Laser additive manufacturing of oxide dispersion strengthened steels using laser-generated nanoparticle-metal composite powders

On the laser additive manufacturing of metal matrix composites

Mertens, Anne
L'Hoest, Thibaut
Lecomte-Beckers, Jacqueline
Magnien, Julien
Carrus, Raoul

May 2016

This paper reviews the challenges and opportunities related to the production of of metal matrix com...

Aluminum with dispersed nanoparticles by laser additive manufacturing

Lin, Ting-Chiang
Cao, Chezheng
Sokoluk, Maximilian
Jiang, Lin
Wang, Xin
Schoenung, Julie M
Lavernia, Enrique J
Li, Xiaochun

January 2019

While laser-printed metals do not tend to match the mechanical properties and thermal stability of c...

Oxide dispersion strengthened stainless steel 316L with superior strength and ductility by selective laser melting

Zhong, Yuan
Liu, Leifeng
Zou, Ji
Li, Xiaodong
Cui, Daqing
Shen, Zhijian

April 2020

Dense oxide dispersion strengthened (ODS) 316 L steels with different amount of Y2O3 additions were ...

Depositing laser-generated nanoparticles on powders for additive manufacturing of oxide dispersed strengthened alloy parts via laser metal deposition

Streubel, R.
Wilms, M.B.
Doñate-Buendía, C.
Weisheit, A.
Barcikowski, S.
Schleifenbaum, J.H.
Gökce, B.

January 2018

We present a novel route for the adsorption of pulsed laser-dispersed nanoparticles onto metal powde...

Effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels produced by laser powder bed fusion and directed energy deposition

Doñate-Buendía, C.
Streubel, R.
Kürnsteiner, P.
Wilms, M.
Stern, F.
Tenkamp, J.
Bruder, E.
Barcikowski, S.
Gault, B.
Durst, K.
Schleifenbaum, J.
Walther, F.
Gökce, B.

January 2020

In this contribution, the effect of nanoparticle additivation on the microstructure and microhardnes...

Oxide dispersion strengthening of γ-TiAl by laser additive manufacturing

Rittinghaus, S.-K.
Wilms, M.B.

January 2019

γ-TiAl alloys, as a more and more frequently considered high-temperature material, face the challeng...

Laser additive manufacturing of oxide dispersion strengthened steels and Cu-Cr-Nb alloys

Kini, Anoop Raghunath

January 2019

Laser additive manufacturing (LAM) of metallic alloys has emerged as a promising manufacturing proce...

Laser-powder bed fusion in-process dispersion of reinforcing ceramic nanoparticles onto powder beds via colloid nebulisation

Mussatto, Andre
Groarke, Robert
Vijayaraghavan, Rajani K.
Obeidi, Muhannad A.
MacLoughlin, Ronan
McNally, Patrick J.
Nicolosi, Valeria
Delauré, Yan
Brabazon, Dermot

May 2022

Functionally grading material composition in laser-powder bed fusion grants the potential for manufa...

Laser Additive Manufacturing of Metal Matrix Composites

Mertens, Anne

November 2016

Current trends in the mechanics and energy industries impose increasing demands on metallic materia...

Elaboration of Oxide Dispersion Strengthened Fe-14Cr Steel by Selective Laser Melting

Vasquez, E.
Giroux, Pf.
Lomello, F.
Maskrot, H.
Castany, P.
Schuster, F.

January 2019

International audienceThis study investigates the feasibility to produce complex ODS Fe-14Cr steel p...

Additive Manufacturing of High-Performance 316L Stainless Steel Nanocomposites via Selective Laser Melting

AlMangour, Bandar Abdulaziz

January 2017

Austenitic 316L stainless steel alloy is an attractive industrial material combining outstanding cor...

Elaboration d’aciers renforcés par dispersion d’oxydes par procédé de fusion sélective par laser: Influence des paramètres opératoires et des caractéristiques de la poudre sur les propriétés des matériaux élaborés

Vasquez, E.

November 2019

Oxide dispersion strengthened (ODS) ferritic steels have high creep strength and high irradiation re...

Improved Process Efficiency in Laser-Based Powder Bed Fusion of Nanoparticle Coated Maraging Tool Steel Powder

Oliver Pannitz
Felix Großwendt
Arne Lüddecke
Arno Kwade
Arne Röttger
Jan Torsten Sehrt

June 2021

Research and development in the field of metal-based additive manufacturing are advancing steadily e...

Improved process efficiency in laser-based powder bed fusion of nanoparticle coated maraging tool steel powder

Pannitz, Oliver (M.Sc.)
Großwendt, Felix
Lüddecke, Arne (M.Sc.)
Kwade, Arno (Prof. Dr.-Ing.)
Röttger, Arne (Prof. Dr.-Ing.)
Sehrt, Jan T. (Prof. Dr.-Ing.)

June 2021

Research and development in the field of metal-based additive manufacturing are advancing steadily e...

Laser-based powder bed fusion of stainless steels

Riabov, Dmitri

January 2022

The aim of the present work has been to widen the knowledge of how variations within powder manufact...

On the laser additive manufacturing of metal matrix composites

Mertens, Anne
L'Hoest, Thibaut
Lecomte-Beckers, Jacqueline
Magnien, Julien
Carrus, Raoul

May 2016

This paper reviews the challenges and opportunities related to the production of of metal matrix com...

Aluminum with dispersed nanoparticles by laser additive manufacturing

Lin, Ting-Chiang
Cao, Chezheng
Sokoluk, Maximilian
Jiang, Lin
Wang, Xin
Schoenung, Julie M
Lavernia, Enrique J
Li, Xiaochun

January 2019

While laser-printed metals do not tend to match the mechanical properties and thermal stability of c...

