24/7 Phone Services 0086(371)86151&&827
Send to E-mail [email protected]
[email protected] Development Zone, Zhengzhou, China

selective laser melting of reduced graphene oxide s136

selective laser melting of reduced graphene oxide s136

selective laser melting of reduced graphene oxide s136

Tel: 0086(371)86151&&827

Mail: [email protected]

Selective laser melting of reduced graphene oxide/S136 ...4 rows · Aug 05, 2019 · In this work, a novel approach combining liquid deposition with selective laser melting (SLM) ...Cited by: 9Publish Year: 2019Author: Shifeng Wen, Keyu Chen, Wei Li, Wei Li, Yan Zhou, Yan Zhou, Qingsong Wei, Yusheng Shi A1 359.2 ± 12.7 513.6 ± 20.3 4.4 ± 0.3 A2 515.8 ± 15.3 535.3 ± 18.5 4.3 ± 0.8 A3 259.2 ± 19.1 339.4 ± 17.2 4.4 ± 1.2 A4 275.9 ± 15.8 311.5 ± 21.4 3.7 ± 0.5 See all 4 rows on www.sciencedirect.com

Yusheng SHI | Huazhong University of Science and selective laser melting of reduced graphene oxide s136

In this work, a novel approach combining liquid deposition with selective laser melting (SLM) is used for fabricating reduced graphene oxide (RGO)/S136 metal matrix composites (MMCs).Wei LI | Hunan University, Changsha | Department of EnglishIn this work, a novel approach combining liquid deposition with selective laser melting (SLM) is used for fabricating reduced graphene oxide (RGO)/S136 metal matrix composites (MMCs). The grain selective laser melting of reduced graphene oxide s136Ultrafast Method for Selective Design of Graphene Quantum selective laser melting of reduced graphene oxide s136Blue luminescent graphene quantum dots and graphene oxide prepared by tuning the carbonization degree of citric acid. Carbon 50, 47384743 (2012). Yang G. W. Laser ablation in liquids: applications in the synthesis of nanocrystals. Prog. Mater. Sci. 52, 648698 (2007).

Toughening in Graphene Ceramic Composites | ACS Nano

Selective laser melting of reduced graphene oxide/S136 metal matrix composites with tailored microstructures and mechanical properties. Materials & Design 2019, 175, 107811. DOI: 10.1016/j.matdes.2019.107811. Hao Zhan, Dan Guo, GuoXin Xie.Toughening in Graphene Ceramic Composites | ACS NanoSelective laser melting of reduced graphene oxide/S136 metal matrix composites with tailored microstructures and mechanical properties. Materials & Design 2019, 175 , 107811. https://doi.org/10.1016/j.matdes.2019.107811; Hao Zhan, Dan Guo, GuoXin Xie.TiO2-Induced In Situ Reaction in Graphene Oxide-Reinforced selective laser melting of reduced graphene oxide s136Graphene oxide (GO) can improve the degradation resistance of biomedical Mg alloy because of its excellent impermeability and outstanding chemical inertness. However, the weak interfacial bonding between GO and Mg matrix leads to easily detaching during degradation. In this study, in situ reaction induced by TiO2 took place in the AZ61GO biocomposite to enhance the interfacial bonding selective laser melting of reduced graphene oxide s136

Superhydrophobic GrapheneBased Materials: Surface selective laser melting of reduced graphene oxide s136

Shifeng Wen, Keyu Chen, Wei Li, Yan Zhou, Qingsong Wei, Yusheng Shi, Selective laser melting of reduced graphene oxide/S136 metal matrix composites with tailored microstructures and mechanical properties, Materials & Design, 10.1016/j.matdes.2019.107811, 175, (107811), (2019).Spark Plasma Sintering of Graphene-Reinforced Inconel selective laser melting of reduced graphene oxide s136Sep 17, 2020 · This study aims to investigate the microstructure, corrosion and tribological properties of spark plasma sintered graphene nanoplatelets (GNPs) reinforced Inconel 738 low carbon composites. The matrix and reinforcement were thoroughly milled in order to ensure homogeneity. Thereafter, the milled powders were consolidated by using spark plasma sintering.SingleStep Selective Laser Writing of Flexible selective laser melting of reduced graphene oxide s136Herein, by developing a singlestep selective laser writing strategy that can finely tailor material properties through incident photon density control and lead to the formation of hierarchical hybrid nanocomposites, e.g., reduced graphene oxide (rGO)zinc oxide (ZnO), a highly flexible and all rGOZnO hybridbased photodetector is selective laser melting of reduced graphene oxide s136

