Study on the wetting interface of Zr–Cu alloys on the SiC ceramic surface

deformation behavior of Al-Cu alloys aged to contain θ ' has been the subject of many investigations (e.g., Ref. 1-5). Since θ ' is strong and hard, dislocations bypass θ ' plates (Orowan mechanism) at low strains. However, at high strains the partially coherent θ ' plates are probably sheared, although the mechanism is complex, depending on the form of deformation. Particularly, the cyclic straining of the bulk alloy is known to produce gross bends and twists of θ '. However, no detailed investigation of the deformation of θ ' has yet been reported; moreover, Calabrese and Laird interpreted the deformation of θ ' as largely being elastic.During an investigation of high temperature cyclic deformation, the detailed electron-microscopic observation revealed that, under reversed straining conditions, θ ' particles are severely distorted--bent and twisted depending on the local matrix constraint. A typical electronmicrograph, showing the twist is shown in Fig. 1. In order to establish whether the deformation is elastic or plastic, a sample from a specimen cycled at room temperature was heated inside the microscope and the results are presented in a series of micrographs (Fig. 2a-e).

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Analysis of Vehicle Collision on an Assembled Anti-Collision Guardrail

Sensors ◽

10.3390/s21155152 ◽

2021 ◽

Vol 21 (15) ◽

pp. 5152

Author(s):

Juncheng Yao ◽

Bo Wang ◽

Yujie Hou ◽

Liang Huang

Keyword(s):

Working Conditions ◽

Traffic Accidents ◽

Analysis Software ◽

Time Curve ◽

Vehicle Collisions ◽

Moving Vehicle ◽

Vehicle Collision ◽

New Type ◽

Main Girder ◽

Protective Performance

Traffic accidents such as vehicle collisions with bridge guardrails occur frequently. These accidents cause damage to the driver and the vehicle as well as the bridge. A new type of assembled anti-collision guardrail is proposed in this study. LS-DYNA is a nonlinear display dynamic analysis software used to evaluate the safety of a new type of assembled anti-collision guardrail. A specific, numerically analyzed model of vehicle–guardrail collision is established using LS-DYNA. The energy distribution–time curve of the vehicle collision process is obtained. After comparison with measured data from the vehicle collision test, the model of vehicle–guardrail collision is verified as being correct. Based on this, we analyze the process of a vehicle collision on the assembled anti-collision guardrail. The result shows that the assembled anti-collision guardrail proposed in this paper can better change the trajectory of a moving vehicle and can prevent the vehicle from falling off the bridge. From the car body collision results, the assembled anti-collision guardrail for bridges proposed in this paper can reduce vehicle damage and can protect the driver effectively. From the analysis of the main girder stress on the bridge, an anti-collision guardrail installed on an existing bridge will not cause damage to the main girder during a collision. In order to study the influence of the four parameters on the anti-collision effect, we carried out a comparative calculation of multiple working conditions. The results show that the new type of assembled anti-collision guardrail has good protective performance under different working conditions.

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Interface Behavior of Brazing between Zr-Cu Filler Metal and SiC Ceramic

Crystals ◽

10.3390/cryst11070727 ◽

2021 ◽

Vol 11 (7) ◽

pp. 727

Author(s):

Bofang Zhou ◽

Taohua Li ◽

Hongxia Zhang ◽

Junliang Hou

Keyword(s):

Interfacial Reaction ◽

Reaction Layer ◽

Chemical Potential ◽

Filler Metal ◽

Diffusion Constant ◽

Interface Reaction ◽

Diffusion Path ◽

Interface Behavior ◽

Interfacial Reaction Layer ◽

Sic Ceramic

The interface behavior of brazing between Zr-Cu filler metal and SiC ceramic was investigated. Based on the brazing experiment, the formation of brazing interface products was analyzed using OM, SEM, XRD and other methods. The stable chemical potential phase diagram was established to analyze the possible diffusion path of interface elements, and then the growth behavior of the interface reaction layer was studied by establishing relevant models. The results show that the interface reaction between the active element Zr and SiC ceramic is the main reason in the brazing process the interface products are mainly ZrC and Zr2Si and the possible diffusion path of elements in the product formation process is explained. The kinetic equation of interfacial reaction layer growth is established, and the diffusion constant (2.1479 μm·s1/2) and activation energy (42.65 kJ·mol−1) are obtained. The growth kinetics equation of interfacial reaction layer thickness with holding time at different brazing temperatures is obtained.

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The Study of Temperature Control Hydraulic Sensor

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.468-471.1266 ◽

2012 ◽

Vol 468-471 ◽

pp. 1266-1269

Author(s):

Yan Jun Zhang ◽

Zi Ming Kou ◽

Gui Jun Gao ◽

Jun Zhang

Keyword(s):

Temperature Control ◽

Hydraulic System ◽

Control Valve ◽

Elastic Force ◽

Working Environment ◽

Hydraulic Circuit ◽

New Type ◽

Spool Valve ◽

Special Working

Abstract. To improve the automation degree in special working environment which contains explosive gas. We develop a new type of temperature control hydraulic sensor basically on theory and lots of experiments. As the temperature reaches about 85°C，the motion part of the inductor will stretch to a certain length, and then it will push the adjusting rod. Simultaneously，the adjusting rod will overcome the elastic force of the spring and compel the spool valve to deform, and finally the control valve port will be open, it allows the control oil of the hydraulic system to pass. At last it reaches our destination that we can make the control of hydraulic circuit be realized.

