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1. Comparative Life Cycle Assessment of Chinese Radial Passenger Vehicle Tire

Author

Xin Sun, Ming Nan Zhao, Ji Hu Zheng, He Xia Wu, Yu Ting Yan, and Peng Zhang

Subjects
Waste management, business.industry, Mechanical Engineering, 05 social sciences, engineering.material, Raw material, Condensed Matter Physics, Product life-cycle management, Mechanics of Materials, Filler (materials), 050501 criminology, engineering, Fuel efficiency, Production (economics), General Materials Science, Environmental impact assessment, Product (category theory), Gasoline, business, 0505 law
Abstract

The life cycle environmental impacts of the new model radial passenger vehicle tire product was evaluated and compared. the silicon dioxide was added to replace part of the carbon black as filler, with its previous model tire product. The study covers all relevant life cycle stages: from the acquisition of raw materials to the production, use, and end-of-life. The data collected onsite in 2014 by one of the largest Chinese tire companies were used in the assessment. The evaluation is presented in terms of individual impact category according to the CML model. Five impact categories (i.e., global warming potential (GWP), acidification potential (AP), photochemical oxidant creation potential (POCP), eutrophication potential (EP), and human toxicity potential (HTP)) were considered. The research was conducted in accordance with the ISO 14040/14044 standards. The results showed that In all the five impact categories, new model tire product is lower than the previous model in the whole life cycle. It is mostly due to the reduction of the fuel consumption during the use stage, which resulted in replacing part of the carbon black with silicon dioxide. Fuel (gasoline) consumption represents an important contribution to most impact categories, including the GWP, AP, POCP, and EP, during the use stage. Vehicle fuel consumption and its proportion consumed by the tires during the use stage are key factors that contribute to environmental impact during tire life time. The largest contributor to the HTP category is raw material acquisition, mainly because of the impact of the production of organic chemicals. During the raw material acquisition stage, natural rubber, synthetic rubber, carbon black, and organic chemicals represent the largest contribution to the environmental impact categories, which could be mitigated by reducing the use of raw materials, replacing the aromatic oil with environmental oil in the new model tire product.

Published
2017

2. Research on the Simultaneous Desulfurization and Denitrification of Fumes by Combining Ozone Oxidation and the Double Alkali Method

Author

Bang Fa Peng, Min Xu, Ming Li, Zhao Ji Hu, and Lin Sheng Wei

Subjects
chemistry.chemical_compound, Reaction mechanism, Ozone, Denitrification, chemistry, Inorganic chemistry, General Engineering, Partial pressure, Absorption (electromagnetic radiation), Chemical reaction, NOx, Flue-gas desulfurization
Abstract

This paper introduced the fundamental principle of the simultaneous desulfurization and denitrification by combining ozone oxidation and the NaOH double alkali method. And the total chemical reaction equations were achieved by analyzing the process of the absorption of the productions of ozone oxidation by NaOH double alkali method. Then, based on thermodynamic principle, the partial pressure of SOx, NOx and CO2 when reactions reached equilibrium were calculated respectively. This paper also studied the reaction mechanism of the absorption of SOx and NOx and analyzed the absorption characteristic of SOx and NOx in absorption solution. The results showed that the simultaneous desulfurization and denitrification by combining ozone oxidation and NaOH double alkali method was feasible. Not only the elimination ratio of SOx and NOx were almost up to 100%, but also CO2 was removed on a considerable scale. The partial pressure of SOx and NOx was very important to the pH value of the absorption solution which affected the elimination ratio of SOx and NOx greatly.

Published
2014

3. Study on Web3D Technology in Safety Management of Petrochemical Enterprise

Author

Wen Jiang Chen, Jiao Yang Liu, Da You, and Zhao Ji Hu

Subjects
Engineering, Government, business.industry, General Medicine, Virtual reality, computer.software_genre, Hazard, Shared resource, Engineering management, Virtual machine, Management system, Web page, Systems engineering, business, computer, Digitization
Abstract

For the current safety management of enterprise, this paper describes the modern safety management based on the network environment. The system of major hazard installation (MHI) and its surrounding three-dimensional (3D) geographic information simulation is developed by using virtual reality (VR) technology to establish a digital virtual environment (VE) of petrochemical enterprise. Safety information simulation of petrochemical enterprise, which can be browsed through Web page and managed by human-computer interaction (HCI), is achieved by the seamless integration with the network. The safety management system (SMS) which is characterized by networking and digitization is eventually completed. It not only ensures the fluency of resource sharing but also the VR simulation provides the government and enterprises with a reasonable command platform to implement safety management efficiently.

Published
2014

4. Research in Calculation Method of Automotive Eco-Design Assessment

Author

Ji Hu Zheng, Jing Wang, Nai Jin Zheng, Wei Wang, Peng Zhang, and Yi Jing Hui

Subjects
Engineering, Design assessment, Index (economics), business.industry, Automotive industry, Weight coefficient, General Medicine, Limit (mathematics), Assessment index, business, Reliability engineering
Abstract

Firstly, the importance and necessity of automotive eco-design were introduced. And then, the limit standards, testing methods and weight coefficient of basic indexes in assessment index system were pointed out. A linear-type dimensionless automotive eco-design assessment calculation method of individual index was proposed. Finally, the automotive eco-design assessment results calculation method was illustrated.

Published
2014

5. The Study on the Effect on Seawater Desalination and Boron Removal by Ro-EDI Desalination System

Author

Zhao Ji Hu, Er Ming Ouyang, Yi Liang Hu, and Fei Feng

Subjects
chemistry, Seawater desalination, General Engineering, Environmental engineering, chemistry.chemical_element, Seawater, Water quality, Electrodeionization, Boron, Total dissolved solids, Reverse osmosis, Desalination
Abstract

A hybrid process coupling reverse osmosis (RO) with electrodeionization (EDI) was investigated to remove TDS and boron from simulated seawater in this study. The effects of applied total dissolved solids (TDS) and the concentration of boron in the feed water on product water quality were investigated. According to the results obtained, the TDS of the product water increased when a high applied TDS in the feed water; however, all of the TDS of the product were complying with relevant standards within experimental parameters. When the boron concentration was below 5.64mg/L in the feed water, the boron concentration of the product water was complying with relevant standards.

