Researching | ZGJG Volume 34 Issue s1,2007

[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

In this paper No.45 steel (equivalent to AISI 1045) was laser alloyed with a special laser alloying powder TH-2. With SEM in situ observation of crack growth from base to alloying zone, the relationship between FCGR and stress intensity factor range (SIFR) was investigated, and the structure morphology of surface crack In this paper No.45 steel (equivalent to AISI 1045) was laser alloyed with a special laser alloying powder TH-2. With SEM in situ observation of crack growth from base to alloying zone, the relationship between FCGR and stress intensity factor range (SIFR) was investigated, and the structure morphology of surface crack path and the fatigue fracture was analyzed. It is found that crack would appear on laser alloying zone (LAZ) after a certain cycles, but the boundary of LAZ would retard crack growth. Unstably propagation would occur when the crack from base meet the crack on LAZ. The relationship between FCGR and SIFR was not agreed with Paris formula. Typical fatigue strips was found on fatigue fracture of base and the morphology of LAZ was brittle fracture. It was necessary to design special alloying powder for different base material. To increase ductile phase in LAZ would improve resistance to fatigue crack growth of LAZ..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 56 (2007)

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Effect of (MoO₃+B₂O₃)on the Microstructure and Properties of Nickel-Based Composite Coatings

[in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

The experiments of laser-clad nickel-based alloy powder doped with (MoO3+B2O3) were carried out on steel A3 substrate. The microstructural and metallographic analyses were performed by a scanning electron microscopy, energy-dispersive spectrometer and X-ray diffractometer. Effect of content of (MoO3+B2O3)-doping on the The experiments of laser-clad nickel-based alloy powder doped with (MoO3+B2O3) were carried out on steel A3 substrate. The microstructural and metallographic analyses were performed by a scanning electron microscopy, energy-dispersive spectrometer and X-ray diffractometer. Effect of content of (MoO3+B2O3)-doping on the cracking susceptibility and the microstructure of Ni-based composite coatings has been analysed. The hardness and wear-resistance of the coatings were also studied. It is shown that good finish and crack- and porosity-free coatings can be achieved under a proper amount of (MoO3+B2O3)-doping and a suitable processing technique, and that a strong metallurgical bonding is presented between the coating and the substrate. Both the cracking sensitivity and the wear resistance are considerably improved at the little expense of a decrease in hardness. This can be attributed to the refinement of the microstructure both in grain sizes and their homogeneous distribution in the coatings. The microstructural and metallographic analyses suggest the composite coating consists of the eutectic composed of BMo2C, Cr23C6 and Ni4B3 dispersed in the γ(Cr-Ni-Fe-C) matrix. Thus, it can be concluded that the refinement in microstructure is due to both an increase in number of nucleation sites by the formation of BMo2C in the melting pool and an impediment to the growth of larger brittleness phase CrB by the (MoO3+B2O3)-doping..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 60 (2007)

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Microstructure and Thermal Fatigue Behavior of Spot Array Laser Alloying for Nodular Cast Iron

[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

Spot array laser alloying of C-Si-B-RE on nodular cast iron using CO2 laser has been made. The microstructure and characteristics of the alloying layer and HAZ have been analyzed and thermal fatigue tests on the laser treated samples have been done. The results demonstrate that laser alloying of C-Si-B-RE on nodular ca Spot array laser alloying of C-Si-B-RE on nodular cast iron using CO2 laser has been made. The microstructure and characteristics of the alloying layer and HAZ have been analyzed and thermal fatigue tests on the laser treated samples have been done. The results demonstrate that laser alloying of C-Si-B-RE on nodular cast iron is able to achieve satisfying layers with high hardness and smooth surface which are free of cracks. The laser treated specimens were tested under the specified thermo-cyclic condition: 700 ℃～25 ℃, heating 90 s, cooling 10 s, 90 times. The results show that the initiation of the crack in the substrate is relevant to graphite nodular and its morphology. The thermal fatigue cracks in substrate and alloying area are retarded by the HAZ. The initiation of the crack in the HAZ is relevant to the oxide formed during thermal fatigue test. The refining pearlite colonies in heat affected zone (HAZ) compel the crack to develop slowly along the grain boundaries..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 66 (2007)

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Research of the Precise Repairing Technology of Plastic Moulds by Laser Cladding

[in Chinese], [in Chinese], and [in Chinese]

