Your search keyword '"Hongke Li"' showing total 16 results

1. Fractal-Based Stretchable Circuits via Electric-Field-Driven Microscale 3D Printing for Localized Heating of Shape Memory Polymers in 4D Printing

Author

Zhenghao Li, Yi Xiong, Xiaoyang Zhu, Hongbo Lan, Yuan-Fang Zhang, Qi Ge, Hongke Li, and Honggeng Li

Subjects

Materials science, business.industry, Stretchable electronics, 3D printing, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Shape-memory polymer, Fractal, Electric field, General Materials Science, 0210 nano-technology, Joule heating, business, Microscale chemistry, Electronic circuit

Abstract

Thermally responsive shape memory polymers (SMPs) used in 4D printing are often reported to be activated by external heat sources or embedded stiff heaters. However, such heating strategies impede the practical application of 4D printing due to the lack of precise control over heating or the limited ability to accommodate the stretching during shape programming. Herein, we propose a novel 4D printing paradigm by fabricating stretchable heating circuits with fractal motifs via electric-field-driven microscale 3D printing of conductive paste for seamless integration into 3D printed structures with SMP components. By regulating the fractal order and printing/processing parameters, the overall electrical resistance and areal coverage of the circuits can be tuned to produce an efficient and uniform heating performance. Compared with serpentine structures, the resistance of fractal-based circuits remains relatively stable under both uniaxial and biaxial stretching. In practice, steady-state and transient heating modes can be respectively used during the shape programming and actuation phases. We demonstrate that this approach is suitable for 4D printed structures with shape programming by either uniaxial or biaxial stretching. Notably, the biaxial stretchability of fractal-based heating circuits enables the shape change between a planar structure and a 3D one with double curvature. The proposed strategy would offer more freedom in designing 4D printed structures and enable the manipulation of the latter in a controlled and selective manner.

Published

2021

2. First Case Report of Cholesterol Granuloma of Femur

Author

Shengli Dong, Hongke Li, Fangshu Zhang, Zhifang Zhang, Xiaohui Luo, Shuaizhi Li, Huihui Ren, Shuai Liu, Shenshen Hao, and Honglei Chen

Subjects

Pathology, medicine.medical_specialty, Cholesterol granuloma, genetic structures, business.industry, medicine, Femur, business

Abstract

Introduction: Cholesterol granuloma (CG) is a special type of granulation tissue reaction. It is a very rare benign lesion with swelling growth, in which there are a large number of cholesterol crystals and foreign body giant cells. A small amount of literature reports that it occurred in the middle ear or mastoid area. There has been no report of CG of the femur.Methods: A 74-year-old woman suffered from pain and discomfort in the upper right knee for 10 years, which aggravated for 10 days. He was diagnosed with CG of the right femur in our hospital, and was treated with surgery. Results: During the operation, a large amount of yellow-brown oily crystal structure was found, and the pathology after the operation was confirmed as CG. The postoperative follow-up was 3 months, and the treatment effect was satisfactory.Conclusion: CG of the femur is an extremely rare benign lesion, and there is no relevant report. Surgical treatment can remove the diseased tissue and provide effective treatment results.

Published

2021

3. Flexible biconvex microlens array fabrication using combined inkjet-printing and imprint-lithography method

Author

Fei Wang, Hongke Li, Xu Quan, Hongbo Lan, Yujie Hu, Xiaoyang Zhu, and Zilong Peng

Subjects

Microlens, Fabrication, Computer science, business.industry, Field of view, 02 engineering and technology, Photoresist, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Optical quality, Electronic, Optical and Magnetic Materials, 010309 optics, Optics, 0103 physical sciences, Electrical and Electronic Engineering, Manufacturing methods, 0210 nano-technology, business, Lithography, Inkjet printing

Abstract

Microlenses (MLs) and microlens arrays (MLAs) have been fabricated by various manufacturing methods for use in many important micro-optical applications. It is still difficult for most fabricated MLs to meet design requirements, especially in displays, image-processing, illumination, and field of view (FOV) of imaging fields. Thus, flexible biconvex MLAs are preferred. Fabrication methods of flexible biconvex MLAs are complex, time-consuming, and costly. In this paper, we show that a method combining inkjet-printing and imprint-lithography is effective in fabricating flexible biconvex MLAs. Optimal flexible biconvex MLA fabrication conditions are determined by examining the pertinent parameters, including the preparation and testing of photoresist, the principle of the composite imprint-lithography process, and the alignment of biconvex MLAs during the imprint process. Finally, the main optical characterizations of flexible biconvex MLAs are tested, and the results indicate good optical quality. The results of the current study demonstrate that flexible biconvex MLAs can be used for the display and FOV of imaging fields.

