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Journal articles on the topic 'Inconel625'

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Author: Grafiati
Published: 7 July 2024
Last updated: 7 July 2024

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1

Ding, Yuhang, Wenya Bi, Cheng Zhong, Tao Wu, and Wanyuan Gui. "A Comparative Study on Microstructure and Properties of Ultra-High-Speed Laser Cladding and Traditional Laser Cladding of Inconel625 Coatings." Materials 15, no. 18 (September 15, 2022): 6400. http://dx.doi.org/10.3390/ma15186400.

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In this study, ultra-high-speed laser cladding (UHSLC) and traditional low-speed laser cladding (LSLC) were employed to prepare high-quality Inconel625 coatings on 27SiMn substrates. UHSLC has cladding speeds of 30 m/min, which are 15 times faster than those of LSLC, and it produces a much greater cladding efficiency, which is 13.9 times greater than LSLC. The microstructure of the Inconel625 coatings was investigated in detail utilizing field emission scanning electron microscopy (FESEM) and electron probe microanalyzer (EPMA). According to the FESEM results, UHSLC Inconel625 coatings have more refined crystals than LSLC Inconel625 coatings. Nevertheless, the EPMA results indicate that the UHSLC Inconel625 coatings exhibit much more severe elemental segregation. Moreover, the hardness, wear and corrosion resistance of Inconel625 coatings are significantly enhanced by increasing the laser cladding speed. Furthermore, the reasons for the differences in microstructure and properties of Inconel625 coatings prepared by UHSLC and LSLC were clarified by finite element simulation. UHSLC technique is, therefore, more suitable for preparing Inconel625 coatings on 27SiMn steel surfaces than LSLC.
2

Ma, Hong, Shu Zhong Wang, Mei Gao, and Sheng Wen. "Research on the Corrosion Behavior of Nickel Base Alloy in Municipal Sludge Treated by Supercritical Water Oxidation." Advanced Materials Research 1010-1012 (August 2014): 220–24. http://dx.doi.org/10.4028/www.scientific.net/amr.1010-1012.220.

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The corrosion behavior of Nickel base alloy was studied in municipal sludge treated by supercritical water oxidation (SCWO). The results showed that the corrosion rate of Nickel-base alloy Inconel600 in the temperature zone under 460°C is smaller, the surface oxide were mainly Cr2O3. The corrosion rate of Nickel-base alloy Inconel625 in the supercritical temperature zone is smaller, it formed more easily protective layers containing element Ni (main containing NiO and Ni (OH)2) and had good heat resistance at higher temperature.
3

Minemura, Y., Y. Kondoh, H. Funakubo, and Hiroshi Uchida. "One-Axis-Oriented Crystal Growth of Lead Zirconate Titanate Thin Films on Metal Substrates Using Perovskite-Type Oxide Nanosheet Layer." Key Engineering Materials 582 (September 2013): 15–18. http://dx.doi.org/10.4028/www.scientific.net/kem.582.15.

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One-axis-oriented Pb (Zr,Ti)O3(PZT) films were fabricated using a chemical solution deposition technique on (111)Pt/TiO2/(100)Si and Inconel625 substrates buffered by nanosheet Ca2Nb3O10(ns-CN). The (001)-oriented PZT crystals (Zr/Ti=0.40:0.60, tetragonal) were preferentially grown on (001)ns-CN/Inconel625, whereas the PZT crystals deposited on (001)ns-CN/(111)Pt/ TiO2/(100)Si exhibited preferential PZT(100) orientation. The resulting PZT film on (001)ns-CN/Inconel625 indicated remanent polarization of approximately 59 μC/cm2, which was significantly larger than that on (001)ns-CN/(111)Pt/TiO2/(100)Si.
4

Chumaevsky, A. V., A. O. Panfilov, K. N. Kalashnikov, A. P. Zykova, T. A. Kalashnikova, A. V. Vorontsov, S. Yu Nikonov, et al. "Production of metal matrix composites based on aluminum-manganese bronze and nickel alloys by wire feed electron-beam additive manufacturing." Diagnostics, Resource and Mechanics of materials and structures, no. 6 (December 2022): 65–75. http://dx.doi.org/10.17804/2410-9908.2022.6.065-075.

