Universidad Rey Juan Carlos

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181 a 190 de 1.095 Resultados

Pub.5.General_Information.txt.txt 25 sept 2025 - Ti6Al4V/SiC Metal Matrix Composites Additively Manufactured by Direct Laser Deposition Texto plano - 4,1 KB - MD5: d626a0f7411fd2d93d21f730d4cd395b
Pub.5.tables.doc.docx 25 sept 2025 - Ti6Al4V/SiC Metal Matrix Composites Additively Manufactured by Direct Laser Deposition MS Word - 17,7 KB - MD5: b15c42b3758450124672ef564875d96a
Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition 25 sept 2025 SANCHEZ DE ROJAS CANDELA, CARMEN; Ainhoa Riquelme; Rodrigo Herrero, Pilar; Rams, Joaquin, 2025, "Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition", https://doi.org/10.21950/ZP1MS5, e-cienciaDatos, V1 We present the study of the relationship between the carrying gas (reactive or inert) and the process parameters of Direct Laser Deposition Additive Manufacturing in the manufacturing of Ti/TiN composite materiales.
Pub.7.data.xls.xlsx 25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition Hoja de cálculo MS Excel - 19,5 KB - MD5: edf79cdf41adc3363144004805b19792
Pub.7.Figures.ppt.pptx 25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition MS Powerpoint - 16,4 MB - MD5: f021de7b45e18c07501b19bec99f9fd4
Pub.7.General_Information.txt.txt 25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition Texto plano - 3,7 KB - MD5: ea4e4cdee8ea6d14457311d2109999cc
Pub.7.Tables.doc.docx 25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition MS Word - 25,1 KB - MD5: 15840fb4680db5eb5e6c56d818527e2c
A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion 25 sept 2025 SANCHEZ DE ROJAS CANDELA, CARMEN; Riquelme, A.; Rodrigo Herrero, Pilar; Bonache, Victoria; Bedmar Sanz, Javier; Torres, B.; Rams, Joaquin, 2025, "A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion", https://doi.org/10.21950/3B0UYD, e-cienciaDatos, V1 We proposed a novel methodology to fabricate in one step a multigrade titanium matrix composite reinforced with in situ TiN and a proof-of-concept hip implant by incorporating nitrogen during the L-PBF (Laser powder bed fusion) process.
Pub.12.Data.xls.xlsx 25 sept 2025 - A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion Hoja de cálculo MS Excel - 14,3 KB - MD5: 7960136f9afc9e5c8d64ee1078c18492
Pub.12.figuras.ppt.pptx 25 sept 2025 - A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion MS Powerpoint - 13,9 MB - MD5: dcc41dbdc802cda3abe08af9c75ef0a5

Pub.5.General_Information.txt.txt

25 sept 2025 - Ti6Al4V/SiC Metal Matrix Composites Additively Manufactured by Direct Laser Deposition

Texto plano - 4,1 KB -

Pub.5.tables.doc.docx

25 sept 2025 - Ti6Al4V/SiC Metal Matrix Composites Additively Manufactured by Direct Laser Deposition

MS Word - 17,7 KB -

Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition

25 sept 2025

SANCHEZ DE ROJAS CANDELA, CARMEN; Ainhoa Riquelme; Rodrigo Herrero, Pilar; Rams, Joaquin, 2025, "Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition", https://doi.org/10.21950/ZP1MS5, e-cienciaDatos, V1

We present the study of the relationship between the carrying gas (reactive or inert) and the process parameters of Direct Laser Deposition Additive Manufacturing in the manufacturing of Ti/TiN composite materiales.

Pub.7.data.xls.xlsx

25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition

Hoja de cálculo MS Excel - 19,5 KB -

Pub.7.Figures.ppt.pptx

25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition

MS Powerpoint - 16,4 MB -

Pub.7.General_Information.txt.txt

25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition

Texto plano - 3,7 KB -

Pub.7.Tables.doc.docx

25 sept 2025 - Carrying Gas Influence and Fabrication Parameters Impact in 3D Manufacturing of In Situ TiN‑Ti Composites by Direct Laser Deposition

MS Word - 25,1 KB -

A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion

25 sept 2025

SANCHEZ DE ROJAS CANDELA, CARMEN; Riquelme, A.; Rodrigo Herrero, Pilar; Bonache, Victoria; Bedmar Sanz, Javier; Torres, B.; Rams, Joaquin, 2025, "A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion", https://doi.org/10.21950/3B0UYD, e-cienciaDatos, V1

We proposed a novel methodology to fabricate in one step a multigrade titanium matrix composite reinforced with in situ TiN and a proof-of-concept hip implant by incorporating nitrogen during the L-PBF (Laser powder bed fusion) process.

Pub.12.Data.xls.xlsx

25 sept 2025 - A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion

Hoja de cálculo MS Excel - 14,3 KB -

Pub.12.figuras.ppt.pptx

25 sept 2025 - A One-Step Novel Method to Fabricate Multigrade Ti6Al4V/TiN Composites Using Laser Powder Bed Fusion

MS Powerpoint - 13,9 MB -