, Hong

April 2005

To fully investigate a pyrolytic Laser-induced chemical vapor deposition (LCVD) system for growing a...

Layered Micro-Wall Structures from the Gas Phase

Messia, David
Pegna, Joseph
Lee, Woo Ho

January 1997

The use of3-D LCVD with volumetric rate feedback was investigated in the fabrication ofmicromechani...

Mathematical modeling for fabricating a microstructure with a pre-specified geometry using laser -induced chemical vapor deposition

Zhang, Chaoyang

January 2001

Laser-induced chemical vapor deposition (LCVD) is an emerging new technique with many practical appl...

Process Maps for Laser Deposition of Thin-Walled Structures

Vasinonta, Aditad
Beuth, Jack
Griffith, Michelle

January 1999

In solid freeform fabrication (SFF) processes involving thermal deposition, thermal control of the ...

Direct Feedback Control of Gas-Phase Laser-Induced Deposition

Maxwell, J. L.
Pegna, J.
Messia, D.
DeAngelis, D.

January 1996

Three-dimensional laser Chemical vapor deposition (3D-LCVD) or SALD, was used to prototype metallic...

Thermal Process Maps for Controlling Microstructure in Laser-Based Solid Freeform Fabrication

Bontha, Srikanth
Klingbeil, Nathan W.

January 2003

The ability to predict and control microstructure in laser deposited materials requires an understa...

Trussed Structures: FreeForm Fabrication without the Layers

Pegna, Joseph
Messia, David
Lee, Woo Ho

Recent progress in 3D-LCVD have demonstrated the advantages ofrod micro-fabrication, both from the ...

Process Maps for Laser Deposition of Thin-Walled Structures,” Solid Freeform Fabrication Proceedings

Aditad Vasinonta
Jack Beuth
Michelle Griffith

January 1999

In solid freeform fabrication (SFF) processes involving thermal deposition, thermal control of the p...

Heat Transfer Analysis of a Gas-Jet Laser Chemical Vapor Deposition (LCVD) Process 461

Duty, Chad E.
Fuhrman, Brian T.
Jean, Daniel L.
Lackey, W. Jack

January 2000

This paper describes the development of a computer model used to characterize the heat transfer prop...

Solid Freeform Fabrication at The University of Connecticut

Harrison, Shay
Crocker, James E.
Manzur, Tariq
Marcus, Harris L.

January 1996

Gas phase solid freeform fabrication research at The University of Connecticut focuses on two main ...

Process Maps for Controlling Residual Stress and Melt Pool Size in Laser-Based SFF Processes 200

Vasinonta, Aditad
Beuth, Jack
Griffith, Michelle

January 2000

Thermal control of solid freeform fabrication processes is critical for obtaining consistent build c...

Precision LCVD System Design with Real Time Process Control

Jean, Daniel L.
Duty, Chad E.
Fuhrman, Brian T.
Lackey, W. Jack

January 1999

A Laser Chemical Vapor Deposition (LCVD) system was designed using a fixed 100 Watt C02 laser focus...

Thermal Analysis and Modeling of Steady-State Rod Growth During Gas-Phase Solid Freeform Fabrication

Maxwell, James L.
Pegna, Joseph

January 1993

An analysis ofthe steady-state growth ofrods during gas-phase solidfreeform fabrication is presente...

Gas-Phase Laser-Induced Pyrolysis of Tapered Microstructures

Maxwell, James
Pegna, Joseph
Hill, Eric

January 1995

Gas-phase Selective Area Laser Deposition (SALD) is a useful freeform fabrication tool for the prot...

Modeling and experimental verification of growth of an axisymmetric cylindrical rod by three-dimensional laser-induced chemical vapor deposition

Chen, Qing

April 2002

Three-dimensional laser-induced chemical vapor deposition (3D-LCVD) is a recently developed micro-ma...

Integrated modeling and parallel computation of laser-induced axisymmetric rod growth

Lan, Hong

April 2005

To fully investigate a pyrolytic Laser-induced chemical vapor deposition (LCVD) system for growing a...

Layered Micro-Wall Structures from the Gas Phase

Messia, David
Pegna, Joseph
Lee, Woo Ho

January 1997

The use of3-D LCVD with volumetric rate feedback was investigated in the fabrication ofmicromechani...

Mathematical modeling for fabricating a microstructure with a pre-specified geometry using laser -induced chemical vapor deposition

Zhang, Chaoyang

January 2001

Laser-induced chemical vapor deposition (LCVD) is an emerging new technique with many practical appl...

Process Maps for Laser Deposition of Thin-Walled Structures

Vasinonta, Aditad
Beuth, Jack
Griffith, Michelle

January 1999

In solid freeform fabrication (SFF) processes involving thermal deposition, thermal control of the ...

Direct Feedback Control of Gas-Phase Laser-Induced Deposition

Maxwell, J. L.
Pegna, J.
Messia, D.
DeAngelis, D.

January 1996

Three-dimensional laser Chemical vapor deposition (3D-LCVD) or SALD, was used to prototype metallic...

Thermal Process Maps for Controlling Microstructure in Laser-Based Solid Freeform Fabrication

Bontha, Srikanth
Klingbeil, Nathan W.

January 2003

The ability to predict and control microstructure in laser deposited materials requires an understa...

Trussed Structures: FreeForm Fabrication without the Layers

Pegna, Joseph
Messia, David
Lee, Woo Ho

Recent progress in 3D-LCVD have demonstrated the advantages ofrod micro-fabrication, both from the ...

Process Maps for Laser Deposition of Thin-Walled Structures,” Solid Freeform Fabrication Proceedings

Aditad Vasinonta
Jack Beuth
Michelle Griffith

January 1999

In solid freeform fabrication (SFF) processes involving thermal deposition, thermal control of the p...

Heat Transfer Analysis of a Gas-Jet Laser Chemical Vapor Deposition (LCVD) Process 461

Duty, Chad E.
Fuhrman, Brian T.
Jean, Daniel L.
Lackey, W. Jack

January 2000

This paper describes the development of a computer model used to characterize the heat transfer prop...

Solid Freeform Fabrication at The University of Connecticut

Harrison, Shay
Crocker, James E.
Manzur, Tariq
Marcus, Harris L.

January 1996

Gas phase solid freeform fabrication research at The University of Connecticut focuses on two main ...

Process Maps for Controlling Residual Stress and Melt Pool Size in Laser-Based SFF Processes 200

Vasinonta, Aditad
Beuth, Jack
Griffith, Michelle

January 2000

Thermal control of solid freeform fabrication processes is critical for obtaining consistent build c...

Precision LCVD System Design with Real Time Process Control

Jean, Daniel L.
Duty, Chad E.
Fuhrman, Brian T.
Lackey, W. Jack

January 1999

A Laser Chemical Vapor Deposition (LCVD) system was designed using a fixed 100 Watt C02 laser focus...

Thermal Analysis and Modeling of Steady-State Rod Growth During Gas-Phase Solid Freeform Fabrication

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