Retraction
Numerical Simulation of Particle Deposition in Arterial Bifurcation via Lattice Boltzmann Method
Paper Information
Record ID:
56334
Author(s):
Journal:
Publication Date:
July 04, 2022
Retraction Date:
October 04, 2023
(2.1 years years ago)
Subjects:
Institution:
School of Intelligent Manufacturing, Weifang University of Science and Technology, Weifang 262700, ChinaCountry:
🇨🇳 ChinaArticle Type:
Publisher:
Hindawi
Open Access:
Yes
DOI:
PubMed ID:
Not indexed in PubMed
Retraction PubMed ID:
Not indexed in PubMed
Retraction Details
Retraction Reasons:
- Concerns/Issues About Data
- Concerns/Issues about Results and/or Conclusions
- Concerns/Issues about Referencing/Attributions
- Concerns/Issues with Peer Review
- Investigation by Journal/Publisher
- Investigation by Third Party
- Paper Mill
- Computer-Aided Content or Computer-Generated Content
- Unreliable Results and/or Conclusions
Nature of Retraction:
Retraction
Retraction Notice:
10.1155/2023/9870187Additional Notes:
See also: https://pubpeer.com/publications/C91866B7C92C769091E8D11EE20EB2
Citations (3)
3
Total Citations1
Post-Retraction(33.3%)
0
Pre-Retraction1
Same DayPost-Retraction Citation Analysis
1
Within 30 days
1
Within 1 year
0
After 2+ years
16
Days since retraction (latest)
Heavy Metals Removal Using Carbon Based Nanocomposites
Unknown Authors
Unknown Journal
Published: Unknown
A Comparison of Newtonian and Non-Newtonian Models for Simulating Stenosis Development at the Bifurcation of the Carotid Artery
Aikaterini C. Stamou, Jovana Radulović, James M. Buick
Fluids
Open Access
Published: Oct 2023
5 citations
5 citations
16 days after retraction
Retracted: Numerical Simulation of Particle Deposition in Arterial Bifurcation via Lattice Boltzmann Method
Journal of Function Spaces
Journal of Function Spaces
Open Access
Published: Oct 2023
Same day as retraction
Quick Stats
Total Citations:
4
Years Since Retraction:
2.1 years
Open Access:
Yes
Last Checked:
Jul 24, 2025