Oxide dispersion strengthened stainless steel 316L with superior strength and ductility by selective laser melting

Zhong, Yuan
Liu, Leifeng
Zou, Ji
Li, Xiaodong
Cui, Daqing
Shen, Zhijian

April 2020

Dense oxide dispersion strengthened (ODS) 316 L steels with different amount of Y2O3 additions were ...

Depositing laser-generated nanoparticles on powders for additive manufacturing of oxide dispersed strengthened alloy parts via laser metal deposition

Streubel, R.
Wilms, M.B.
Doñate-Buendía, C.
Weisheit, A.
Barcikowski, S.
Schleifenbaum, J.H.
Gökce, B.

January 2018

We present a novel route for the adsorption of pulsed laser-dispersed nanoparticles onto metal powde...

Effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels produced by laser powder bed fusion and directed energy deposition

Doñate-Buendía, C.
Streubel, R.
Kürnsteiner, P.
Wilms, M.
Stern, F.
Tenkamp, J.
Bruder, E.
Barcikowski, S.
Gault, B.
Durst, K.
Schleifenbaum, J.
Walther, F.
Gökce, B.

January 2020

In this contribution, the effect of nanoparticle additivation on the microstructure and microhardnes...

Oxide dispersion strengthening of γ-TiAl by laser additive manufacturing

Rittinghaus, S.-K.
Wilms, M.B.

January 2019

γ-TiAl alloys, as a more and more frequently considered high-temperature material, face the challeng...

Laser additive manufacturing of oxide dispersion strengthened steels and Cu-Cr-Nb alloys

Kini, Anoop Raghunath

January 2019

Laser additive manufacturing (LAM) of metallic alloys has emerged as a promising manufacturing proce...

Laser-powder bed fusion in-process dispersion of reinforcing ceramic nanoparticles onto powder beds via colloid nebulisation

Mussatto, Andre
Groarke, Robert
Vijayaraghavan, Rajani K.
Obeidi, Muhannad A.
MacLoughlin, Ronan
McNally, Patrick J.
Nicolosi, Valeria
Delauré, Yan
Brabazon, Dermot

May 2022

Functionally grading material composition in laser-powder bed fusion grants the potential for manufa...

Laser Additive Manufacturing of Metal Matrix Composites

Mertens, Anne

November 2016

Current trends in the mechanics and energy industries impose increasing demands on metallic materia...

Elaboration of Oxide Dispersion Strengthened Fe-14Cr Steel by Selective Laser Melting

Vasquez, E.
Giroux, Pf.
Lomello, F.
Maskrot, H.
Castany, P.
Schuster, F.

January 2019

International audienceThis study investigates the feasibility to produce complex ODS Fe-14Cr steel p...

Additive Manufacturing of High-Performance 316L Stainless Steel Nanocomposites via Selective Laser Melting

AlMangour, Bandar Abdulaziz

January 2017

Austenitic 316L stainless steel alloy is an attractive industrial material combining outstanding cor...

Elaboration d’aciers renforcés par dispersion d’oxydes par procédé de fusion sélective par laser: Influence des paramètres opératoires et des caractéristiques de la poudre sur les propriétés des matériaux élaborés

Vasquez, E.

November 2019

Oxide dispersion strengthened (ODS) ferritic steels have high creep strength and high irradiation re...

Improved Process Efficiency in Laser-Based Powder Bed Fusion of Nanoparticle Coated Maraging Tool Steel Powder

Oliver Pannitz
Felix Großwendt
Arne Lüddecke
Arno Kwade
Arne Röttger
Jan Torsten Sehrt

June 2021

Research and development in the field of metal-based additive manufacturing are advancing steadily e...

Improved process efficiency in laser-based powder bed fusion of nanoparticle coated maraging tool steel powder

Pannitz, Oliver (M.Sc.)
Großwendt, Felix
Lüddecke, Arne (M.Sc.)
Kwade, Arno (Prof. Dr.-Ing.)
Röttger, Arne (Prof. Dr.-Ing.)
Sehrt, Jan T. (Prof. Dr.-Ing.)

June 2021

Research and development in the field of metal-based additive manufacturing are advancing steadily e...

Laser-based powder bed fusion of stainless steels

Riabov, Dmitri

January 2022

The aim of the present work has been to widen the knowledge of how variations within powder manufact...

On the laser additive manufacturing of metal matrix composites

Mertens, Anne
L'Hoest, Thibaut
Lecomte-Beckers, Jacqueline
Magnien, Julien
Carrus, Raoul

May 2016

This paper reviews the challenges and opportunities related to the production of of metal matrix com...

Aluminum with dispersed nanoparticles by laser additive manufacturing

Lin, Ting-Chiang
Cao, Chezheng
Sokoluk, Maximilian
Jiang, Lin
Wang, Xin
Schoenung, Julie M
Lavernia, Enrique J
Li, Xiaochun

January 2019

While laser-printed metals do not tend to match the mechanical properties and thermal stability of c...

Oxide dispersion strengthened stainless steel 316L with superior strength and ductility by selective laser melting

Zhong, Yuan
Liu, Leifeng
Zou, Ji
Li, Xiaodong
Cui, Daqing
Shen, Zhijian

April 2020

Dense oxide dispersion strengthened (ODS) 316 L steels with different amount of Y2O3 additions were ...

Laser additive manufacturing of oxide dispersion strengthened steels using laser-generated nanoparticle-metal composite powders

Abstract

Extracted data

Laser additive manufacturing of oxide dispersion strengthened steels using laser-generated nanoparticle-metal composite powders

Abstract

Extracted data

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