In this paper, two new energy-conserved splitting methods (EC-S-FDTDI and EC-S-FDTDII) for Maxwell’s equations in two dimensions are proposed. Both algorithms are energy-conserved, unconditionally stable and can be computed efficiently. The convergence results are analyzed based on the energy method, which show that the EC-S-FDTDI scheme is of first order in time and of second order in space, and the EC-S-FDTDII scheme is of second order both in time and space. We also obtain two identities of the discrete divergence of electric fields for these two schemes. For the EC-S-FDTDII scheme, we prove that the discrete divergence is of first order to approximate the exact divergence condition. Numerical dispersion analysis shows that these two schemes are non-dissipative. Numerical experiments confirm well the theoretical analysis results.

Energy-conserved splitting FDTD methods for Maxwell’s equations

Pore defects in Laser Powder Bed Fusion: formation mechanism, control method, and perspectives

Laser additive manufacturing (AM) technology is widely applied in manufacturing critical components (e.g., rocket fuel nozzles, satellite antenna mounts and human implants, etc.) in automotive, medical, aerospace and other fields due to the advantages of high manufacturing precision, flexibility and automation. This technology can considerably improve the combination property of printed parts by integrated manufacturing of material structure and performance. Currently, in the focused Gaussian beam, the energy distribution is high in the center and low at the edge is generally employed in laser AM technology. However, it tends to produce a high thermal gradient in the melt pool, resulting in a subsequent generation of porosity and coarse grains. As a new solution to this problem, beam shaping technology can improve printing efficiency and quality by modulating the distribution of laser beam energy. In this paper, the application of beam shaping technology in two mainstream metal laser AM processes (laser powder bed fusion (LPBF) and directed energy deposition (DED)) is systematically reviewed, including the energy distribution, melt pool morphology and part quality of different shaped beams. The effects of different-shaped beams on parts quality mainly depends on their influence on the morphology and internal dynamics of the melt pool. For promoting the application of beam shaping technology in the metal laser AM field, it is necessary to achieve adequate control for the energy input stability of the shaped beam. In addition, how to realize metal laser AM with multi-shaped beams and dynamic beam shaping is also crucial to the future development of metal laser AM technology. 

Beam shaping technology and its application in metal laser additive manufacturing: A review

This paper is concerned with a single-component model of heat and vapor (sweat) transport through three-dimensional porous textile materials with phase change, which is described by a nonlinear, degenerate, and strongly coupled parabolic system. An uncoupled (splitting) Galerkin method with semi-implicit Euler scheme in time direction is proposed for the system. In this method, a linearized scheme is applied for the approximation to Darcy's velocity simultaneously in the mass and energy equations, which leads to physical conservation of the method in the flow convection. The existence and uniqueness of solution of the finite element system is proved and the optimal error estimate in an energy norm is obtained. Numerical results are presented to confirm our theoretical analysis and are compared with experimental data.

Error estimates of splitting Galerkin methods for heat and sweat transport in textile materials

Laser powder bed fusion (LPBF) is a highly dynamic and complex physical process, and single-track defects tend to accumulate into non-negligible internal defects of parts. The nickel-based superalloy single track was fabricated by LPBF, and its plume and spattering behavior were monitored in situ and recorded in real time based on image recognition and tracking in this study. The relationship among laser energy density, melt flow, plume and spattering behavior during LPBF was discussed. Volumetric energy density had limitations as a design parameter for LPBF. However, we found that plume and spattering behavior can be used as real-time design parameters for the processing of LPBF parts and implemented the initial velocity statistics for LPBF single-track spattering based on the centroid extraction algorithm. The influence of melt flow evolution paths on the spattering and plume behavior in three different melting modes was revealed, and a shift in plume behavior was found in the overlap region of the additive substrate. This study provides a new method for obtaining statistics of spattering-related physical quantities in the melting mode, which is beneficial for the development of processing methods to mitigate the instability of the LPBF process. 

In-situ monitoring plume, spattering behavior and revealing their relationship with melt flow in laser powder bed fusion of nickel-based superalloy

An efficient S-DDM iterative approach for compressible contamination fluid flows in porous media

The efficient S-DDM scheme and its analysis for solving parabolic equations

Effect of beam energy density characteristics on microstructure and mechanical properties of Nickel-based alloys manufactured by laser directed energy deposition

Laser polishing (LP) is an effective method to improve the surface quality of an additively manufactured nickel-based alloy. In this paper, the in-situ laser polishing (ILP) experiment is performed on the selective laser melting (SLM) IN718 sample. The white light interferometer is used to test the three-dimensional surface profile and surface roughness of samples. The results show that the surface quality of as-SLMed samples by ILP is improved. In particular, the surface roughness is decreased by 33.5%. To reveal the mechanism of ILP, a three-dimensional numerical model is established based on the finite volume method (FVM). The model can accurately simulate the mesoscopic scale physical phenomena when the laser interacts with the metal. The temperature field, the melt pool flow, and the evolution of the surface morphology during the ILP process are predicted using this model. The mechanism of ILP is revealed based on the dynamics of the molten pool. The contribution of capillary and thermocapillary forces to the reduction of bulge curvature at different stages is studied. Furthermore, the effect of ILP power on the surface quality is investigated, and the mechanism of bulges and depressions on the track surface during high-power ILP is revealed.

/pdf/the-mechanism-of-in-situ-laser-polishing-and-its-effect-on-17wb06ze.pdf

The Mechanism of In-Situ Laser Polishing and Its Effect on the Surface Quality of Nickel-Based Alloy Fabricated by Selective Laser Melting

Handle everyday research tasks with reliable, citation-backed results

Your personal Research Agent to handle research tasks with citation-backed results

Popular Tasks used by Researchers

How can I help with your research?

Meet SciSpace

Get more enhanced response by uploading the PDFs you want me to reference.

No relevant PDFs in your library

SciSpace is the AI research assistant for academics. Run systematic literature reviews on 280M+ papers, and write papers with cited sources. Trusted by 1M+ students, PhDs & researchers.

SciSpace | AI for Research

Analyze PDFs

Code & Manuscripts

Funding & Grants

Literature & Patents

Medical & Clinical Data

Systematic Review

Visualize & Present

Web & Data

Build a Google Scholar-like website for your research.

Build a website

Create charts and images for your research

Create a Chart

Write a paper for submission to a journal

Draft a manuscript

Patent Search

Design eye-catching scientific posters in minutes.

Scientific Poster Generation

Systematic Literature Review

One task is running at the moment. Your messages will be shown right after.

Drag and drop or click here to browse

Loved by <highlight>1 million+</highlight> researchers

Extract a list of specific topics and their sources from unstructured text

Topics

Compare and analyze relevant papers that matches with your search

Papers

Get insights from PDFs and bookmarked papers from your library

My library

Recent searches

Try searching for:

Catch AI-generated content in scholarly and non-scholarly content

{ai} Detector

Ai Writer

Get PDF Summaries, highlighted text explanations 

Chat with PDF

Effortlessly create in-text citations and bibliographies in APA and 2,500 other formats

Citation generator

Get explanations, summaries, and answers on academic papers

Ease up your research workflow with {scispace}'s cohort of exciting AI tools

Elevate your academic writing skills and convey your ideas the way you want

Paraphraser

Explore our range of reading and writing tools

Your file is being prepared and should be ready in a few minutes. If it's a large file, it might take a bit longer. You can close this window, and we'll email you the file when it's done.

You have reached a maximum limit of <strong>{limit}</strong> columns in the table. Remove at least <strong>1</strong> column to add or create another one.

Chuanbin Du

Author Tools

Chat about Author