The pulsed Nd:YAG laser cladding is one of the most effective methods of the precise repairing technology. It is decided by the voltage, electric current, pulse length, pulse frequency, scanning speed and beam diameter of the Nd:YAG laser. In order to fully consider the effect of these processing parameters and simply The pulsed Nd:YAG laser cladding is one of the most effective methods of the precise repairing technology. It is decided by the voltage, electric current, pulse length, pulse frequency, scanning speed and beam diameter of the Nd:YAG laser. In order to fully consider the effect of these processing parameters and simply the adjustment processing parameters, spot overlap rate definition is referred. And the calculation equation of spot overlap rate is formulated. The experiment was carried out with precoated layer and wire feeding laser cladding repairing. The clad layers are found perfectly at single pulsed energy of 6.7 J and spot overlap rate of 97.4%. Different kinds of defects produced by wire feeding laser cladding are observed by SEM. The reasons of producing defects are preliminarily probed..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 70 (2007)

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Controlled Laser Shock Peening Technology

[in Chinese], [in Chinese], [in Chinese], and [in Chinese]

A new technology-controlled laser shock peening which is applied by using a high energy pulsed laser to induce a high amplitude shock wave to make surface modified is introduced. It can improve fatigue life, corrosion and wear resistance of metal part. The fatigue life and the corrosion resistance do not always increas A new technology-controlled laser shock peening which is applied by using a high energy pulsed laser to induce a high amplitude shock wave to make surface modified is introduced. It can improve fatigue life, corrosion and wear resistance of metal part. The fatigue life and the corrosion resistance do not always increase with laser shock peening intensity linealy. Optimal fatigue life and corrosion resistance depend on magnitude and distribution of residual compressive stress, and influence by optimization of various laser processing parameters. Laser processing parameters have a crucial effect on residual stress. Selecting laser processing parameters according to preconcerted fatigue life and corrosion resistance becomes a present subject. Laser shock peening mechanism has a significant relation with the generation of residual stress. In this work, the effect of laser processing parameters such as laser power density, laser beam diameter, laser pulse width on distribution of residual stress, and the relationship between these parameters and residual stress depth are examined. Specimens of QT700-2 are used in this investigation. The magnitude and distribution of the residual stress are measured by using an automatic X-ray diffraction technique. It is observed that while residual compressive stress induced by laser shock peening reach an optimal level, the surface of metal part can obtain optimal fatigue life and corrosion resistance, then optimal combination of laser processing parameters can also be obtained..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 74 (2007)

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Laser Shock Processing for a Crankshaft of Nodular Iron

[in Chinese], [in Chinese], and [in Chinese]

The high power density, Nd:Glass laser shocking system with five-axes NC worktable was used to shock the fillet of main and rod surface of crankshafts. In the experiment, the parameters of laser shock processing are as follow: laser wavelength was 1.06 μm, pulse duration was 23 ns and output power ranged from 25～40 J. The high power density, Nd:Glass laser shocking system with five-axes NC worktable was used to shock the fillet of main and rod surface of crankshafts. In the experiment, the parameters of laser shock processing are as follow: laser wavelength was 1.06 μm, pulse duration was 23 ns and output power ranged from 25～40 J. Flowing water and the ethyl silicate materials was used as confinement layer and absorbing medium respectively. Residual stress, hardness and wearability of the laser shocked surface were investigated as functions of laser processing parameters. The results show that the shocked zone has no obvious macro deformation,but the hardness and compressive stress of the laser processed surface was significantly enhanced,the wearability was increased about 1.4 times compared with those without LSP, which is favorable for the fatigue properties of crankshafts..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 78 (2007)

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Residual Stress in Laser Peening Forming

[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

The value and distributing form of the residual stress in laser peening forming (LPF) decide the final sheet contour and deformation shape. To accurately control the distributing of the residual stress and shape the sheet in desiration, it was significant to invest the distributing form among single peen, multiply peen The value and distributing form of the residual stress in laser peening forming (LPF) decide the final sheet contour and deformation shape. To accurately control the distributing of the residual stress and shape the sheet in desiration, it was significant to invest the distributing form among single peen, multiply peen in the same spot and different spots. The experiment of 2mm thick AL6061-T6 and LY12CZ sheet with thickness of 1.2mm was carried out with Nd:Glass high power pulsed laser. The residual stress of peened target was measured by the X-350A stress analytical facilities. The influence of process parameters, such as laser energy, sheet size, peenning path to the residual stress distributing was investigated deeply. The mathematical modeling of shock wave load based on laser peening was established, and a finite-element analysis method based on the ANSYS/LS-DYNA software is applied to simulate the sheet deformation process..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 82 (2007)

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Realtime Monitoring Research of Melt Pool Images in Laser Cladding Process

