Your search keyword '"Huachang Wang"' showing total 11 results

1. Growth characteristics and kinetics of niobium carbide coating obtained on AISI 52100 by thermal-reactive diffusion technique

Author

Hongfu Wang, Qikun Sun, Ailing Wang, Peng He, Huachang Wang, Shaojin Yan, and Chengang Pang

Subjects

Materials science, Borax, Diffusion, Metallurgy, Boron carbide, Substrate (electronics), engineering.material, chemistry.chemical_compound, Coating, chemistry, Phase (matter), engineering, Niobium carbide, General Materials Science, Niobium pentoxide

Abstract

Niobium carbide coating was produced by thermal-reactive diffusion technique on AISI 52100 steel in salt bath at 1 123 K, 1 173 K, and 1 223 K for 1, 2, 4, and 6 hours. The salt consisted of borax, sodium fluoride, boron carbide, and niobium pentoxide. The presence of NbC phase on the steel surface was confirmed by X-ray diffraction analysis. Microscopic observation showed that niobium carbide coating formed on the substrate was smooth and compact. There was a distinct and flat interface between the coating and substrate. The micro-hardness of niobium carbide coating was 2892±145HV. The thickness of coating ranged from 1.6 μm to 14μm. The forming kinetics of niobium carbide coating was revealed. Moreover, a contour diagram derived from experimental data was graphed for correct selection of process parameters. Some mathematical equations were built for predicting the coating thickness with predetermined processing temperature and time. The results showed that these mathematical equations are very practical as well as the kinetics equation.

Published

2014

2. Carbide coating preparation of hot forging die by plasma processing

Author

Junyuan Wang, Hongfu Wang, Huachang Wang, Wenhua Du, and Cong Du

Subjects

business.product_category, Materials science, Metallurgy, Welding, engineering.material, Microstructure, Forging, law.invention, Coating, law, engineering, Die (manufacturing), General Materials Science, Composite material, Thermal spraying, business, Plasma processing, Layer (electronics)

Abstract

To meet the performance requirements of hot forging die heat resistant layer, the Ni60-SiC coating, Ni60-Cr3C2 coating, and Ni60-WC coating were prepared using W6Mo5Cr4V2 as substrate material with 30%SiC, 10%Cr3C2, 30%WC powder by means of plasma spraying and plasma spray re-melting and plasma spray welding, respectively. Microstructure of each carbide coating was analyzed, micro-hardness was tested, and mainly thermal parameters of coating were detected. The experimental results show that using plasma spray welding, the performance of 70%Ni60/30%SiC powder is the best, and its micro-hardness can achieved 1100HV, showing good thermal-physical property.

Published

2012

3. Preparation of Ni60-WC coating by plasma spraying, plasma re-melting and plasma spray welding on surface of hot forging die

Author

Junyuan Wang, Zeng Zhiqiang, Huachang Wang, and Hongfu Wang

Subjects

Materials science, business.product_category, Metallurgy, Gas dynamic cold spray, Welding, engineering.material, law.invention, Solution precursor plasma spray, chemistry.chemical_compound, chemistry, Coating, law, Tungsten carbide, engineering, Die (manufacturing), General Materials Science, Composite material, Thermal spraying, business, Layer (electronics)

Abstract

In order to produce the hear-resistant inner layer of hot-forging die, the plasma spraying and plasma re-melting and plasma spray welding were adopted. Substrate material was W6Mo5Cr4V2, including 10%, 20%, 30% tungsten carbide (WC) ceramic powder used as coating material to obtain different Nickel-based WC alloys coating. Micro-structure and micro-hardness analysis of the coating layer are conducted, as well as thermophysical properties for the coating layer were measured. The experimental results show that the coating prepared with 70%Ni60, 30%WC powder has the best properties with plasma spray welding, in which the micro-hardness can achieve 900HV, meanwhile it can improve the thermal property of hot-forging die dramatically.

Published

2012

4. Composition variation of borax salt during the process of vanadizing by thermal diffusion

Author

Zheng Chang, Hongfu Wang, Junyuan Wang, Bingtou Kou, and Huachang Wang

Subjects

Vanadium carbide, Materials science, Silicon, Borax, Metallurgy, Energy-dispersive X-ray spectroscopy, chemistry.chemical_element, Vanadium, Boron carbide, engineering.material, chemistry.chemical_compound, Coating, chemistry, engineering, Pentoxide, General Materials Science

Abstract

Vanadium pentoxide, borax, boron carbide and sodium fl uoride were used to grow vanadium carbide coating on surface of Cr12 steel at 950 °C by TD process. The coating of vanadium carbide (VC) extended the serve-life period of Cr12 steel as punching die. Kinetics of vanadium carbide coating growth was brought forward and verified by comparison of the mathematical model with the experimental results. The thickness of coating was illustrated by SEM. The chemical constituent of coating and remnants were tested by X-ray diffraction (XRD) and X-ray energy dispersive spectroscopy (EDS). To increase the thickness, rare earth silicon powder (FeSiRe23) was added to the borax salt bath. The analysis of XRD revealed that FeSiRe23 increased the depth of vanadium car-bide coating as reducing agent and catalysis.