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Samples of composite materials based on BrAMts9-2 bronze with the introduction of the Udimet500 and Inconel625 nickel alloys were obtained by wire-feed electron-beam technology. The studies show that the structures of composites formed during printing, although fairly similar due to the same base of the alloys, have different features due to different combinations of alloying elements. The mechanical properties of the samples with the introduction of up to 15 % of the Udimet500 alloy are higher than those of the samples of the second material. With the introduction of 25 % of a nickel alloy, the strength is higher for the composite material samples with the introduction of the Inconel625 alloy. The microhardness of the samples with the introduction of 5 % of a nickel alloy is identical, the introduction of large volumes of a nickel alloy leads to the implementation of greater hardness in the samples with the introduction of the Inconel625 alloy due to the higher content of refractory materials. Relative elongation after rupture varies insignificantly for the samples of both types.
5

Jia, Zhi, Zexi Gao, Jinjin Ji, Dexue Liu, Tingbiao Guo, and Yutian Ding. "Study of the Dynamic Recrystallization Process of the Inconel625 Alloy at a High Strain Rate." Materials 12, no. 3 (February 8, 2019): 510. http://dx.doi.org/10.3390/ma12030510.

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High-temperature compression and electron backscatter diffraction (EBSD) techniques were used in a systematic investigation of the dynamic recrystallization (DRX) behavior and texture evolution of the Inconel625 alloy. The true stress–true strain curves and the constitutive equation of Inconel625 were obtained at temperatures ranging from 900 to 1200 °C and strain rates of 10, 1, 0.1, and 0.01 s−1. The adiabatic heating effect was observed during the hot compression process. At a high strain rate, as the temperature increased, the grains initially refined and then grew, and the proportion of high-angle grain boundaries increased. The volume fraction of the dynamic recrystallization increased. Most of the grains were randomly distributed and the proportion of recrystallized texture components first increased and then decreased. Complete dynamic recrystallization occurred at 1100 °C, where the recrystallized volume fraction and the random distribution ratios of grains reached a maximum. This study indicated that the dynamic recrystallization mechanism of the Inconel625 alloy at a high strain rate included continuous dynamic recrystallization with subgrain merging and rotation, and discontinuous dynamic recrystallization with bulging grain boundary induced by twinning. The latter mechanism was less dominant.
6

Mattli, Manohar Reddy, Adnan Khan, Penchal Reddy Matli, Moinuddin Yusuf, A. Al Ashraf, R. A. Shakoor, and Manoj Gupta. "Effect of Inconel625 particles on the microstructural, mechanical, and thermal properties of Al-Inconel625 composites." Materials Today Communications 25 (December 2020): 101564. http://dx.doi.org/10.1016/j.mtcomm.2020.101564.

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7

Ma, Hong Fang, Ming Zhu, Qing Zhu, and Yan Li. "Corrosion Behaviors of Thermal Diffusion Coating on the Surface of Inconel625 Alloy in Chloride Molten Salts." Materials Science Forum 809-810 (December 2014): 589–95. http://dx.doi.org/10.4028/www.scientific.net/msf.809-810.589.

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In solar thermal storage system, the mixed chloride molten salt with the higher conversion efficiency than a single molten salt, but they are more corrosive than the often used nitride molten salts. In the presents work, aluminide and chromate coating were prepared on the surface of Inconel625 alloy by thermal packing method. The corrosion behaviors of thermal diffusion coating on the surface of Inconel625 alloy in mixed molten salts at 900°C were studied by using XRD and SEM equipped with EDS in the present work. The results showed that both of the two thermal diffusion coatings have sever corrosion in the mixed chloride molten salts, but thermal diffusion Al coating in the mixed chloride molten salt corrosion is more serious than thermal diffusion Cr coating, because Cr2O3is more easily dissolved in the molten salt than Al2O3.
8

Dosta, Sergi, Nuria Cinca, Alessio Silvello, and Irene G. Cano. "Alumina Reinforcement of Inconel 625 Coatings by Cold Gas Spraying." Metals 10, no. 9 (September 18, 2020): 1263. http://dx.doi.org/10.3390/met10091263.