Published
2014

6. Implementation of the Dynamic Tension Load of Cell Membrane and its Stress Analysis

Author

Wen Ji Hu, Xue Bin Tang, Yu Yu, and Ji Xiang Zhou

Subjects
Materials science, business.industry, Cell, Stress–strain curve, General Medicine, Structural engineering, Dynamic Tension, Mechanics, Static pressure, Cell membrane, Stress (mechanics), On cells, Cell stress, medicine.anatomical_structure, medicine, business
Abstract

Cell stress experimental study is currently a domestic and overseas research hotspot. Related research findings are widely applied to study the proliferation, activation, and functional status of cells when they are faced with deformation under physiological or pathological condition. It is of great significance to study the motion and status of cell and extra-cellular matrix under different stresses, for this may help us to further discover the re-build law of cell tissue, and to figure out corresponding remedy mechanism [. In order to disclose the relation between cell tissue proliferation activation result and the magnitude, property, affection duration and frequency of cell stress, so as to further reveal the proliferation and activation law of cell tissue, a dynamic stress with adjustable frequency and pressure is exerted. Hence, we developed a membrane-type variable stress wave cell membrane dynamic tensile stress test system [2-. The test system is designed to experimentally research several cell samples bearing stress from the same source at the same time, which is able to offer a required static pressure on tested cell tissue, as well as cell membrane experiment stress wave with certain variable frequency (0-20 times per minute) and adjustable magnitude. How to load dynamic tensile stress on cells is a key problem to be solved in cell culture test system. In allusion to the problem, a mechanical model is constructed in this paper, so as to analyze related mechanical features. On this basis, the stress and strain distribution law of various points on cell membrane is figured out. This has provided theoretical basis for area selection and design of cell seeding, experimental research on cell stress and result analysis.

Published
2014

7. Preparation of Ag Nanoparticles Arrays for Silicon Solar Cells

Author

Chun Yan Duan, Hui Shen, Chang Ji Hu, Dong Liang Lu, and Xiao Xia Zhao

Subjects
Materials science, Silicon, Absorption spectroscopy, Manufacturing process, business.industry, Annealing (metallurgy), General Engineering, Nanoparticle, chemistry.chemical_element, Nanotechnology, Ag nanoparticles, Dielectric, chemistry, Particle-size distribution, Optoelectronics, business
Abstract

Ag nanoparticles arrays were fabricated by self-assembly method to accommodate manufacturing process of traditional silicon solar cells. Surface morphologies of films (5-27.5 nm) after annealing treatment with 260 °C and 400 °C were analyzed. The results showed that annealing temperature has important impact on self-assembled nanoparticles arrays. The tuning function of SiNx dielectric film was also analyzed. The absorption peak generates a redshift with the maximum range about 100 nm in the absorption spectrum, and the peak widths become wider with the increase of thickness of SiNx dielectric film for the same particle size distribution of Ag nanoparticles arrays.

Published
2013

8. Research in Assessment Index System of Automotive Eco-Design

Author

Peng Zhang, Ji Hu Zheng, and Wei Wang

Subjects
Engineering, Index (economics), business.industry, Process (engineering), Health impact, General Engineering, Automotive industry, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Expert consultation, Assessment index, Manufacturing engineering, Product life-cycle management, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, business, Desk
Abstract

Firstly, the process of establishing automotive ecology related systems and the necessity of automotive eco-design assessment to carry out were introduced. The overall objective of automotive eco-design assessment about China was described. And then, automotive eco-design assessment system of China was established by screening the most vulnerable index of energy-saving, environmental protection and health impact in all automotive life cycle stages by the approaches of desk information research, business investigation visit and industry expert consultation. Finally, a wide range of automotive eco-design assessment strategy model was proposed.

Published
2013

9. Research on Dimerization of Oleic Acid Catalyzed by Organic Montmorillonite

Author

Chao Zhou, Jian Zhong Lou, Qiu Jie Yang, Da Peng Huang, Ji Hu Wang, Tong He Zhu, Chuan Rong Liu, and Si Hao Chen

Subjects
Reaction conditions, chemistry.chemical_compound, Oleic acid, Reaction temperature, Montmorillonite, Chemistry, General Engineering, Dimer acid, Organic chemistry, Composition (visual arts), Raw material, Catalysis
Abstract

A dimer acid was synthesized by Diels-Alder action using single oleic acid as raw material. Effects of different reaction conditions on composition and mechanism for Diels-Alder action of oleic acid were discussed. The result showed that the conversion of dimer acid was 71.7% under using the amount of organic montmorillonite as catalyst 9% (in term of mass of system), reaction temperature 260°C, reaction time 8h. It is to be a certain significance to improve the quality of dimer acid with oleic acid as raw material.

Published
2013

10. The Research Status of Spongy Composite in the Wound Dressings

Author

Ji Hu Whang, Shu Yu Ge, Si Hao Chen, Da Peng Huang, Chuan Rong Liu, Tong He Zhu, Jin Cheng Wang, Jian Zhong Lou, Qiu Jie Yang, and Chao Zhou

Subjects
Materials science, integumentary system, Composite number, General Engineering, Medicine field, Biomedical engineering
Abstract

The spongy dressing was widely used in the pharmacy and medicine field. In this paper the classification, preparation and defects of the spongy composite wound dressings based on the literature at domestic and overseas were introduced. The freeze-drying method was commonly used to prepare spongy composites.