Published

2012

5. Preparation of Ni60-Cr3C2 coating by plasma spraying, plasma re-melting and plasma spray welding on W6Mo5Cr4V2

Author

Junyuan Wang, Zeng Zhiqiang, Hongfu Wang, and Huachang Wang

Subjects

Materials science, business.product_category, Metallurgy, Gas dynamic cold spray, Welding, Plasma, engineering.material, law.invention, Solution precursor plasma spray, Coating, law, engineering, Die (manufacturing), General Materials Science, Composite material, Thermal spraying, business, Layer (electronics)

Abstract

In order to prepare heat-resistant inner layer of hot-forging die, plasma spraying, plasma remelting and plasma spray welding were adopted. Cr3C2 coatings of Ni-Based were prepared respectively with 10%, 20% and 30% Cr3C2 powder and W6Mo5Cr4V2 substrate. The coating microstructure analysis, the micro-hardness test, and the measurement of thermal parameters of coating were conducted. The experimental results show that the coating has the better thermo-physical property by using plasma spray welding method with the powder ratio of 90% Ni60 and 10% Cr3C2, and by this way the micro-hardness of coating can achieve 1100 HV.

Published

2012

6. Segregation of molten salt on chromizing in thermal diffusion process

Author

Hongfu Wang, Junyuan Wang, and Huachang Wang

Subjects

Cr element, Materials science, Scientific method, Metallurgy, medicine, Crucible, General Materials Science, Core (manufacturing), Molten salt, Thermal diffusivity, Chloride, Salt bath, medicine.drug

Abstract

The segregation of thermal diffusion salt bath chromizing process was analyzed. The experimental chromizing ingredients were prepared by the four groups A, B, C, and D. In order to study the segregation status of this case, the cooling molten salt in the crucible was removed by drilling from the heart core of molten salt. The core of molten salt was analyzed by X-ray fluorescence spectroscopy and XRD. Through the analysis, we can conclude that the Cr element deposited in the bottom was 4.51 times than the top. Chloride added to the molten salt will reduce segregation. Meantime we proposed some measures to overcome the segregation problem.

Published

2011

7. Ni60-SiC coating prepared by plasma spraying, plasma re-melting and plasma spray welding on surface of hot forging die

Author

Xiao Wang, Huachang Wang, and Hongfu Wang

Subjects

Materials science, business.product_category, Metallurgy, Gas dynamic cold spray, Welding, engineering.material, law.invention, Solution precursor plasma spray, Coating, law, visual_art, engineering, visual_art.visual_art_medium, Die (manufacturing), General Materials Science, Ceramic, Composite material, business, Thermal spraying, Layer (electronics)

Abstract

In order to produce the hear-resistant inner layer of hot-forging die, plasma spraying and plasma re-melting and plasma spray welding were adopted. Substrate material was W6Mo5Cr4V2, including 10%, 20%, 30% SiC ceramic powder used as coating material to obtain different Ni-based SiC alloys coating. Micro-structure and micro-hardness analysis of the coating layer were followed, as well as thermophysical properties for the coating layer were measured. The experimental results show that the coating prepared with 70% Ni60, 30% SiC powder has best properties with plasma spray welding, in which the micro-hardness can achieve 1100 HV, meanwhile can improve the thermal property of hot-forging die dramatically.

Published

2011

8. Hot-forging die cavity surface layer temperature gradient distribution and determinant

Author

Hongfu Wang, Han Xiao, Guan Wang, and Huachang Wang

Subjects

business.product_category, Materials science, Thermodynamics, Thermal conduction, Thermal diffusivity, Heat capacity, Forging, Temperature gradient, Thermal conductivity, Die (manufacturing), General Materials Science, Surface layer, Composite material, business

Abstract

Based on the car front-wheel-hub forging forming process of numerical simulation, the temperature gradient expression of forging model cavity near the surface layer was got ten, which illustrates that the forging temperature gradient is related to forging die materials thermal conductivity, specific heat and impact speed, and the correlation coefficient is 0.97. Under the different thermal conductivity, heat capacity and forging speed, the temperature gradient was compared with each other. The paper obtained the relevant laws, which illustrates the temperature gradient relates to these three parameters in a sequence of thermal conductivity > impact speed> specific heat capacity. To reduce thermal stress in the near-surface layer of hot forging cavity, the material with greater thermal conductivity coefficient and specific heat capacity should be used.