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Reinforced Inconel625 coatings have been successfully deposited by means of cold gas spray (CGS). Alumina has been simultaneously sprayed achieving a homogeneous distribution along the deposit with good cohesion between particles. The aim of this study was to investigate whether ceramic reinforcement could improve the mechanical and tribological properties of Inconel625 cold-sprayed coatings, while keeping the oxidation and corrosion resistance capacity. Furthermore, alumina particles were found to improve the spraying feasibility, by avoiding WC nozzle clogging during the process. A proper optimization of the spraying conditions was carried out in order to obtain the lowest possible porosity and best embedment of the alumina. Then, the mechanical and tribological properties as well as corrosion and oxidation behavior were characterized. Alumina acts as a reinforcement, improving the effects of abrasive and sliding wear. Regarding the oxidation and corrosion behavior, the coatings exhibit reasonably good oxidation resistance at temperatures up to 900 °C. The electrochemical corrosion performance in NaCl solution showed potentially lower noble corrosion values and corrosion current densities than bulk Inconel.
9

Zheng, Chuan Lin, Fu Zhai Cui, Qing Ling Feng, Z. Xu, Xi Shan Xie, and Zhi Yong He. "Oxidation Resistance of TiAl-Inconel625 Graded Alloying Layer." Materials Science Forum 423-425 (May 2003): 81–84. http://dx.doi.org/10.4028/www.scientific.net/msf.423-425.81.

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10

Hwang, Ye-Han, Choon-Man Lee, and Dong-Hyeon Kim. "The Effects of the Variable-Pressure Rolling of a Wire Arc Additively Manufactured Inconel625-SS308L Bimetallic Structure." Applied Sciences 13, no. 18 (September 11, 2023): 10187. http://dx.doi.org/10.3390/app131810187.

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The superior deposition rates of Wire Arc Additive Manufacturing (WAAM) allow for the production of a substantial number of parts while reducing the time and cost associated with machining, and have attracted significant attention. This study focused the microstructural and mechanical properties of a bimetallic thin-wall composed of SS308L and Inconel625, manufactured using variable-pressure rolling WAAM. A detailed analysis of the cross-sectional microstructure of the bi-metallic wall of non-pressure cases revealed a columnar solidification structure. In contrast, the pressured case was dominated by equiaxed structures. The microhardness tests conducted on the bimetallic interface revealed a hardness range of 139–188 HV within the SS308L region, and a 187–222 HV hardness spectrum within the Inconel625 region. The bimetallic interface displayed no unexpected hardness variations. Tensile tests carried out in the vertical direction across the bi-metallic interface resulted in a localized failure at the 308L region. The range of ultimate tensile strength was between 539 and 585 MPa, the yield strength varied from 344 to 377 MPa, and the elongation measurements were found to be within the range of 37 to 44%. All test specimens showed a consistent pattern of ductile rupture upon fractographic inspection, with fracture occurring in the SS308L region.
11

Wei, Yacheng, Aixin Feng, Chunlun Chen, Dazhi Shang, Xiaoming Pan, and Jianjun Xue. "Effects of Laser Remelting on Microstructure, Wear Resistance, and Impact Resistance of Laser-Clad Inconel625-Ni/WC Composite Coating on Cr12MoV Steel." Coatings 13, no. 6 (June 3, 2023): 1039. http://dx.doi.org/10.3390/coatings13061039.