Published

2019

4. Fabrication of the large-area flexible transparent heaters using electric-field-driven jet deposition micro-scale 3D printing

Author

Hongbo Lan, Hefei Zhou, Xiaoyang Zhu, and Hongke Li

Subjects

Jet (fluid), Fabrication, Materials science, Scale (ratio), business.industry, 3D printing, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Electric field, Optoelectronics, Deposition (phase transition), 0210 nano-technology, business, Instrumentation

Abstract

In order to realize the mass production of the large-area flexible transparent film heater (FTFH) at low-cost, this paper presents a novel method which can achieve the direct fabrication of the large-area FTFH with Ag-grid by using an electric-field-driven jet deposition micro-scale 3D printing. The effects of the line width and the pitch of the printed Ag-grids on the optical transmittance and the sheet resistance are revealed. A typical FTFH with area of 80 mm × 60 mm, optical transmittance of 91.5% and sheet resistance of 4.7 Ω sq−1 is fabricated by the nano-silver paste with a high silver content (80 wt.%) and high viscosity (up to 20 000 mPa · s). Temperature-time response profiles and heating temperature distribution show that the heating performance of the FTFH has good thermal and mechanical properties. Furthermore, the adhesive force grade between the Ag-grid and the PET substrate measured to be 4B by 3M scotch tape. Therefore, the FTFH fabricated here is expected to be widely used in industry, such as window defroster of vehicles and display or touch screens owing to its striking characteristics of large area and low cost fabrication.

Published

2019

5. Transparent Electrodes: Templateless, Plating‐Free Fabrication of Flexible Transparent Electrodes with Embedded Silver Mesh by Electric‐Field‐Driven Microscale 3D Printing and Hybrid Hot Embossing (Adv. Mater. 21/2021)

Author

Xu Quan, Qian Lei, Liu Mingyang, Hongbo Lan, Ximeng Qi, Yuan-Fang Zhang, Zilong Peng, Xiaoyang Zhu, Zhenghao Li, Jiankang He, Hongke Li, Nairui Gou, Jianjun Yang, and Dichen Li

Subjects

Materials science, Fabrication, business.industry, Mechanical Engineering, 3D printing, Nanotechnology, Mechanics of Materials, Plating, Electric field, Electrode, Metal mesh, Hot embossing, General Materials Science, business, Microscale chemistry

Published

2021

6. Templateless, Plating‐Free Fabrication of Flexible Transparent Electrodes with Embedded Silver Mesh by Electric‐Field‐Driven Microscale 3D Printing and Hybrid Hot Embossing

Author

Ximeng Qi, Qian Lei, Zilong Peng, Xiaoyang Zhu, Xu Quan, Jianjun Yang, Hongke Li, Jiankang He, Nairui Gou, Liu Mingyang, Hongbo Lan, Yuan-Fang Zhang, Dichen Li, and Zhenghao Li

Subjects

Materials science, Fabrication, business.industry, Mechanical Engineering, 3D printing, Polishing, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Indium tin oxide, Mechanics of Materials, Plating, Surface roughness, General Materials Science, 0210 nano-technology, business, Microscale chemistry, Sheet resistance

Abstract

Flexible transparent electrodes (FTEs) with an embedded metal mesh are considered a promising alternative to traditional indium tin oxide (ITO) due to their excellent photoelectric performance, surface roughness, and mechanical and environmental stability. However, great challenges remain for achieving simple, cost-effective, and environmentally friendly manufacturing of high-performance FTEs with embedded metal mesh. Herein, a maskless, templateless, and plating-free fabrication technique is proposed for FTEs with embedded silver mesh by combining an electric-field-driven (EFD) microscale 3D printing technique and a newly developed hybrid hot-embossing process. The final fabricated FTE exhibits superior optoelectronic properties with a transmittance of 85.79%, a sheet resistance of 0.75 Ω sq-1 , a smooth surface of silver mesh (Ra ≈ 18.8 nm) without any polishing treatment, and remarkable mechanical stability and environmental adaptability with a negligible increase in sheet resistance under diverse cyclic tests and harsh working conditions (1000 bending cycles, 80 adhesion tests, 120 scratch tests, 100 min ultrasonic test, and 72 h chemical attack). The practical viability of this FTE is successfully demonstrated with a flexible transparent heater applied to deicing. The technique proposed offers a promising fabrication strategy with a cost-effective and environmentally friendly process for high-performance FTE.