[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

A laser cladding process monitoring system was set up based on CCD camera, dynamic behavior of melt pool can be acquired as a video form through the system. The melt pool's digital image is read from the video frame by frame and the steady melt pool area can be obtained. A kind of algorithm was studied and implemen A laser cladding process monitoring system was set up based on CCD camera, dynamic behavior of melt pool can be acquired as a video form through the system. The melt pool's digital image is read from the video frame by frame and the steady melt pool area can be obtained. A kind of algorithm was studied and implemented. This algorithm can get the clear melt pool's contour and centroid. Jointed each pool's centroid of the single pass, a relative height curve is formed, and it can approximately describe the deposition's surface. On the basic of the communication between the image collection card and the computer image process cell, a realtime consecutive image process software was developed. The software can accomplish the image collection and process within 0.2 s. These are monitoring elements for finding the actual melt pool position and further laser cladding process close-loop control..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 86 (2007)

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Analysis of Creep Property of Film Using Laser Thermal Stress Evaluation

[in Chinese], [in Chinese], and [in Chinese]

Theory analyze the creep property of film in fluctuating temperature conditions. A numeric model is established basing on ANSYS software with taking WC-6%Co as substrate and (Ti,Al)N as film. The degradation rule of temperature field and stress field with the increasing and decreasing film's temperature are analyze Theory analyze the creep property of film in fluctuating temperature conditions. A numeric model is established basing on ANSYS software with taking WC-6%Co as substrate and (Ti,Al)N as film. The degradation rule of temperature field and stress field with the increasing and decreasing film's temperature are analyzed. The calculated results show that: in the fluctuating temperature conditions, the function of stress creep can be derivated by the one of stress creep curve under the history temperature of constant temperature. And the compress stress increases with the increasing of temperature, the tensile stress is produced with the decreasing of temperature. The size of tensile stress in the direction of normal axis is three times as big as optical axis. The fracture of film probably happens more than that of spall..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 91 (2007)

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Simulation Study on Stress Field after Laser-Peening and Shot-Peening of Sheet Metal

[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

On the basis of the principle of laser-peening (LP) and shot-peening (SP), the finite element method (FEM) model of LP and SP are established based on the software ABAQUS. To LP, the switchover loading of laser shock wave is solved; To SP, the assemble between pills and sheet metal is settled. The residual stress in th On the basis of the principle of laser-peening (LP) and shot-peening (SP), the finite element method (FEM) model of LP and SP are established based on the software ABAQUS. To LP, the switchover loading of laser shock wave is solved; To SP, the assemble between pills and sheet metal is settled. The residual stress in the thickness after one LP and multi-LP and the distribution of residual stress after single pill and multi-pills shot the sheet metal are analyzed. The depth, magnitude of residual stress, the quality of surface and the shape of surface after the LP and SP are compared, respectively. The conclusion is that the effect of improving the employing longevity after LP is better than SP’, the LP technique is and will be substitute for the SP technique to change the property of material and widely be used in manufacture..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 98 (2007)

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Predictive Model of Thin-Wall Metal Parts Precision in Laser Cladding Forming

[in Chinese], [in Chinese], [in Chinese], and [in Chinese]

In order to control forming accuracy of laser cladding thin-wall metal parts, on the basis of analyzing technology theory and affecting factors of metal parts wall thickness in laser cladding, a nonlinear mapping between wall thickness of metal parts and laser power, spot diameter, scanning speed, powder feed rate is e In order to control forming accuracy of laser cladding thin-wall metal parts, on the basis of analyzing technology theory and affecting factors of metal parts wall thickness in laser cladding, a nonlinear mapping between wall thickness of metal parts and laser power, spot diameter, scanning speed, powder feed rate is established by using BP artificial neural network. By using momentum coefficient, adaptive learn rates and optimized weights and bias, the problem of BP that easily falls into local minimum point is overcome. Experimental parameters are chosen as training samples, and BP neutral network is trained. Experimental and simulated results show that the maximum relative error of training and testing samples are 1.93% and 1.19% respectively. The optimized BP neutral network model can be used to process parameter optimization and predict forming accuracy of laser cladding metal thin-walled component for on-line control system..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 102 (2007)

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FEM Simulation of Residual Stress Field Induced by Laser Shock Wave Based on ABAQUS

[in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

Laser shock processing (LSP) is a novel surface treatment technology which uses laser-induced shock wave to strengthen material surface. The magnitude of the surface residual stress and the depth of compressive residual stress are important indexes for the evaluation of LSP's effect. The finite element method (FEM)Laser shock processing (LSP) is a novel surface treatment technology which uses laser-induced shock wave to strengthen material surface. The magnitude of the surface residual stress and the depth of compressive residual stress are important indexes for the evaluation of LSP's effect. The finite element method (FEM) simulation is a valid means for predicting residual stress field distribution in the metal after LSP. The ABAQUS software is applied to simulate the laser shock processing of 6061-T6 aluminum alloy. It discusses how to deal with finite element model, material behavior, the loading of laser shock wave, solution time and so on during the FEM of LSP, and the distributions of residual stress field induced by shock wave are also analyzed. At last the effects of multiple LSP processes on the residual stress field were evaluated by using FEM..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 106 (2007)