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In this study, an Inconel625-Ni60-Ni60/25%WC (Inconel625-Ni/WC) composite coating was fabricated on Cr12MoV steel by first-stage laser cladding, followed by second-stage laser remelting with various laser powers, and the better laser energy density of 25.0 J/mm2 for laser remelting test was obtained by macroscopic morphology and microhardness analysis. The effects of laser remelting on the microstructure, microhardness, wear resistance, and impact resistance of the composite coating was systematically investigated by combining various characterization methods. The results showed that laser remelting did not cause the composite coating to produce new phases. The microstructure of the Ni/WC layer in the remelted composite coating was denser and finer, and the average grain size of the surface layer was reduced by 11.69%. The impact depth of laser remelting was about 2.0 mm. The average microhardness of the Ni/WC layer in the remelted composite coating increased by 5.9%, and the average wear rate of the surface was reduced by 50.12% compared with that before laser remelting. The wear surface of remelted composite coating exhibited abrasive wear, and the wear resistance was significantly improved. In addition, the impact toughness value of the remelted composite coating reached 5.15 J/cm2, which increased by 87.96% compared with that before laser remelting. The impact resistance of the composite coating was further improved.
12

Liu, Hua Dong, Wei Qiang Wang, and Yan Liu. "Failure Analysis of a Bellows Expansion Joint of Inconel625 Alloy." Advanced Materials Research 500 (April 2012): 580–85. http://dx.doi.org/10.4028/www.scientific.net/amr.500.580.

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A bellows expansion joint of a refinery cracked within a year of use. Analysis was carried out based on the investigation of the working conditions and environments. Through the macroscopic analysis, chemical components analysis, microstructure analysis and SEM analysis, we drew some conclusions. The high-temperature sulfur corrosion led to the failure directly, while the direct reason was the extra load applied on the joint which was caused by the unreasonable support structure. Preventive measures were proposed at last.
13

Liu, Erliang, Hongwei Xing, Xudong Wei, Ning Wang, Jin Qi, and Hongyan Ju. "Experimental study on machined surface quality of turning superalloy Inconel625." Ferroelectrics 522, no. 1 (January 2, 2018): 9–19. http://dx.doi.org/10.1080/00150193.2017.1391591.

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14

Liu, Erliang, Xudong Wei, Mingming Wang, and Tengda Wang. "High-temperature oxidation and diffusion behaviours of YG6X and Inconel625." Ferroelectrics 546, no. 1 (July 4, 2019): 137–47. http://dx.doi.org/10.1080/00150193.2019.1592466.

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15

Vemanaboina, Harinadh, G. Guruvaiah Naidu, Golla Vinod Kumar, and D. Ramachandra Reddy. "Welding characteristics of butt-welded Inconel625 plate using CO2 laser beam." Materials Today: Proceedings 19 (2019): 859–63. http://dx.doi.org/10.1016/j.matpr.2019.08.223.

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16

Vemanaboina, Harinadh, G. Edison, Suresh Akella, and Ramesh Kumar Buddu. "Thermal Analysis Simulation for Laser Butt Welding of Inconel625 Using FEA." International Journal of Engineering & Technology 7, no. 4.10 (October 2, 2018): 85. http://dx.doi.org/10.14419/ijet.v7i4.10.20711.

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Laser welding process is employed in the manufacturing of critical components where the final assembly units necessitate strict tolerances like low distortions and residual stresses. Laser beam welding offers several advantages like low heat input, very narrow heat affected zone, low residual stresses, low distortions and good mechanical joint properties in the weld joints when compared to the conventional techniques like Tungsten Inert Gas Arc welding processes. However, the implementation of laser beam welding holds certain challenges like process parameters optimization, experimental set-up and handling and expensive costs. In order to minimize the complex experimental process, simulation techniques using Finite Element Methods (FEM) are employed in order to estimate the heat input and weld process optimization prior to the experiments. This greatly helps in the optimization and estimation of the incurred stresses and distortions with the adapted weld process with known input weld process parameters. The present work reports the Gaussian heat source model for the laser welding of Inconel 625 Alloy plates. The developed moving heat source model is presented and demonstrated with the thermal profiles in terms of the thermal histogram, temperature profiles in the joint cross sections through welded region, interface across the joints.
17

Vemanaboina, Harinadh, Nagendra Kumar Kotthinti, and Venugopal Chittemsetty. "Multipass dissimilar joints for SS316L to Inconel625 using gas tungsten arc welding." Materials Today: Proceedings 46 (2021): 567–71. http://dx.doi.org/10.1016/j.matpr.2020.11.287.