Published

2021

7. Facile fabrication of defogging microlens arrays using electric field-driven jet printing

Author

Yujie Hu, Zhenghao Li, Hongbo Lan, Hongke Li, Xiaoyang Zhu, and Jianjun Yang

Subjects

010302 applied physics, Microlens, Jet (fluid), Materials science, Fabrication, business.industry, 02 engineering and technology, Substrate (printing), 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Homogeneous, Electric field, 0103 physical sciences, Optoelectronics, Electrical and Electronic Engineering, 0210 nano-technology, business, Voltage

Abstract

Challenges remain regarding the defogging of the microlens array when it is applied to endoscopy, displays, camera lenses. A facile and convenient method of fabricating defogging microlens arrays directly on a substrate using electric field-driven jet printing is presented. By directly printing the microlenses and conducting silver wires onto the same substrate, we realized a microlens array (MLA) for defogging after electrification. The as-prepared defogging MLA exhibits homogeneous and stable heating performance. Furthermore, the practical applicability of defogging MLA is successfully demonstrated through an imaging and defogging test (MLA area: 18 * 9 mm, defogging time: 25 s, voltage: 3 V). This letter will provide a new and simple solution for the fabrication of micro-optical devices applied to foggy environments.

Published

2020

8. Preparation of Nano Silver Paste and Applications in Transparent Electrodes via Electric-Field Driven Micro-Scale 3D Printing

Author

Jianjun Yang, Hongbo Lan, Xiaoyang Zhu, Zhenghao Li, and Hongke Li

Subjects

Materials science, General Chemical Engineering, 3D printing, Sintering, 02 engineering and technology, 010402 general chemistry, nano-silver paste, 01 natural sciences, Article, lcsh:Chemistry, Transmittance, General Materials Science, Electronics, micro-scale 3D printing, Composite material, Electrical conductor, Electronic circuit, business.industry, Silver Nano, 021001 nanoscience & nanotechnology, 0104 chemical sciences, transparent heaters, lcsh:QD1-999, Electrode, silver mesh, 0210 nano-technology, business

Abstract

Nano-silver paste, as an important basic material for manufacturing thick film components, ultra-fine circuits, and transparent conductive films, has been widely used in various fields of electronics. Here, aiming at the shortcomings of the existing nano-silver paste in printing technology and the problem that the existing printing technology cannot achieve the printing of high viscosity, high solid content nano-silver paste, a nano-silver paste suitable for electric-field-driven (EFD) micro-scale 3D printing is developed. The result shows that there is no oxidation and settlement agglomeration of nano-silver paste with a storage time of over six months, which indicates that it has good dispersibility. We focus on the printing process parameters, sintering process, and electrical conductivity of nano-silver paste. The properties of the nano-silver paste were analyzed and the feasibility and practicability of the prepared nano-silver paste in EFD micro-scale 3D printing technology were verified. The experiment results indicate that the printed silver mesh which can act as transparent electrodes shows high conductivity (1.48 Ω/sq) and excellent transmittance (82.88%). The practical viability of the prepared nano-silver paste is successfully demonstrated with a deicing test. Additionally, the experimental results show that the prepared silver mesh has excellent heating properties, which can be used as transparent heaters.

Published

2020

9. Transparent Heaters: Fabrication of High-Performance Silver Mesh for Transparent Glass Heaters via Electric-Field-Driven Microscale 3D Printing and UV-Assisted Microtransfer (Adv. Mater. 32/2019)

Author

Xiaoyang Zhu, Lei Qian, Liu Mingyang, Dichen Li, Xu Quan, Yang Kun, Jiawei Zhao, Zilong Peng, Zhenghao Li, Hongke Li, Hongbo Lan, Jianjun Yang, Guangming Zhang, and Fei Wang

Subjects

Materials science, Fabrication, Mechanics of Materials, business.industry, Mechanical Engineering, Electric field, 3D printing, General Materials Science, Nanotechnology, business, Microscale chemistry

Published

2019

10. Fabrication of High-Performance Silver Mesh for Transparent Glass Heaters via Electric-Field-Driven Microscale 3D Printing and UV-Assisted Microtransfer