Selectivelasermeltingofgrapheneoxide 2Nb selective laser melting of reduced graphene oxide s136

aluminide (TiAl) components by selective laser melting (SLM). In this work, graphene oxide (GO) sheets were introduced onto the metal powder surface to improve the manufacturability of SLM of a Ti48Al2Cr2Nb (at.%) alloy and enhance the mechanical strength of the laser-fabricated parts. The effect of laser power and GOSelective laser melting of reduced graphene oxide/S136 selective laser melting of reduced graphene oxide s136In this work, a novel approach combining liquid deposition with selective laser melting (SLM) is used for fabricating reduced graphene oxide (RGO)/S136 metal matrix composites (MMCs). The grain selective laser melting of reduced graphene oxide s136Selective laser melting of reduced graphene oxide/S136 selective laser melting of reduced graphene oxide s1364 rows · Aug 05, 2019 · In this work, a novel approach combining liquid deposition with selective laser melting (SLM) selective laser melting of reduced graphene oxide s136Cited by: 9Publish Year: 2019Author: Shifeng Wen, Keyu Chen, Wei Li, Wei Li, Yan Zhou, Yan Zhou, Qingsong Wei, Yusheng Shi A1 359.2±12.7 513.6±20.3 4.4±0.3 A2 515.8±15.3 535.3±18.5 4.3±0.8 A3 259.2±19.1 339.4±17.2 4.4±1.2 A4 275.9±15.8 311.5±21.4 3.7±0.5 See all 4 rows on www.sciencedirect selective laser melting of reduced graphene oxide s136

Selective laser melting of graphene oxidereinforced Ti selective laser melting of reduced graphene oxide s136

Apr 06, 2020 · Severe cracking and unsatisfied mechanical performance are the major challenges of manufacturing titanium aluminide (TiAl) components by selective laser melting (SLM). In this work, graphene oxide (GO) sheets were introduced onto the metal powder surface to improve the manufacturability of SLM of a Ti48Al2Cr2Nb (at.%) alloy and enhance selective laser melting of reduced graphene oxide s136Selective Laser Melting to Manufacture In Situ Metal selective laser melting of reduced graphene oxide s136Yongdian Han, Yankun Zhang, Hongyang Jing, Danyang Lin, Lei Zhao, Lianyong Xu, Ping Xin, Selective laser melting of low-content graphene nanoplatelets reinforced 316L austenitic stainless steel matrix: strength enhancement without affecting ductility, Additive Manufacturing, 10.1016/j.addma.2020.101381, (101381), (2020).Selective Laser Melting of Graphene-Reinforced Inconel 718 selective laser melting of reduced graphene oxide s136In this study, the two attractive features are combined to produce GNPs reinforced MMC using selective laser melting (SLM) process, one of the LAAM processes. The target metal matrix material is Inconel 718, a nickel-based NiCrFe austenitic superalloy that possesses excellent workability and mechanical performance, and has wide selective laser melting of reduced graphene oxide s136

One-step selective laser patterning of copper/graphene selective laser melting of reduced graphene oxide s136

Feb 18, 2019 · When the laser power is relatively low (<1 or 1.5 W), the laser-irradiated areas are nonconductive with a sheet resistance larger than 10 k because Cu 2+ have not been reduced. When the laser power was beyond 4.5 or 5 W, the substrate was damaged because of the overheating caused by the high energy of the laser.Microstructure evolution and texture tailoring of reduced selective laser melting of reduced graphene oxide s136In this study, reduced graphene oxide (RGO) was used as reinforcement in Zn scaffold fabricated via laser additive manufacturing. Results showed that the homogeneously dispersed RGO simultaneously enhanced the strength and ductility of Zn scaffold.Microstructure control and compressive properties of selective laser melting of reduced graphene oxide s136In this work, a novel approach combining liquid deposition with selective laser melting (SLM) is used for fabricating reduced graphene oxide (RGO)/S136 metal matrix composites (MMCs).