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18

Amandeep, Singh, Kumar Harish, and Singh Gurpreet. "Investigations into Machining of Inconel625 Flat Surfaces with Multi-pole Magnetic Tool." Indian Journal of Science and Technology 11, no. 28 (July 1, 2018): 1–9. http://dx.doi.org/10.17485/ijst/2018/v11i28/130779.

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19

Chen Xiujuan, 陈秀娟, 赵国瑞 Zhao Guorui, 董东东 Dong Dongdong, 马文有 Ma Wenyou, 胡永俊 Hu Yongjuan, and 刘敏 Liu Min. "Microstructure and Mechanical Properties of Inconel625 Superalloy Fabricated by Selective Laser Melting." Chinese Journal of Lasers 46, no. 12 (2019): 1202002. http://dx.doi.org/10.3788/cjl201946.1202002.

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20

Wang, Wenbo, Nuo Xu, Xiangyu Liu, Zhicheng Jing, Guojian Xu, and Fei Xing. "Laser melting deposition of Inconel625 to Ti6Al4V bimetallic structure via vanadium interlayer." Optics & Laser Technology 174 (July 2024): 110587. http://dx.doi.org/10.1016/j.optlastec.2024.110587.

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21

Tirumala, Mani Kumar, Manohar Gajana, Yogeswar Pathipati, Tharun Gongati, Somisetty Bhanu Prakash, and Harinadh Vemanaboina. "Optimisation process parameters for Multipass GTAW dissimilar materials of SS316L to INCONEL625." E3S Web of Conferences 430 (2023): 01269. http://dx.doi.org/10.1051/e3sconf/202343001269.

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This study aims to learn how welds' bead width and tensile strength have changed throughout time. The research welded the multipass dissimilar of nickel-based superalloy Inconel 625 and stainless steel 316L using CCGTAW and ERNiCrMo-3. This experimental cycle made use of the L9 orthogonal array. Analysis of Variance (ANOVA) is used to zero in on and identify the most critical variables. Weld quality is evaluated throughout production using a non-destructive method. Weld quality and tensile strength were tested in Universal testing Machine X-Ray Radiography. Welding current and root gap were shown to be significant factors.
22

Vemanaboina, Harinadh, G. Edison, and Suresh Akella. "Evaluation of residual stresses in multipass dissimilar butt-welded of SS316L to Inconel625 using FEA." International Journal of Engineering & Technology 7, no. 3 (June 23, 2018): 1145. http://dx.doi.org/10.14419/ijet.v7i3.12605.

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In the present analysis, thermo-mechanical process was employed to study the thermal and structural behaviour of three pass dissimilar butt-joints of SS316L to Inconel625 alloys. The temperatures evolution and residual stresses developed in the weldments were reported for each pass in the transverse direction to fusion zone. The Ansys Parametric Design Language (APDL) used for modelling and analysis of welding process with the double ellipsoidal heat source. The temperature dependent thermal and mechanical properties used in the simulation process. The residual stress is compressive in SS316L side compared to Inconel 625. The residual stress is within the yield limits of both base materials. The results obtained from the simulation process will be helpful for maintaining the structural integrity.
23

Cheng, Yanmei, Hua Zhang, Guoan Ye, and Ye Hong. "Creep Analysis and Material Properties Research of Rotary Calciner." Journal of Physics: Conference Series 2694, no. 1 (January 1, 2024): 012025. http://dx.doi.org/10.1088/1742-6596/2694/1/012025.