Author

Xiaoyang Zhu, Jianjun Yang, Xu Quan, Yang Kun, Hongke Li, Dichen Li, Liu Mingyang, Hongbo Lan, Jiawei Zhao, Zhenghao Li, Lei Qian, Fei Wang, Guangming Zhang, and Zilong Peng

Subjects

Materials science, Fabrication, business.industry, Mechanical Engineering, 3D printing, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Indium tin oxide, Mechanics of Materials, Transmittance, General Materials Science, Composite material, 0210 nano-technology, business, Microscale chemistry, Sheet resistance, Voltage

Abstract

Great challenges remain concerning the cost-effective manufacture of high-performance metal meshes for transparent glass heaters (TGHs). Here, a high-performance silver mesh fabrication technique is proposed for TGHs using electric-field-driven microscale 3D printing and a UV-assisted microtransfer process. The results show a more optimal trade-off in sheet resistance (Rs = 0.21 Ω sq-1 ) and transmittance (T = 93.9%) than for indium tin oxide (ITO) and ITO substitutes. The fabricated representative TGH also exhibits homogeneous and stable heating performance, remarkable environmental adaptability (constant Rs for 90 days), superior mechanical robustness (Rs increase of only 0.04 in harsh conditions-sonication at 100 °C), and strong adhesion force with a negligible increase in Rs (2-12%) after 100 peeling tests. The practical viability of this TGH is successfully demonstrated with a deicing test (ice cube: 21 cm3 , melting time: 78 s, voltage and glass thickness: 4 V, 5 mm). All of these advantages of the TGHs are attributed to the successful fabrication of silver meshes with high resolution and high aspect ratio on the glass substrate using the thick film silver paste. The proposed technique is a promising new tool for the inexpensive fabrication of high-performance TGHs.

Published

2019

11. Fabricating transparent electrodes by combined electric-field-driven fusion direct printing and the liquid bridge transfer method

Author

Zilong Peng, Xu Quan, Fei Wang, Hongbo Lan, Yujie Hu, Zhenghao Li, Yang Kun, Hongke Li, and Xiaoyang Zhu

Subjects

Materials science, Fabrication, Acoustics and Ultrasonics, business.industry, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Soft lithography, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Display device, Electric field, Electrode, Transmittance, Optoelectronics, 0210 nano-technology, business, Electrical conductor, Sheet resistance

Abstract

Transparent conductive electrodes (TCEs) are widely used in applications ranging from display devices to thin-film solar cells. It remains a challenge, however, for industry and academia to implement mass production of large-area TCEs at low cost and at high volumes. It is also difficult to fabricate TCEs with good electrical properties and high light transmittance levels. In this study, a novel large-area and high-performance TCE manufacturing method is demonstrated that combines the electric-field-driven fusion direct printing technique and the liquid bridge transfer method. The master molds of the TCEs are fabricated by the electric-field-driven fusion direct printing technology, then soft lithography and the liquid bridge transfer processes are used to form the TCEs on different substrates. The relationships between process parameters, and their effects on the fabrication of the TCEs are explored through experiments, and the optimal process parameters are established. Using these methods, grid and stripe TCEs on the glass substrates with an area of 50 mm × 50 mm, an average line width of 4 µm, a spacing of 200 µm, a transmittance effectiveness of 88.94% and 88.15% which was nearly same as the bare glass, and a sheet resistance of 12 Ω sq−1 were successfully manufactured. These results illustrate the feasibility of mass producing large-area TCEs with high performances and at low cost.

Published

2019

12. Analysis on Dropping Accidents of Fresh Fuel Cask in HTGR

Author

Junfeng Nie, Hongke Li, Wang Xin, Haiquan Zhang, and Zhengming Zhang

Subjects

Engineering, FEM, business.industry, Contact time, Drop (liquid), Nuclear engineering, CEL, Structural engineering, Finite element method, cask of new fuel, Impact effect, equivalent mass method, Energy(all), Equivalent weight, Dynamic pressure, Impact, CASK, business, dropping accident

Abstract

The fuel of HTGR is made of some spherical fuel elements with diameter of 60 mm. The cask of fresh fuel is used to temporarily store and transport such a kind of new spherical fuel elements, and it may drop during transport. The dropping process can be simulated by two ways. The first is the coupled Euler-Lagrange (CEL) method, in which the new fuel elements are taking as fluid and can be considered explicitly. The second is referred to as the equivalent mass method. In the method, the cask and the new fuel are not considered individually, and the mass of the new fuel elements is averagely allocated to the bottom head of the cask. The simulating result shows that the CEL method can describe the flow and inertial effects of the new fuel elements in the dropping process, and the lateral fluid dynamic pressure generated by fuel elements to the cask. The impact effect can be fully considered in the equivalent mass method. Results show that the impact force is stronger and the contact time is shorter than that of the CEL method. Finally, parameters of equivalent fluid in the CEL method are discussed. And the results show that the fluid model is reasonable. In one word, calculation results of the two methods can be combined in structural design, which will give a more reasonable design.