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Research on the Synthesis of ZrW₂O₈by Laser Sintering

[in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

The ZrW2O8 ceramic was successfully synthesized by laser sintering for the first time in this work. The microstructure observation by a scanning electron microscope shows that crystalline grains of the ZrW2O8 ceramic samples are fine and homogenous and that their size is about 10 nm. The analyses by an X-ray diffractom The ZrW2O8 ceramic was successfully synthesized by laser sintering for the first time in this work. The microstructure observation by a scanning electron microscope shows that crystalline grains of the ZrW2O8 ceramic samples are fine and homogenous and that their size is about 10 nm. The analyses by an X-ray diffractometer and Raman spectrometer exhibit that only α-ZrW2O8 exists on the outside but both α-ZrW2O8 and γ-ZrW2O8 exist in the bulk of the sample. It is also confident of that ZrW2O8 ceramics can be effectively synthesize by laser sintering. The existence of γ-ZrW2O8 in the bulk may be due to the huge stress generated in the laser sintering processing. Moreover, the effect of laser scanning velocity on the properties of ZrW2O8 ceramic was analyzed. It is indicated that the amount of γ-ZrW2O8 in the bulk could be effectively cut down by means of appropriately reducing scanning velocity and optimum laser power density..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 112 (2007)

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Numerical Simulation Study on Field of Temperature in Ceramics During the Laser Sintering

[in Chinese], [in Chinese], and [in Chinese]

A numerical simulation was studied on field of temperature in ceramics by using FDM (Finite Differential Method) during the laser sintering. At first, the heat conduction equations were given, then the boundary condition was given, Finally, the mathematical model of the laser sintering on ceramics was given and the equ A numerical simulation was studied on field of temperature in ceramics by using FDM (Finite Differential Method) during the laser sintering. At first, the heat conduction equations were given, then the boundary condition was given, Finally, the mathematical model of the laser sintering on ceramics was given and the equations were solved by FDM. The simulation program was given by above method, and then the change of field of temperature in ceramics was described by simulation program. The effect of technological conditions on field of temperature in ceramics was analyzed. It shows that the lengthways temperature gradient in ceramics is only relevant to the laser power, and the transverse temperature gradient in ceramics is relevant to the laser speckle radius and the transverse intensity distribution of laser..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 117 (2007)

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Synthesis and Properties of Al₂(WO₄)₃by Laser Sintering

[in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

A good finish and compact Al2(WO4)3 ceramic had been successfully and rapidly synthesized with a proper proportion of Al2O3 and WO3 by laser sintering. The microstructure observation, component and phases analysis of this ceramic were performed by a Raman spectrometer, scanning electron microscopy, energy-dispersive sp A good finish and compact Al2(WO4)3 ceramic had been successfully and rapidly synthesized with a proper proportion of Al2O3 and WO3 by laser sintering. The microstructure observation, component and phases analysis of this ceramic were performed by a Raman spectrometer, scanning electron microscopy, energy-dispersive spectrometer, thermal analyzer and X-ray diffractometer. The Raman spectrum revealed that the volatility of WO3 can be avoided in the laser sintering and that the raw materials can react completely under suitable processing parameters. The analysis by a X-ray diffractiometer indicated that the sample of Al2(WO4)3 with orthorhombic structure, belonging to space group Pnca, was comparatively pure but included a small quantity of AlxWO3 (x≤1) and WO3-x (x<1). The investigation by a scanning electron microscope (SEM) and energy-dispersive spectrometer (EDS) showed that the ceramic was composed of small crystal conglomeration in which the stoichiometric proportion of elements was almost identical. The thermal analysis reveals that the impurities in the Al2(WO4)3 ceramic was various remaining non-equilibrium phase..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 121 (2007)

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Laser Sintering of Ba(Ti_0.95Zr_0.05)O₃Piezoelectric Ceramics

[in Chinese], [in Chinese], and [in Chinese]