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Abstract Unavoidably, during the aqueous reprocessing of spent fuel, high level liquid waste is produced, which is typically vitrified. A rotary calciner is an essential component of a two-step cold crucible melter equipment system. Owing to the calciner’s long-term operation under high temperature condition, potential effects from metal creep are essential design factors. Stable temperature and stress fields of components of a rotary calciner have been calculated based on the finite element analysis software ANSYS. Furthermore, creep life of creep effects has been evaluated and comparisons among Inconel 690, Inconel625, and SUS 310s tubes’ mechanical property performance have been conducted. The results indicate that all three materials require the mechanical property requirements and SUS 310s exhibits the minimum creep displacement.
24

Zhiyuan Xu, A., B. Bo Chen, C. Caiwang Tan, and D. Jicai Feng. "Inconel625/316L functionally graded material using spectral diagnostics during laser additive manufacturing process." Journal of Laser Applications 31, no. 2 (May 2019): 022001. http://dx.doi.org/10.2351/1.5070116.

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25

Koike, Ryo, Iori Unotoro, Yasuhiro Kakinuma, Tojiro Aoyama, Yohei Oda, Tatsuhiko Kuriya, and Makoto Fujishima. "Evaluation for mechanical characteristics of Inconel625–SUS316L joint produced with direct energy deposition." Procedia Manufacturing 14 (2017): 105–10. http://dx.doi.org/10.1016/j.promfg.2017.11.012.

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26

Meng, Wei, Wenhao Zhang, Wang Zhang, Xiaohui Yin, Lijie Guo, and Bing Cui. "Additive fabrication of 316L/Inconel625/Ti6Al4V functionally graded materials by laser synchronous preheating." International Journal of Advanced Manufacturing Technology 104, no. 5-8 (July 11, 2019): 2525–38. http://dx.doi.org/10.1007/s00170-019-04061-x.

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27

Chejarla, Kirankumar, Irikireddy Soma Sekhar Reddy, Cheepati Siva Sankar, Velikinti Chenchu Chandra, K. B. Yathish, and Harinadh Vemanaboina. "Distortion control in CO2 Laser Beam dissimilar welds of SS316L to INCONEL625 plates." E3S Web of Conferences 430 (2023): 01270. http://dx.doi.org/10.1051/e3sconf/202343001270.

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The paper attempts to join similar and dissimilar joints by employing CO2 laser beam welding. The SS316L and INCONEL625 plates of 5mm thick plates are used. The L4 orthogonal array was chosen for the experimentation. Three parameters are chosen in two levels, and four trials are optimized. Analysis of Variance (ANOVA) is used to optimize and determine the most critical parameters. The weldments have undergone visual, X-ray radiography, and macrostructure examination to verify the quality of the weldments verified with full penetration. Distortion in dissimilar weldments may be measured using a vernier height gauge. Simple inspection methods, No-way ANOVA, Linear Figures, and ANOVA were used, and two parameters were identified with 99% criticality. ANOVA shows 95% significance for distortion with welding speed at 51.9%, welding current at 13%, and shielding Flow rate at 12.3% contribution. The welding speed and laser power are significant, while shielding gas is not a critical parameter but essential for the quality of the joint.
28

Singh, Chandra Veer, Sumanta Bagui, Biraj Kumar Sahoo, Omkar S. Umbare, Soumitra Tarafder, and S. Sivaprasad. "Comparison of low cycle fatigue behaviour of additively manufactured and wrought Inconel625 alloys." Materials Science and Engineering: A 903 (June 2024): 146682. http://dx.doi.org/10.1016/j.msea.2024.146682.

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29

Wang, Zhong Tang, Shi Hong Zhang, Ming Cheng, and De Fu Li. "Constitutive Model of Supper-Alloy IN625 Based on Extrusion Test." Advanced Materials Research 314-316 (August 2011): 819–22. http://dx.doi.org/10.4028/www.scientific.net/amr.314-316.819.

