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Clamping Error Calibration Algorithm of Aero-Engine Blade Surface Polishing
Dongbo Wu,Zesheng Wang,Jiawei Liang,Hui Wang,Kung Zhang,Jie Yu 한국정밀공학회 2023 International Journal of Precision Engineering and Vol.24 No.7
Polishing is an effective process method to improve the surface quality of aero-engine blade. The clamping error between fixture and blade leads to position error of blade surface and reduces processing quality. In this paper, a laser calibration system and a calibration algorithm are proposed to compensate clamping error. Firstly, theoretical point data of blade surface is obtained from CAD model, and the measurement point data of blade surface is obtained through laser sensor. A modified ICP algorithm is designed to calculate the coordinate transformation between the theoretical points and the measurement points. Secondly, Bezier surface is introduced to evaluate the calibration accuracy based on the distance between fitting surfaces rather than points. Finally, the point cloud registration is optimized by particle swarm optimization (PSO) algorithm based on the Bezier surface evaluation. The calibration algorithm combined ICP algorithm, Bezier surface evaluation and PSO algorithm to realize clamping error compensation. The quality of polished blade surface is consequently improved.
Flexible CNC polishing process and surface integrity of blades
Xiaojun Lin,Dongbo Wu,Xiufeng Shan,Gang Wu,Tong Cui,Yun Zhang,Liangyi Hu,Jie Yu 대한기계학회 2018 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.32 No.6
The surface integrity of aero-engine blades directly affects its mechanical behavior. To improve the surface integrity and address the problem, that is, the blade is mainly polished manually, a flexible polishing process was proposed and surface integrity was investigated. First, flexible polishing technology and the machine tool that the authors researched and developed were introduced. Second, a polishing experiment was conducted on a TC4 titanium alloy blade. Finally, the surface integrity before and after polishing was measured and the results were compared and analyzed. Results showed that the knife marks, pits, unevenness, and other defects of the blade surface were effectively removed through flexible polishing; the surface residual compressive stress was reduced from 483 MPa to 397 MPa; the surface roughness was reduced to Ra 0.4 μm; the surface micro-hardness increased by 18 HV; and the surface metamorphic layer caused by milling was removed. Flexible polishing effectively improved the surface quality without affecting the depth layer quality of the workpiece.
Zheng Wang,Yanni Liang,Dongbo Zhang,Xue Wu,Jingao Yu,Zhen Zhang,Yi Li,Chen Sun,Zhishu Tang,Li Liu 한국식품영양과학회 2020 Journal of medicinal food Vol.23 No.2
Polysaccharide from Ma-chi-xian (Portulacae oleracea L., POLP) was prepared and the therapeutic effect on dextran sodium sulfate-induced colitis mice was investigated in this study. The results of clinical activity score and H&E staining confirmed the therapeutic effect of POLP. POLP could diminished the symptoms of colitis and improve colon histopathological structure of the colitis mice. The expression levels of four cytokines were determined. The concentrations of PGE2 and IL-6 were downregulated by POLP treatment. The COX-2 protein expression levels and the STAT3 phosphorylation levels were detected. The results showed that these two protein levels were all increased in colitis and decreased after POLP treatment, indicating that these two proteins were closely related with the protective effect of POLP. Because the synthesis of PGE2 is catalyzed by COX-2 and phosphorylation of STAT3 can induce the expression of COX-2, it was concluded that STAT3 was a key protein related to the POLP exerting its activity in colitis.
MOF-Derived Porous CeO2-x/C Nanorods and their Applications in Uric Acid Biosensor
Jinbao Luo,Jiewu Cui,Yan Wang,Dongbo Yu,Yongqiang Qin,Hongmei Zheng,Yu Hong,Yong Zhang,Yucheng Wu 성균관대학교(자연과학캠퍼스) 성균나노과학기술원 2018 NANO Vol.13 No.7
Selectivity is significant to the practical applications of electrochemical biosensors in clinical and diagnostic field. In this paper, porous CeO2-x/C nanorods (NRs) derived from Ce-based metal organic framework (MOF) were synthesized and employed as substrate to construct uric acid biosensors with high sensitivity and selectivity at low working potential. The morphology, microstructures and elemental states of as-prepared samples were investigated by SEM, XRD, TEM and XPS systematically. It was found that a great amount of oxygen vacancies was introduced into the interstitial of CeO2 and nonstoichiometric CeO2/C (CeO2-x/C) nanorods based on Ce-MOF were formed under calcination in Ar atmosphere. The increased oxygen vacancies enabled the negatively shifting of the working potential towards H2O2 detection for CeO2-x/C nanorods, favoring the construction of biosensors based on the detection of H2O2. Uric biosensors based on CeO2-x/C NRs exhibited a high sensitivity of 220.0 μA · cm -2 · mM -1 and a linear range from 50 μM to 1000 μM at working potential of -0.4 V versus SCE. It also exhibited superior selectivity toward interferents coexisting with uric acid in urine due to the low working potential.
Anqi Fan,Bao-Long Hou,Zhishu Tang,Ting Wang,Dongbo Zhang,Yanni Liang,Zheng Wang 한국식품영양과학회 2023 Journal of medicinal food Vol.26 No.12
Ulcerative colitis (UC), often known as UC, is an inflammatory disease of the intestines that has frequent andlong-lasting flare-ups. It is unknown precisely how the traditional Chinese drug Indigo Naturalis (IN) heals inflammatorybowel disease, despite its long-standing use in China and Japan. Finding new metabolite biomarkers linked to UC couldimprove our understanding of the disease, speed up the diagnostic process, and provide insight into how certain drugs work totreat the condition. Our work is designed to use a metabolomic method to analyze potential alterations in endogenoussubstances and their impact on metabolic pathways in a mouse model of UC. To determine which biomarkers and metabolismsare more frequently connected with IN’s effects on UC, liquid chromatography-tandem mass spectrometry analysis ofthe serum metabolomics of UC mice and normal mice was performed. The outcomes demonstrated that IN boosted the healthof UC mice and reduced the severity of their metabolic dysfunction. In the UC model, it was also found that IN changed theway 17 biomarkers and 3 metabolisms functioned.