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Researched on the Corrosion Resistance of Ni-Cr-Mo-Cu Alloy to Aqueous Change with the APF in Regular Way: an Approach of Quantum Electrochemistry

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.55-57.378 ◽

2011 ◽

Vol 55-57 ◽

pp. 378-381

Author(s):

Li Hua Pan ◽

Rui Cheng Yang

Keyword(s):

Corrosion Resistance ◽

Cathodic Current ◽

Cu Alloy ◽

Cu Alloys

The corrosion resistance of Ni-Cr-Mo-Cu alloys designed by formula APF=4Cr/(2Mo+Cu) to aqueous depend on the APF is investigated. The cathodic current of corrosion reactions was expressed as the quantum electrochemical equation. It is discussed that the APF controls the corrosion resistance to aqueous.

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Kinetic Monte Carlo Simulation of Clustering in an Al-Mg-Si-Cu Alloy

Materials ◽

10.3390/ma14164523 ◽

2021 ◽

Vol 14 (16) ◽

pp. 4523

Author(s):

Qilu Ye ◽

Jianxin Wu ◽

Jiqing Zhao ◽

Gang Yang ◽

Bin Yang

Keyword(s):

Activation Energy ◽

Monte Carlo Simulation ◽

Monte Carlo ◽

Kinetic Monte Carlo ◽

Complex Interaction ◽

Cu Alloy ◽

Cu Alloys ◽

Simulation Results ◽

Small Clusters ◽

First Time

The mechanism of the clustering in Al-Mg-Si-Cu alloys has been a long-standing controversial issue. Here, for the first time, the mechanism of the clustering in the alloy was investigated by a Kinetic Monte Carlo (KMC) approach. In addition, reversion aging (RA) was carried out to evaluate the simulation results. The results showed that many small-size clusters formed rapidly in the early stages of aging. With the prolongation of aging time, the clusters merged and grew. The small clusters formed at the beginning of aging in Al-Mg-Si-Cu alloy were caused by initial vacancies (quenching vacancies). The merging and decomposition of the clusters were mainly caused by the capturing of vacancies, and the clusters had a probability to decompose before reaching a stable size. After repeated merging and decomposition, the clusters reach stability. During RA, the complex interaction between the cluster merging and decomposition leaded to the partial irregular change of the hardness reduction and activation energy.

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Structural state and thermodynamic stability of Al–Cu alloys

International Journal of Modern Physics B ◽

10.1142/s0217979220500575 ◽

2020 ◽

Vol 34 (08) ◽

pp. 2050057

Author(s):

Nataliia Filonenko

Keyword(s):

Thermodynamic Stability ◽

Crystallization Process ◽

Heating Temperature ◽

Liquidus Line ◽

Primary Aluminum ◽

Complete Suppression ◽

Cu Alloy ◽

Cu Alloys ◽

High Temperature Expansion ◽

First Time

It is known that processes occurring in binary system melts affect the crystallization process and the phase composition of alloys. To predict these processes, we should determine the region of thermodynamic stability of the melt. In this paper, the structural properties of hypoeutectic and hypereutectic alloys in Al–Cu system are studied depending on the heating temperature above the liquidus line and aftercooling rate. It is shown that overheating of Al–Cu melts to 150 K above the liquidus line and further cooling leads to complete suppression of the process of formation of primary aluminum crystals in hypoeutectic alloys and [Formula: see text] phase in hypereutectic alloys. For the first time, by accounting in Gibbs energy of binary Al–Cu alloy for the first degree approximation of high-temperature expansion of thermodynamic potential, the dependence of temperature of line of the melt thermodynamic stability on copper content in alloy is obtained.

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Prediction model of the clearance oil film for static vertical rail considering the ram deformation

Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology ◽

10.1177/1350650119855489 ◽

2019 ◽

Vol 234 (1) ◽

pp. 42-49

Author(s):

Yan-qin Zhang ◽

Jin-jun Hou ◽

Wei-cheng Gao ◽

Zhi-wei Zhao ◽

De-fan Zhou ◽

...

Keyword(s):

Prediction Model ◽

Working Conditions ◽

Distribution Law ◽

Single Chamber ◽

Maximum Deformation ◽

Deformation Law ◽

New Type ◽

Volume Method ◽

Better Than ◽

Double Chamber

In order to improve the cutting rigidity of hydrostatic oil pad on large vertical lathes’ vertical rail of hydrostatic ram, on the basis of a single-chamber oil pad, this paper proposed a new type of the double-chamber oil pad. Pressure field distribution law of the single-chamber and the double-chamber oil pad was obtained by the finite element volume method. Then, using the fluid–structure coupling method and Workbench software the deformation law of ram was obtained under different working conditions. Finally, oil film’s prediction model of the single-chamber and the double-chamber oil pad was solved under different working conditions. Oil film’s prediction model of the single-chamber oil pad and the double-chamber oil pad was obtained under various working conditions. The results show that the maximum deformation of the single-chamber of upper oil pad ranges from 0.079 to 0.92 µm, while the double-chamber oil pad ranges from 0.07 to 0.68 µm. The maximum deformation of the single chamber of lower oil pad ranges from 0.91 to 9.21 µm, while the double-chamber oil pad ranges from 0.74 to 9.14 µm, and the maximum deformation of the double-chamber oil pad is less than that of the single chamber, which shows that the rigidity of the double-chamber oil pad is better than that of the single chamber. The results are helpful to improve the bearing performance and service life of bearings.

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