The study on laser sintering of Ba(Ti0.95Zr0.05)O3 (BZT) piezoelectric ceramics was introduced. At first, the powder of BZT was prepared by traditional ways. The green patch was sintered by the CO2 laser which the largest powder was 150W and the rotate speed was 1440 rad/min and the time was 10 min. The piezoelectric c The study on laser sintering of Ba(Ti0.95Zr0.05)O3 (BZT) piezoelectric ceramics was introduced. At first, the powder of BZT was prepared by traditional ways. The green patch was sintered by the CO2 laser which the largest powder was 150W and the rotate speed was 1440 rad/min and the time was 10 min. The piezoelectric ceramics character of BZT ceramic was showed through measuring the dielectric constant-temperature and impedance-frequency data. The ceramic sample by laser sintering had higher courier temperature through comparing the dielectric constant-temperature of two ways which are traditional ways and laser sintering. It was found that ε=1563, d33=45 pC/N. The data of XRD showed that the two peak values ［(111), (002)］ had been enlarged and it was observed that the crystal grain had grew in the ceramic. The measure of laser sintering could be regarded as one of the ways to sinter the functional ceramics..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 125 (2007)

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Synthesis of Lanthanum Molybdate La₂(MoO₄)₃by Using Laser Sintering

[in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]

Molybdate and tungstate were synthesized by the standard solid state reaction technique or co-precipitate method traditionally. But all above-mentioned methods have some unavoidable disadvantages, such as complicated technics, longer time, uncompletely production, so that can not apply to industry. A novel synthesis te Molybdate and tungstate were synthesized by the standard solid state reaction technique or co-precipitate method traditionally. But all above-mentioned methods have some unavoidable disadvantages, such as complicated technics, longer time, uncompletely production, so that can not apply to industry. A novel synthesis technology by laser sintering is given in this paper and it could overcome the above-mentioned shortcoming effectively. The sample of La2(MoO4)3 had been synthesized using this new fabricating method for the first time. It is shown that sample of La2(MoO4)3 possesses compact structure and good figure. The analyses by a Raman spectrometer and X-ray diffractiometer reveal that the raw material reacted completely and the sample is the same structure. The investigation of the specimen surface by a scanning electron microscope and energy-dispersive spectrometer shows that the surface is composed of small crystal conglomeration in which the stoichiometric proportion of elements is the same..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 128 (2007)

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Study of Strain Effect on the La_0.67Ba_0.33MnO₃Thin Film Grown by Pulsed Laser Deposition

[in Chinese], [in Chinese], and [in Chinese]

Epitaxial thin films of La0.67Ba0.33MnO3 was grown on the LaAlO3 (001) substrates using pulsed laser deposition (PLD). The thickness dependence of magnetotransport properties close correlated with the strain effect was studied. The out-of-plane lattice parameters dependence on variable thin films thickness was analyzed Epitaxial thin films of La0.67Ba0.33MnO3 was grown on the LaAlO3 (001) substrates using pulsed laser deposition (PLD). The thickness dependence of magnetotransport properties close correlated with the strain effect was studied. The out-of-plane lattice parameters dependence on variable thin films thickness was analyzed in detail by X-ray diffraction (XRD) data. In contrast with usual results that compressive strain enhances TC by increasing the transfer integral t0, compressive strain due to mismatch between LaAlO3 substrate and La0.67Ba0.33MnO3 film was found to suppress ferromagnetism and reduce TC. The anomalous magnetotransport of La0.67Ba0.33MnO3 thin films was explained by strain effect of colossal magnetoresistance (CMR) materials on the stability of eg orbital..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 133 (2007)

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Research on the Electrical Conductivity of PVDF Induced by Laser Irradiation

[in Chinese], and [in Chinese]

When the poly vinylidene fluoride (PVDF) disk is irradiated by the laser with wavelength of 248 nm, the surface electrical conductivity of the sample is increased nine orders of magnitude to 10-4 (Ω·cm)-1 and the electrical conductivity of initial sample before laser irradiation is 10-13 (Ω·cm)-1. With adjust When the poly vinylidene fluoride (PVDF) disk is irradiated by the laser with wavelength of 248 nm, the surface electrical conductivity of the sample is increased nine orders of magnitude to 10-4 (Ω·cm)-1 and the electrical conductivity of initial sample before laser irradiation is 10-13 (Ω·cm)-1. With adjusting the laser energy density, the gas atmosphere, the pulse frequency and the number of laser shots, the optimal technological conditions of the laser irradiation was obtained. Based upon the analysis of X-ray diffraction, Raman spectroscopy and micrographs of the samples, we conclude that laser breaks the C-F bond leaving graphite on the surface of the samples which lead to the transition from an insulator to a conductor..showLess

Chinese Journal of Lasers

Publication Date: Aug. 13, 2021
Vol. 34, Issue s1, 137 (2007)

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Laser Manufacturing

Materials and Thin Films