Published

2011

9. Microstructure and thermal physical parameters of Ni60-Cr3C2 composite coating by laser cladding

Author

Hongfu Wang, Huajun Wang, Qingming Chang, Chenggang Pan, and Huachang Wang

Subjects

Materials science, business.product_category, Scanning electron microscope, Metallurgy, Composite number, Microstructure, Indentation hardness, Forging, Thermal expansion, Thermal conductivity, Die (manufacturing), General Materials Science, Composite material, business

Abstract

To satisfy performance and long life requirements for hot forging die, Ni60-Cr3C2 composite coatings were prepared on the high-speed steel W6Mo5Cr4V2 using laser cladding technology. Laser clad coatings with different ratios of Ni60:Cr3C2 were investigated by scanning electron microscopy (SEM), X-ray diffraction (XRD), energy-dispersive X-ray analysis (EDX) and microhardness tester, respectively. Specific heat capacity and thermal conductivity were measured by Laser Thermal Constant Meter. Thermal expansion coefficient and elastic modulus were measured by Dynamic Mechanical Thermal Analyzer and Electro-Hydraulic Servocontrolled Testing System, respectively. The results indicated that Ni60+50wt% Cr3C2 composite coating had dense and homogeneous structure, as well as a metallurgical bonding with the substrate. With the increase of Cr3C2 content, volume of chromium-containing compounds in the composite coating increased, microhardness increased and microstructure refined. The thermal physical parameters results showed that Ni60+ 50wt% Cr3C2 composite coating was overall worse than W6Mo5Cr4V2, but had a higher hot yield strength to alleviate hot fatigue and surface hot wear of hot forging die during hot forging and thus improve the service life of hot forging die.

Published

2010

10. Vanadium carbide coating growth on die steel substrate in borax salt bath

Author

Huachang Wang, Hongfu Wang, and Chenggang Pan

Subjects

Vanadium carbide, Materials science, Borax, Metallurgy, Vanadium, chemistry.chemical_element, Boron carbide, engineering.material, Microanalysis, Carbide, chemistry.chemical_compound, Coating, chemistry, engineering, Pentoxide, General Materials Science

Abstract

Vanadium pentoxide, borax, boron carbide and sodium fluoride were used to grow vanadium carbide coating on die steel(Cr12, Cr12MoV) surface at 950 °C by TD process, which extended the life period of Cr12 and Cr12MoV as punching die. Kinetics of vanadium carbide coating growth was brought forward and verified by comparison of the mathematical model with the experimental results. The thickness of coating was illustrated by SEM. The chemical constituent of coating and remnants were tested by XRD. To increase the thickness, rare earths (FeSiRe23) were added to the borax salt bath. The electronic probe microanalysis (EPMA) revealed that the addition of rare earths could decrease carbon concentration in the coating and increase the depth of vanadium carbide coating.

Published

2010

11. Relationship between the corrosion and Cr-Ni content of stainless steel in borax bath

Author

Huachang Wang, Peng Qu, Junyuan Wang, and Hongfu Wang

Subjects

inorganic chemicals, Materials science, Borax, fungi, Metallurgy, technology, industry, and agriculture, Crucible, chemistry.chemical_element, Intergranular corrosion, Mass Percentage, Corrosion, Chromium, chemistry.chemical_compound, Nickel, chemistry, otorhinolaryngologic diseases, General Materials Science

Abstract

The corrosion of stainless steel was experimentally investigated and analyzed to improve the service-life of the crucible and fixture clamps. Through the experiment, stainless steel was found to satisfy the crucible and fixture clamps materials. As the chromium element mass percentage of the stainless steel increased, the corrosion decreased rapidly at first and then slowly increased. With the corrosion time prolonging, the corrosion growth rate is generally a downward trend. With Chromium 20%, the corrosive were the least. With Nickel element mass percentage increased, the corrosion increased rapidly at first and then decreased rapidly, flatten at the last. It was special that the corrosion had little relationship with the Chromium and Nickel mass percentage when the Nickel percentage is more than 35%. The most remarkable corrosion is corresponding with the Nickel element 12%, the least corrosion with Nickel element 80%. So Nickel element 35% is the most optional.

Published

2011