Published
2013

11. Experimental Research on the Seismic Behavior of Enclosing Masonry Walls Simulated the Structure of an Ancient Masonry Pagoda Strengthened with Steel Straps

Author

Yong Qian, Sheng Cai Li, and Meng Ji Hu

Subjects
Engineering, business.industry, Structure (category theory), Masonry veneer, General Medicine, Structural engineering, Masonry, Pagoda, Geotechnical engineering, Bearing capacity, Restoring force, Unreinforced masonry building, business, Ductility
Abstract

in this paper, four single-layer masonry wall models in1/8 scale were made by a kind of special bricks on the basis of an ancient masonry pagoda structure. The models are divided into two groups by whether there is a masonry floor in a model or not. Pseudo-static test is introduced to study the seismic performance of four models with a special load control process which is suited to masonry structure. According to the test results, the horizontal bearing capacity and ductility of each masonry walls reinforced with steel straps under horizontal low cyclic loading has been sorted out. Four nonlinear restoring force models are inferred from the experimental results and phenomena under various operating conditions. And the shear capacity calculation formula of reinforced masonry wall models is fit out. The theory and experimental study show that seismic performance of the masonry pagodas strengthened with steel straps has been improved significantly.

Published
2013

12. The Research and Structure of the Dynamic Workflow Engine

Author

Qi Yin and Ji Hu

Subjects
Database, business.industry, Windows Workflow Foundation, Computer science, General Engineering, computer.software_genre, Workflow engine, XPDL, Workflow technology, Business process management, Workflow, Web service, business, Software engineering, Workflow Management Coalition, computer, Workflow management system
Abstract

Workflow management technology is an important computer technology in enterprise business process management. At present, there was a few of Workflow Engine which supported BPEL4WS specification. Base on the current research case of workflow, the aim of our study bring a Workflow platform support BPEL4WS Specification.According to the analysis of the web service’s new features and issues, we look into the dynamic workflow based on web services from the angles of service-oriented. We introduce the basic concepts, elements , activity, fault handler and compensate mechanism of BPEL4WS.This paper presents a design schem of framework of a web service-based dynamic workflow engine.

Published
2013

13. The Specific Binding between Galactose Group and Ricinus Communis Agglutinin (RCA) Investigated with Microcantilever

Author

Hui Min Liu, Hui Yong Zhang, and Ji Hu

Subjects
biology, Atomic force microscopy, Mechanical Engineering, Analytical chemistry, chemistry.chemical_compound, chemistry, Mechanics of Materials, Covalent bond, Galactose, Monolayer, Ricinus communis agglutinin, biology.protein, Biophysics, General Materials Science, Self-assembly, Bovine serum albumin
Abstract

The specific recognization between galactose group and Ricinus Communis Agglutinin (RCA) was investigated by microcantilever. The gold side of the microcantilever was covalently bound with N-galactose, RCA and asialofetuin (ASF) via mixed self assembly monolayer of 11-mercaptoundecanoic acid and 6-mercaptohexanol, respectively. After adding RCA into the flowing cell, the deflection could be observed on the N-galactose or ASF modified microcantilever. Meanwhile, the deflection could also be observed after ASF bound to the RCA modified microcantilever. In order to prove that the deflection is caused by the specific interaction between the galactose group and RCA, bovine serum albumin (BSA) was introduced into the flowing cell as control experiment and no obvious deflection was observed. The specific interaction was also confirmed by the evidence that the bound protein layer can be mechanically removed with atomic force microscopy nanolithography technology.

Published
2012

14. Study on the UV Photosensitive of Hexaarylbiimidazole Photoinitiator System

Author

Ji Hu and Wan Hui Wang

Subjects
Materials science, Hydrogen, Inkwell, business.industry, chemistry.chemical_element, General Medicine, Photochemistry, medicine.disease_cause, body regions, chemistry.chemical_compound, chemistry, Hexaarylbiimidazole, medicine, Optoelectronics, business, Photoinitiator, Curing (chemistry), Ultraviolet, circulatory and respiratory physiology
Abstract

2-chlorohexaarylbiimidazole; sensitizer; hydrogen donor; deeper layer’s curing speed Abstract.The ultraviolet photosensitive initiating system is composed of hexaarylbiimidazole (BCIM), sensitizer and hydrogen donor coinitiator. The effect of sensitizer and hydrogen donor on the curing speed, especially on the deeper layer’s curing speed of ink was studied. The experimental results shown that the deeper layer’s curing speed of the ink system mainly depend on the type and the amount of the sensitizer and the hydrogen donor. The amount of the total initiators in the ink formulation is optimized. This hexaarylbiimidazole initiating system is promisingly useful in silk-screening ink and “green ink” for printing circuit board

Published
2012

15. Application of New Emulsifier on Acrylic Emulsion Polymerization

Author

Shi Gao Song, Yan Shen, Ji Hu Wang, and Shao Guo Wen

Subjects
chemistry.chemical_classification, Correlation coefficient, Chemistry, Kinetics, technology, industry, and agriculture, General Engineering, Glycoside, Emulsion polymerization, macromolecular substances, Activation energy, Chain-growth polymerization, Polymerization, Polymer chemistry, Alkyl
Abstract

In this paper, we studied the influence of the amount of alkyl glycosides emulsifier, reaction temperature and the amount of initiator on emulsion polymerization kinetics. The results show that when we apply the new alkyl glycosides emulsifier in acrylic emulsion polymerization, the relationship between polymerization rate Rp and emulsifier concentration [S] is Rp∝[S]0.70 and the correlation coefficient is 0.93; the relationship between polymerization rate Rp and the initiator concentration [I] is Rp∝[I]1.00 and the correlation coefficient is 0.86; the apparent activation energy of polymerization is 32.34KJ/mol and the correlation coefficient is 0.93. We got good results after applying the new type emulsifier in acrylic emulsion polymerization.