Materials & Design | Vol 175, 5 August 2019 selective laser melting of reduced graphene oxide s136

Selective laser melting of reduced graphene oxide/S136 metal matrix composites with tailored microstructures and mechanical properties Shifeng Wen, Keyu Chen, Wei Li, Yan Zhou, selective laser melting of reduced graphene oxide s136Laser Deposition-Additive Manufacturing of Graphene Oxide selective laser melting of reduced graphene oxide s136Laser additive manufacturing is such a process that mainly includes selective laser sintering / melting (SLS / M) and laser deposition-additive manufacturing (LD-AM). Compared with SLS / M, LD-AM demonstrates parts remanufacturing capability and is capable of Journal of Materials Research | Volume 34, issue 8Mar 06, 2019 · Fabrication and characterization of flexible electrochromic membrane based on polyaniline/reduced graphene oxide Authors (first, second and last of 5) selective laser melting of reduced graphene oxide s136 Understanding processing parameters affecting residual stress in selective laser melting of Inconel 718 through numerical modeling selective laser melting of reduced graphene oxide s136 Preparation and mechanical properties of selective laser selective laser melting of reduced graphene oxide s136

Graphene-strengthened Inconel 625 Alloys Fabricated by selective laser melting of reduced graphene oxide s136

In this work, a novel approach combining liquid deposition with selective laser melting (SLM) is used for fabricating reduced graphene oxide (RGO)/S136 metal matrix composites (MMCs).Graphene Oxide Reinforced Iron Matrix Composite With selective laser melting of reduced graphene oxide s136May 31, 2019 · Graphene Oxide Reinforced Iron Matrix Composite With Enhanced Biodegradation Rate Prepared by Selective Laser Melting YingChao Zhao Light Alloy Research Institute, School of Materials Science and Engineering, Central South University, Changsha, 410083 P. R. ChinaEnhanced Mechanical Properties of Graphene (Reduced selective laser melting of reduced graphene oxide s136Nov 19, 2015 · Selective laser melting of reduced graphene oxide/S136 metal matrix composites with tailored microstructures and mechanical properties. Materials & Design 2019, 175, 107811. DOI: 10.1016/j.matdes.2019.107811. Weiwei Zhou, Pavlina Mikulova, Yuchi Fan, Keiko Kikuchi, Naoyuki Nomura, Akira Kawasaki.

Enhanced Mechanical Properties of Graphene (Reduced selective laser melting of reduced graphene oxide s136

Selective laser melting of reduced graphene oxide/S136 metal matrix composites with tailored microstructures and mechanical properties. Materials & Design 2019, 175 , 107811. https://doi.org/10.1016/j.matdes.2019.107811; Stephane Neuville. Selective Carbon Material Engineering for Improved MEMS and NEMS.Bulk titaniumgraphene nanocomposites fabricated by selective laser melting of reduced graphene oxide s136Bulk titaniumgraphene nanocomposites fabricated by selective laser melting - Volume 34 Issue 10 - Zengrong Hu, Dini Wang, Changjun Chen, Xiaonan Wang, Xiaming Chen, Qiong NianAlSi10Mg alloy nanocomposites reinforced with aluminum selective laser melting of reduced graphene oxide s136Jul 05, 2019 · Graphene has been successfully coated with a nano-Al layer through a novel activating treatment (i.e., organic aluminum reduction method). The nano-Al coated graphene was further processed into AlSi10Mg alloy based composites through a selective laser melting (SLM) process.

A New Tubular Graphene Form of a Tetrahedrally Connected selective laser melting of reduced graphene oxide s136

Aug 25, 2015 · Shifeng Wen, Keyu Chen, Wei Li, Yan Zhou, Qingsong Wei, Yusheng Shi, Selective laser melting of reduced graphene oxide/S136 metal matrix composites with tailored microstructures and mechanical properties, Materials & Design, 10.1016/j.matdes.2019.107811, 175, (107811), (2019).3D stereolithography printing of graphene oxide reinforced selective laser melting of reduced graphene oxide s136Oct 07, 2015 · However, all the graphene composites had a big loss in ductility. In this research, we investigated the printing of reinforced photopolymer parts by incorporating the advanced nanofillers (graphene oxide) and the accurate AM process (stereolithography). Nanofillers have been added into photopolymer by the solution intercalation method.

Leave a message

Message information

Please describe your brand size and data volume in detail to facilitate accurate quotation

Client Image 1
Client Image 2
Client Image 3
Client Image 4
Client Image 5
Client Image 6
Client Image 7
Client Image 8
Client Image 9
Client Image 10
Client Image 11
Client Image 12