Published

2013

13. Experimental Study of Magnetic Synchronizator in HTR-PM Fuel Handling System

Author

Junfeng Nie, Xuelan Yan, Kezhong Zhao, Haiquan Zhang, Jiguo Liu, Hongke Li, and Wang Xin

Subjects

Engineering, Bearing (mechanical), business.industry, Rotor (electric), Titanium alloy, Mechanical engineering, Rotation, law.invention, Reliability (semiconductor), law, Magnet, Electromagnetic shielding, Lubrication, business

Abstract

Tiny lagging-angle magnetic synchronizator application study, which is based on theory at distance, is developed to solve the sealing of radiation gas inside rotation devices of HTR-PM fuel hand system. Within the outer surface of synchronizator in-side rotor and inner surface of synchronizator outer rotor, two-sized heat-resisted permanent magnets have been intensively coated in NNSSNNSS style. Its shielding can adopted Ti6-Al-4V titanium alloy with special bearing to support the cold-state and hot-state experimental study. The results show that materials of all parts of synchronizator has not been weaken after 107Gy dose γ radiation. Synchronizator can meet the requirement of lagging angle, which must be smaller than 0.2 degree based on the control accuracy. But the reliability depends on the bearing arrangement form and their lubrication. Long term operation reliability of magnet driver device, should give priority to solving the oil-free lubrication problem of bearing. The optimal allocation test is carried out on magnet synchronizator and bearing hot-state test facility. And further engineer demonstrations in the operational reliability will be fully taken on full sized fuel handling hot-state test facility.Copyright © 2013 by ASME

Published

2013

14. The stochastic optimal control of fin stabilizers under the ship IPMS networks

Author

Li Xia, Hongke Li, and Yang Yin

Subjects

Stochastic control, Engineering, Quadratic equation, Fin, State-space representation, business.industry, Control theory, Stochastic process, Control system, Computer Science::Software Engineering, business, Optimal control

Abstract

To the information-based development of ship, a area-model network construct of ship integrated platform management system (IPMS) is proposed. The stochastic optimal control of fin stabilizers networked control systems under IPMS is investigated. When long delay of IPMS network is considered, a state space model is derived. A stochastic optimal controller with a quadratic performance index is designed. The simulation results show its effectiveness.

Published

2010

15. Design of global sliding-mode controlled AC servo controller based on exponential acceleration/deceleration algorithm

Author

Wenyan Li, Linshu Huang, Hongke Li, Lizhong Song, Yang Yin, and Huaishu Li

Subjects

Engineering, business.industry, Servo control, Servomotor, Servomechanism, Sliding mode control, law.invention, Acceleration, Control theory, law, Algorithm design, business, Synchronous motor, Algorithm

Abstract

A global sliding-mode controller is developed for position and velocity control of AC servo system based on exponential acceleration/deceleration algorithm. The problem of position and velocity control in the system is analyzed first. On this foundation the exponential acceleration/deceleration algorithm is used to plan the velocity profile. At the same time, the time-varying sliding surface and equivalent control law are especially designed, which realizes the global sliding mode control during position, including acceleration, constant, deceleration, and positioning at low speed stages. The permanent magnet synchronous motor (PMSM) AC servo controller platform is built finally and the experiment is implemented. The experimental results demonstrate the feasibility and effectiveness of the proposed control scheme. The application experiment also proved the controller is more easy to realize and with universal performance.

Published

2010

16. Research on a Security Model of Data in Computer Supported Collaborative Design Integrated with PDM System

Author

Egui Zhu, Hongke Li, Xianfa Ye, Qizheng Liu, and Lizhi Cheng

Subjects

Technology education, Government, Educational neuroscience, business.industry, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Educational technology, Information technology, Experiential education, business, Modernization theory, Experiential learning

Abstract

Education information and modernization is becoming a matter of concern for people. The effect mainly depends on that teachers' knowledge in the field of educational technology. This paper is to improve the educational technology ability of students in Normal University by introducing experiential learning.

Published

2007