Published
2012

16. Effect of Welding Method on the Hardness of Joint of 600MPa Grade New Generation Steel

Author

Tao Pen, Lun Ji Hu, Yu Tao Wang, Jia He, and Zhi Jun Huang

Subjects
Heat-affected zone, Materials science, law, Metallurgy, General Engineering, Welding, Composite material, Softening, Joint (geology), Base metal, Weld metal, law.invention, Gas metal arc welding
Abstract

Laser-MAG hybrid, GMAW and SAW welding experiment were carried out for the new low CE 600MPa grade steel, and hardness survey on the welded joints was performed. Laser-MAG hybrid welding has the highest speed with the least filling weld metal, and its joint exhibits almost no softening with higher harness in weld than base metal. SAW welding has high efficiency but most significant softening effect on the HAZ. For SAW, on the HAZ 4 ~ 5 mm apart from the fusion line peak hardness exists. For GMAW, on the HAZ about 2mm away from the fusion line a softened zone appears, but the softening degree is lower than for SAW. The results showed that the hardness of the welded joint of this type of steel seems much subjected to the welding heat input.

Published
2012

17. Synthesis and Thermal Energy Storage Characteristics of Hyperbranched Polyurethane as Novel Solid-Solid Phase Change Material

Author

Ji Hu and Wan Hui Wang

Subjects
Phase transition, Materials science, Morphology (linguistics), Extender, General Medicine, Thermal energy storage, Phase-change material, law.invention, chemistry.chemical_compound, Differential scanning calorimetry, Chemical engineering, Optical microscope, chemistry, law, Polyurethane
Abstract

A novel hyperbranched polyurethane solid-solid phase change heat storage material (HB-PUPCM) using hyperbranched polyester as chain extender was synthesized via a two-step process. Differential scanning calorimetry (DSC) and polarizing optical microscopy (POM) were performed to investigate the phase transition behaviors and crystalline morphology. The results indicated that the HB-PUPCM was a good polymeric solid-solid phase change heat storage material.

Published
2012

18. Enhanced Two-Photon 3D Optical Storage in a Novel Multibranched-Dye Doped Photobleaching Polymer

Author

Ji Hu, Bin Guo, Hao Liang, and Fu Quan Guo

Subjects
3D optical data storage, Materials science, business.industry, General Engineering, Absorption cross section, Optical storage, Photochemistry, Triphenylamine, Photobleaching, Two-photon absorption, chemistry.chemical_compound, chemistry, Femtosecond, Optoelectronics, business, Absorption (electromagnetic radiation)
Abstract

A novel multibranched nonlinear dye,4, 4´, 4´´-tris(9-carbazyl-trans-styryl) triphenylamine (TCSTPA),has been designed and synthesized aimed at two-photon absorption applications. Two-photon absorption cross section of the multibranched dye was obtained as high as 2.35×10-47cm4s photon-1molecule-1pumped with femtosecond laser beam at 800 nm. One-photon and two-photon absorption optical properties were demonstrated in solutions. Three-dimensional (3D) optical data storage experiments were carried out by two-photon photobleaching in the multibranched-dye doped polymethylmethacryate (PMMA) with a 3D data storage density of approximate 14 Gbits/cm3. Research on the two-photon photobleaching ability shows the novel two-photon absorption dye with multibranched molecular motif has higher photosensitivity than traditional linear two-photon absorption dyes do.

Published
2012

19. An Experimental Study of Fatigue Crack Propagation of 16MnR Pressure Vessel Steel in Mode-I Constant Amplitude Loading

Author

Zengliang Gao, Wen Feng Tu, and Zhao Ji Hu

Subjects
Materials science, business.industry, General Engineering, Crack tip opening displacement, Structural engineering, Paris' law, Crack growth resistance curve, Pressure vessel, Stress (mechanics), Crack closure, mental disorders, Composite material, business, Compact tension specimen, Stress concentration
Abstract

An experimental investigation was performed on fatigue crack growth behavior of a 16MnR pressure vessel steel. Standard compact tension (CT) specimens with three specimen thicknesses and notch sizes were subjected to Mode I constant amplitude loading with several stress ratios and loading amplitudes. The results revealed that the stress ratio had an insignificant influence on the fatigue crack growth of the material. The stable fatigue crack growth rate (FCGR) was accelerated as specimen thickness increased. The fatigue crack was extended in terms of the curve crack shape. The crack front at the surface was retarded compared to that at the interior along thickness direction, and the crack front at the mid-thickness plane reached the maximum value of the crack length. The similar curve crack shape was obtained in the stable crack growth stage. The maximum difference of the crack front along thickness direction was increased with the increasing of the specimen thickness. The early crack growth from the notch was effected by the size of the notch, the stress ratio and loading amplitude.

Published
2012

20. Study on Melt Adhesive Used in Aluminium-Plastics Composite Board

Author

Ji Hu Wang, Jin Shen Chen, Yan Shen, and Shao Guo Wen

Subjects
Materials science, Plastics extrusion, Composite number, General Engineering, Benzoyl peroxide, Polyethylene, chemistry.chemical_compound, Low-density polyethylene, surgical procedures, operative, chemistry, Graft polymer, medicine, Shear strength, Adhesive, Composite material, medicine.drug
Abstract

In this paper,lower polyethylene(LDPE) was melt to graft maleie anhydride (MAH) in reactive extruder by using dicumyl peroxide(DCP) and benzoyl peroxide(BPO) as the initiator. It can be found that MAH has been grafted to LDPE large molecular chain using by infrared spectrum and graft rate measurement. Orthogonal experiments were employed to confirm the influences of initiator, MAH and LDPE. The results showed that the reaction graft ratio firstly increased,then began to decrease with the increasing of the contents of MAH and initiator. The maximum shear strength was at 2.12MPa when graft polymer was used to adhesive the board of aluminum and polyethylene. The graft rate of graft polymer was at 15.68%.

Published
2012

21. Analysis of Mixed-Mode Fatigue Crack Growth under Stress Redistribution at Crack Tips

Author

Zhao Ji Hu, Zengliang Gao, and Wen Feng Tu

Subjects
Materials science, business.industry, Crack tip opening displacement, General Medicine, Structural engineering, Paris' law, Crack growth resistance curve, Finite element method, Crack closure, mental disorders, Perpendicular, Growth rate, Composite material, business, Stress concentration
Abstract

The experiments of mixed-mode I-II fatigue crack growth under stress redistribution at crack tips were conducted with compact specimens made of 16MnR steel. This test consisted of the 1st, the 2nd and 3rd step. When the crack reached a certain length in 1st step, the loading direction was switched to a certain angle. Finally, the loading direction was returned to the original orientation. The stress redistribution of mixed-mode fatigue was formed by altering the loading direction at propagating crack tips. A finite element analysis was also conducted to obtain the and values, and then mixed-mode crack growth parameters were adopted to evaluate the crack growth rate and crack paths. The crack growth paths had a tendency perpendicular and across to the loading axis. Right after the loading direction was changed, the crack growth rate was decreased rapidly, and crack growth paths under the stress redistribution zone (SRZ) were affected.

Published
2011

22. Research on the Information Extraction Technology of STEP

Author

Wei Zhao, De Ji Hu, Xue Bin Liu, and Chong Ning Li

Subjects
business.industry, Flat file database, Computer science, Computer file, Device file, General Medicine, computer.file_format, Class implementation file, File format, Microsoft Visual Studio, Design rule for Camera File system, Matroska, Data file, Image file formats, business, computer, Computer hardware
Abstract

In order to generate STEP-NC data model in keeping with the ISO14649 protocol, extend the STEP model to the field of the CNC, the paper analyzes STEP standard and its file structure, develops the display software which can be read and display the STEP format file based on open source Open CASCADE geometric kernel by using the Visual Studio 2008 software development environment, designs one instance by using Pro/E software, and stored as a STEP format file in Pro/E environment, and then, using the software developed to read and display the STEP file. The results of this study improve the product data exchange and integration capabilities, lay a good foundation for generating the STEP-NC format file in the future, extracting the file STEP-NC machining information, and achieving CAD / CAM / CAPP integration system.

Published
2011

23. The Simulation of the Planting Movement for the Dibble-Type Transplanter

Author

Lei Liu, Ke Wu, Shuang Ji Hu, Yong Cheng Chen, and Xin Yan Qin

Subjects
Movement (music), Computer science, Sowing, General Medicine, Type (model theory), Simulation
Abstract

Based on the movement procedure of the Dibble-type Transplanter, the equation of planting movement for the planting apparatus was established. According to the classic theory characteristic parameter λ>1 planting is necessary for the normal working conditions, computer simulation depending on the equation of planting movement was proceeded. The purpose of the computing simulation is to emulate the movement of the Dibble-type Transplanter. Several kind of values for λ is considered, such as the condition λ1. Through the analysis of the computer results, the classical theory λ>1 is necessary for the normal working conditions is confirmed.

Published
2011

24. Modeling of Rope Longitudinal Vibration on Flexible Hoisting System with Time-Varying Length

Author

Peng Zhang, Ji Hu Bao, and Chang Ming Zhu

Subjects
Engineering, Mathematical model, Elevator, Deformation (mechanics), Discretization, business.industry, General Medicine, Structural engineering, Control theory, Galerkin method, business, Longitudinal vibration, Mutual influence, Rope
Abstract

Aimed at the longitudinal vibration of rope hoisting system with time-varying length, the governing equations are developed employing the Hamilton’s principle considering mutual influence of the rigid motion and deformation of rope. The Galerkin’s method is used to discretize the governing equations. In the mean time, The motions of elevator hoisting system were illustrated to evaluate the proposed mathematical models. The results of simulation show that the modeling methods can represent the longitudinal vibration of rope hoisting system with time-varying length in the paper. The governing equations derived can provide guidelines for further study on flexible hoisting system.

Published
2011

25. The Research on Analysis and Simulation of Planting Movement for the Dibble-Type Transplanter

Author

Yong Cheng Chen, Shuang Ji Hu, Fu Qing Zhang, Xin Yan Qin, and Lei Liu

Subjects
Movement analysis, Engineering, Classical theory, business.industry, Movement (music), General Engineering, Sowing, Agricultural engineering, business, Simulation
Abstract

The parameters of planting movement for the Dibble-type Transplanter was researched by this papper.Based on the trajectory of the Dibble-type Transplanter,the equation of planting movement was established.According to the classical theory “characteristic parameter λ>1 planting is necessary for the normal working conditions”,it confirmed technical requirements and stucture parameters for transplanter and founded the intrinsic link between them,then computing simulation was conducted to test and vertify the conclusion which would be used to provide theoretical basis for stucture designing of planting apparatus.

Published
2011

26. Surface Modification of the UHMW-PE Film Processing by Hot Compression Molding

Author

Shi Gao Song, Ji Hu Wang, Qian Xu, Shao Guo Wen, Yan Shen, and Hing Bo Liu

Subjects
Materials science, Ultimate tensile strength, General Engineering, Antistatic agent, Transmittance, Surface modification, Compression molding, Elongation, Composite material, Sheet resistance, Dissociation (chemistry)
Abstract

The properties of UHMW-PE film produced by hot compression molding and films modified by acid and anti-static agent were characterized. The results showed that: a) the thickness distributing of the film which processing by calendar rolling with conventional design roller is inhomogeneity; the tensile strength was 37.22 MPa, the elongation at break was 368.00%; the transmittance increases with wavelength redshift shows short-wave absorption and long-wave transmission; initial temperature of dissociation is 320°C; the surface resistance 1010 Ω and maximum is higher than 1016 Ω. b) Acid modification the surface of UHMW-PE film moderates the surface antistatic performance. C) After modified the film with external anti-static agent, the surface resistance was around 107Ω, but anti-static properties loss rapidly after friction. If modified the film with internal anti-static agent, the surface resistance was around 1010 Ω and have a long-lasting anti-static effect.

Published
2011

27. Application of a Novel Initiator on Acrylic Emulsion Polymerization

Author

Shi Gao Song, Ji Hu Wang, Hong Bo Liu, Qian Xu, Shao Guo Wen, and Yan Shen

Subjects
Living free-radical polymerization, Materials science, Chain-growth polymerization, Bulk polymerization, Polymerization, Radical polymerization, Polymer chemistry, General Engineering, Precipitation polymerization, Chain transfer, Ionic polymerization
Abstract

New initiator of FFM6 is used to initiate the acrylic emulsion polymerization. The influences of concentration of FFM6 (c[I]) and polymerization temperature (T) on polymerization reaction rate (Rp) were discussed. Rp is proportional to (c[I])1.4 which is different with classical emulsion polymerization whose Rp is proportion to (c[I])0.4, that indicate polymerization mechanism of the reaction in the study is different with classical mechanism. The value of Ea, 56.4 kJ/mol, is lower than the value of general radical polymerization’s Ea (80.0-96.0 kJ/mol), which indicates the FFM6 can initiate acrylic emulsion polymerization at a lower temperature compared with the other kinds of initiator.

Published
2011

28. Flame Retardant Polyamide 6 Composites Using NMH or NMH/MCA/APP

Author

Ji Hu Wang, Hong Bo Liu, Hai Liang Qi, Wei Wei Hu, Qian Xu, Yan Shen, and Shao Guo Wen

Subjects
Rockwell scale, chemistry.chemical_compound, Materials science, chemistry, Scanning electron microscope, Polyamide, Ultimate tensile strength, Melamine cyanurate, General Engineering, Hydroxide, Composite material, Ammonium polyphosphate, Fire retardant
Abstract

In this paper, flame retardant Polyamide 6 (PA6) composites were prepared by nano-magnesium hydroxide (NMH) or its composites with melamine cyanurate(MCA) and ammonium polyphosphate(APP). Scanning electron microscopy (SEM) and X-ray diffraction (XRD) were used to analyze the structure of nano-magnesium hydroxide. The properties including tensile properties, molten index (MFI), rockwell hardness and density of flame retardant PA6 were analyzed. Orthogonal experiments were used to study flame retardancy of PA6 with NMH, MCA and APP. The results showed NMH had hexagonal orthorhombic crystal structure with size of 300×200×100nm. Density of polyamide 6 showed an upward trend when the content of NMH was increasing, the mechanical properties and hardness changed little while processing performance serious declined. The flame retardance of nitrogen-phosphorus -inorganic flame retardants was not desirable.

Published
2011

29. Research on Creep Fracture Mechanics Parameter by Reference Stress Method

Author

Ting Zhang and Zhao Ji Hu

Subjects
Materials science, Creep, business.industry, Creep coefficient, Crack initiation, General Engineering, Exponent, Reference stress method, Fracture mechanics, Structural engineering, business, Finite element method
Abstract

Creep fracture mechanics parameter C* is used to relate the data of Creep crack initiation (CCI) and Creep crack growth (CCG). Reference stress method (RSM) can be used to explain the result of finite element analysis on evaluating structures, and it is widely used to design and assess of general structures. The result of C* is affected by the creep coefficient A and creep exponent n for power-law creep in solving creep fracture mechanics parameter C* though using RSM.

Published
2011

30. Dimensional Analysis to Ozone Generation by Pulsed Streamer Discharge in Dry Air

Author

Zhao Ji Hu, Ya Fang Zhang, and Lin Sheng Wei

Subjects
chemistry.chemical_compound, Ozone, Chemistry, General Engineering, Analytical chemistry, Breakdown voltage, chemistry.chemical_element, Plasma, Streamer discharge, Nitrogen, NOx, Corona discharge, Volumetric flow rate
Abstract

The generation of ozone is efficient by using short high-voltage combined with a dielectric layer placed adjacent to the outer electrode in dry air. Ozone concontration depend on the peak pulsed voltage, pulse repetition rate, gas flow rate, reactor length and so on. For ozone generation by pulsed streamer discharge in dry air, a mathematical model, which describes the relation between ozone concentration and these parameters that are of importance in its design, is developed according to dimensional analysis theory. The presence of nitrogen on ozone formation in dry air cannot only consume high energy electron but also form nitrogen oxides (NOx) in discharge plasma. Nitrogen oxides (NOx) play an important role in the process of ozone generation in air discharge, where the catalytic cycle for ozone destruction takes place. So the nitrogen influencing factor should be considered. Formula is derived for predicting the characteristics of the ozone generation, within the corona inception voltage to the gap breakdown voltage. The predicted results are shown to be in good agreement with experimental findings.

Published
2011

31. Effects of Organic Acid Radicals on Degradation of Orange II in UV-Fenton System with Hydroxyl-Fe-Pillared Bentonite as Catalyst

Author

Jun Li, Yan Hong Yao, Jian Xin Chen, Kai Yi Zeng, Xue Xia Yuan, and Zhao Ji Hu

Subjects
inorganic chemicals, chemistry.chemical_classification, Sodium, Inorganic chemistry, General Engineering, chemistry.chemical_element, Orange (colour), Sodium oxalate, Catalysis, chemistry.chemical_compound, Malonate, Reaction rate constant, chemistry, Sodium citrate, Organic acid
Abstract

In this paper, the effects of organic acid radicals on degradation of Orange II in UV-Fenton system with hydroxyl-Fe-pillared bentonite as catalyst were studied in detail. The results showed that the rate constants of UV-Fenton reaction will decrease when the system contains sodium citrate or sodium malonate. While the rate of Orange II degradation in UV-Fenton system could increase up to 33.3% and 41.7% when EDTA and sodium oxalate were present, respectively. As the additional TOC of EDTA is higher than sodium oxalate, adding sodium oxalate is a more promising enhanced method for Orange II degradation in UV-Fenton system. The rate of Orange II degradation could increase 25%, 42% and 175% when the concentrations of additional sodium oxalate increased up to 0.1 mM, 0.2 mM and 0.4 mM, respectively.

Published
2010

32. Influence of Bias Voltage on the Structural Properties and Adhesive Performance of ZnO Thin Films Deposited by Cathodic Vacuum Arc Deposition on Polyimide Foil Substrates

Author

Chang Ji Hu and Zhen Hui He

Subjects
Compressive strength, Materials science, General Engineering, Polymer substrate, Biasing, Adhesive, Vacuum arc, Composite material, Thin film, Polyimide, Cathodic protection
Abstract

ZnO thin films were deposited on polyimide foil substrates using cathodic vacuum arc deposition technique. X-ray diffraction was used to investigate the influence of bias voltage on the structure of ZnO thin films. The results show that all the samples have (002) preferred orientation. The internal stress of the films is compressive stress which increases with the bias voltage. Fragmentation test shows that the intrinsic interfacial shear strength of ZnO thin film without bias voltage is slightly lower than the shear yield strength of polyimide substrate; the intrinsic interfacial shear strength of ZnO thin film increases with the bias voltage from -50V to -200V, which indicates that bias voltage is beneficial to the enhancement of the adhesion between ZnO films and polyimide substrates. Further increase of the bias voltage to -300V leads to surface damage of the polyimide substrates.

Published
2010

33. Degradation of Azo Dye Orange II in Aqueous Solution by Homogeneous UV-Fenton Process with Low Concentration of Fe3+ as Catalyst

Author

Jun Li, Zhao Ji Hu, Jian Xin Chen, Xue Xia Yuan, and Yan Hong Yao

Subjects
Aqueous solution, Chemistry, Homogeneous catalysis, General Medicine, Orange (colour), Catalysis, Metal, chemistry.chemical_compound, Reaction rate constant, Homogeneous, visual_art, visual_art.visual_art_medium, Hydroxyl radical, Nuclear chemistry
Abstract

In this paper, degradation of Orange II by homogeneous UV-Fenton process with low concentration of Fe3+ as catalyst was detected. And the effects of UV light wavelength, initial pH and reaction temperature on degradation of Orange II in homogeneous UV-Fenton system were studied in detail. It was found that the arithmetic sum of the rate constants of dye degradation in Fenton and UV-H2O2 and UV was much lower than that in UV-Fenton system with low concentration of Fe3+ as catalyst. The result showed that using low concentration of metallic salts as homogeneous catalyst would be a good alternative in UV-Fenton system for wastewater treatment.

Published
2010

34. Research on the CNC Machining Simulation Model Build and Realize Based on the Spiral Bevel Gear with Forming Method

Author

De Ji Hu, Qing Guo Meng, and Wei Zhao

Subjects
Hobbing, Engineering, business.product_category, Cutting tool, Spiral bevel gear, business.industry, General Engineering, Process (computing), Mechanical engineering, Machine tool, Position (vector), Bevel gear, Numerical control, business
Abstract

In view of the spiral bevel gear machined by the semi-generating means, a new method to create 3D solid model is proposed. The equation of tooth profile surface is deduced from the principles of spiral bevel gear engagement and cutting, according to the position relationship of the machine tool, the cutting tool and the workpiece, along with the cutting tooth process. Then the three-dimensional solid model of spiral bevel gear is developed with the delphi program using the known parameters and the above mathematic equations. The effectiveness of this method has been demonstrated.

Published
2010

35. The Mechanical Properties of Modified Attapulgite Reinforced Nature Rubber and Styrene-Butadiene Rubber Nanocomposites

Author

Shao Guo Wen, Yan Shen, Ji Hu Wang, and Hong Bo Liu

Subjects
Styrene-butadiene, Nanocomposite, Materials science, General Engineering, Adhesion, Styrene, chemistry.chemical_compound, chemistry, Natural rubber, visual_art, Ultimate tensile strength, visual_art.visual_art_medium, Coupling (piping), Nanorod, Composite material
Abstract

Attapulgite (AT)/natural rubber (NR)/ styrene-butadiene rubber (SBR) nanocomposites have been prepared after attapulgite was modified by different coupling agent. The treatment of AT caused the adhesion between AT nanorods and the nature rubber/styrene-butadiene rubber was improved, which enhanced the tensile properties of the matrix. The tensile strength of composites attained 15.6 MPa after AT was modified by 3%wt Si-69 coupling with addition of 20 phr.

Published
2010

36. Research of Properties and Preparation on Zero-VOC Acrylic Elastic Emulsion

Author

Yan Shen, Qian Xu, Shao Guo Wen, Ji Hu Wang, and Hong Bo Liu

Subjects
endocrine system, Materials science, Precipitation (chemistry), General Engineering, Shell (structure), Core (manufacturing), engineering.material, chemistry.chemical_compound, Monomer, chemistry, Coating, Emulsion, engineering, Elongation, Composite material, Glass transition
Abstract

The core-shell acrylic emulsion was synthesized,with P(MMA/BA) as core,and with P(2-EHA/MBA/HPA) as shell. The influence of the mass ratio of core/shell on mechanical properties was investigated in detail. The high elongation at break proved that the emulsion may have a potential application in coating industry, afforded by HPA as functional monomer. However, when the amount of HPA exceeds 1.5 wt. % to the total monomers, the emulsion will become unstable and precipitation occurs.

Published
2010

37. Airport Gate Assignment Model Based on Gate Occupied Efficiency

Author

Si Ji Hu, Wen Deng, and Pan Zheng

Subjects
Engineering, Schedule, business.industry, General Engineering, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Tabu search, Reliability engineering, Core (game theory), Task (computing), Order (business), Key (cryptography), Combinatorial optimization, business, Simulation, Integer (computer science)
Abstract

Airport gate assignment is to appoint a gate for arrival or leave flight and to ensure that the flight is on schedule. Assigning the airport gate with high efficiency is a key task among the airport ground operation. As the core of airport operation, aircraft stands assignment is known as a kind of complicated combinatorial optimization problem. In this paper, occupied gates in order to optimize the efficiency of the target index, the purpose of parking gates in order to save the resource utilization and to improve the speed of flight at the same time working to meet the requirements of the quality of passenger services, An integer program (IP) model is developed, and a tabu search algorithm was put forward to resolve the model. The algorithm results in the calculation of time and extent to optimize the effectiveness of certain.

Published
2010

38. Preparation and Characterization of C@PSt Microspheres by High Speed Homogenization-Assisted Suspension Polymerization

Author

Yan Shen, Qian Xu, Ji Hu Wang, Wen Jun Gan, Hong Bo Liu, and Shao Guo Wen

Subjects
Materials science, General Engineering, Spherical morphology, Carbon black, Homogenization (chemistry), Styrene, Microsphere, chemistry.chemical_compound, Oleic acid, Polymerization, chemistry, Chemical engineering, Polymer chemistry, Suspension polymerization
Abstract

Spherical C@PSt microspheres with average size around 2 μm were successfully prepared using high-speed homogenization-assisted suspension polymerization of styrene in the presence of carbon black modified by oleic acid. The effects of initiator varieties and initiators concentration on the fractional conversion were investigated. Compared with BPO, AIBN has higher efficiency to initiate the polymerization. LPSA, SEM and OM results showed the prepared microspheres had spherical morphology with the carbon black in the core and PSt in the shell. About 10 weight percentages of carbon black were encapsulated in the complex microspheres proved by TGA results.

Published
2010

39. The Application of Calcium Sulfate Whisker in Styrene-Acrylic Emulsions

Author

Ji Hu Wang, Hong Bo Liu, Chen Yu, and Shao Guo Wen

Subjects
Acrylate, Materials science, General Engineering, chemistry.chemical_element, engineering.material, Calcium, Styrene, Contact angle, chemistry.chemical_compound, Coating, chemistry, Chemical engineering, Whisker, engineering, Copolymer, Composite material, Acrylic acid
Abstract

The styrene-acrylic emulsions were prepared by copolymerization of styrene, acrylic acid and n-butyl acrylate; coatings were achieved by adding calcium sulfate whiskers and titanium dioxides at the presence of dispersing agents and rheological additives. The physical and mechanical properties as well as contact angles of coating films formed on tinplate were characterized in detail. The pencil hardness was slightly decreased; the contact angle was greatly decreased from 69.8o to 12oby adding the calcium sulfate to indicate the hydrophilic coating films may have self-cleaning properties.

Published
2010

40. The Performance of Barium Sulfate/Nature Rubber Composites Using in Sport Shoes

Author

Yan Shen, Shao Guo Wen, Ji Hu Wang, and Hong Bo Liu

Subjects
Materials science, technology, industry, and agriculture, General Engineering, chemistry.chemical_element, Wear resistance, chemistry.chemical_compound, Barium sulfate, chemistry, Natural rubber, visual_art, Ultimate tensile strength, visual_art.visual_art_medium, Stearic acid, Composite material, Titanium
Abstract

Modified barium sulfate (MBS) /nature rubber(NR) composite materials were prepared by direct blending methods. Barium sulfate was modified by coupling agent Si-69, titanium esters and stearic acid. Tensile property, hardness and wear resistance of composite materials were studied by various methods. The results showed that the modified barium sulfate fillers had great effect on the reinforcement of the composites.

Published
2010

41. A Parallel Numerical Study of Transient Heat Transfer and Fluid Flow of Weld Pool during Laser Keyhole Welding

Author

Jianxin Zhou, Lun Ji Hu, Sheng Yong Pang, Ai Qin Duan, Ya Jun Yin, and Li Liang Chen

Subjects
Engineering, Buoyancy, Computer simulation, business.industry, General Engineering, Mechanical engineering, Laser beam welding, Welding, engineering.material, law.invention, law, Heat transfer, Fluid dynamics, Weld pool, business, Keyhole
Abstract

Numerical simulation provides a way to improve our understandings of the heat transfer and fluid flow behaviors of the weld pool during laser keyhole welding. However, current numerical studies are only limited to serial simulations which running on a single CPU. In this study, a parallel numerical study of the heat transfer and fluid flow of the weld pool is presented. A mathematical model considering the effect of Marangoni force, buoyancy force, friction force of the mushy zone region and the effect of keyhole is presented. A combined keyhole volume and surface heat source model is also developed. The coupled transient heat transfer and Navier-stokes equations are solved with a high order accuracy parallel projection method. The simulation code is parallelized with the OpenMP language. It is shown that 200% speedup can be achieved on a shared memory quad-core CPU using the presented parallel simulation system. The simulation results agree well with the in-situ high speed CCD video imaging experiments and the literature results.

Published
2010

42. Preparation and Characterization of Nature Rubber/Attapulgite Composites

Author

Zhong Feng Tang, Hui Ling Min, Da Jun Chen, and Ji Hu Wang

Subjects
Materials science, Composite number, General Engineering, Interfacial adhesion, Melt blending, law.invention, Characterization (materials science), Natural rubber, law, visual_art, visual_art.visual_art_medium, Calcination, Fourier transform infrared spectroscopy, Composite material, Dispersion (chemistry)
Abstract

In this paper, attapulgite(AT)/nature rubber (NR) composites have been prepared through melt blending process. First, different types of attapulgite were prepared.Secend,Fourier infrared spectroscopic (FTIR) was used to analyze attapulgite.Then,different types of attapulgite were filled into natural rubber according to different proportion.Finally, The mechanisms of composites were analyzed. The results showed that siliane coupling agent Si-69 can improve the dispersion of calcined attapulgite and enhance the chemical interfacial adhesion.

Published
2009

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