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Abstract: It had been put forward that a new method to establish material constitutive model based on extrusion test, which was that the material constitutive model was determined with the Arrhenius equation according to the extrusion test data. The tube extruding test of supper-alloy Inconel625(IN625) had been done on 16300kN extrusion machine. According to the extrusion test data and the Arrhenius equation, it had been determined that the constitutive model of supper-alloy IN625 based on extrusion test, and the relative errors between calculation results of the model and experiment results are less than 7.8%. The suitable conditions of the constitutive model of supper-alloy IN625 are that the temperature being 1150°C~1200°C, and extrusion speed being 15~60mm/s, and strain-rate being 1.86~7.44.
30

Zhang, Jiarong, Xinjie Di, Chengning Li, Xipeng Zhao, Lingzhi Ba, and Xin Jiang. "Additive manufacturing of Inconel625-HSLA Steel functionally graded material by wire arc additive manufacturing." Metallurgical Research & Technology 118, no. 5 (2021): 502. http://dx.doi.org/10.1051/metal/2021063.

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Functional graded materials (FGMs) have been widely applied in many engineering fields, and are very potential to be the substitutions of dissimilar metal welding joints due to their overall performance. In this work, the Inconel625-high-strength low-alloy (HSLA) Steel FGM was fabricated by wire arc additive manufacturing (WAAM). The chemical composition distribution, microstructure, phase evolution and mechanical properties of the FGM were examined. With the increasing of HSLA Steel, the chemical composition appeared graded distribution, and the primary dendrite spacing was largest in graded region with 20%HSLA Steel and then gradually decreased. And the main microstructure of the FGM transformed from columnar dendrites to equiaxed dendrites. Laves phase precipitated along dendrites boundary when the content of HSLA Steel was lower than 70% and Nb-rich carbides precipitated when the content of HSLA Steel exceeded to 70%. Microhardness and tensile strength gradually decreased with ascending content of HSLA Steel, and had a drastic improvement (159HV to 228HV and 355Mpa to 733Mpa) when proportion of HSLA Steel increased from 70% to 80%.
31

Prasad, K. Siva, Ch Srinivasa Rao, and D. Nageswara Rao. "Study on Weld Quality Characteristics of Pulsed Current Micro Plasma Arc Welding of Inconel625 Sheets." Journal of Minerals and Materials Characterization and Engineering 11, no. 02 (2012): 133–41. http://dx.doi.org/10.4236/jmmce.2012.112010.

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32

Ji Xiao, 季霄, 孙中刚 Sun Zhonggang, 唱丽丽 Chang Lili, 常辉 Chang Hui, and 邢飞 Xing Fei. "Microstructure Evolution Behavior in Laser Melting Deposition of Ti6Al4V/Inconel625 Gradient High-Temperature Resistant Coating." Chinese Journal of Lasers 46, no. 11 (2019): 1102008. http://dx.doi.org/10.3788/cjl201946.1102008.

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33

Chen, Bo, Yi Su, Zhuohong Xie, Caiwang Tan, and Jicai Feng. "Development and characterization of 316L/Inconel625 functionally graded material fabricated by laser direct metal deposition." Optics & Laser Technology 123 (March 2020): 105916. http://dx.doi.org/10.1016/j.optlastec.2019.105916.

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34

Meng, Wei, Yin Xiaohui, Wang Zhang, Fang Junfei, Guo Lijie, Ma Qunshuang, and Cui Bing. "Additive manufacturing of a functionally graded material from Inconel625 to Ti6Al4V by laser synchronous preheating." Journal of Materials Processing Technology 275 (January 2020): 116368. http://dx.doi.org/10.1016/j.jmatprotec.2019.116368.

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35

Weng, Fei, Yongfeng Liu, Youxiang Chew, Leilei Wang, Bing Yang Lee, and Guijun Bi. "Repair feasibility of SS416 stainless steel via laser aided additive manufacturing with SS410/Inconel625 powders." IOP Conference Series: Materials Science and Engineering 744 (February 10, 2020): 012031. http://dx.doi.org/10.1088/1757-899x/744/1/012031.

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36

Zhang, Yu-Cai, Wenchun Jiang, Shan-Tung Tu, Xian-Cheng Zhang, and Laichao Ren. "Creep strength and toughness synergistic strengthening mechanism investigation of the Inconel625/ BNi-2 brazed joint." Journal of Materials Research and Technology 28 (January 2024): 2602–11. http://dx.doi.org/10.1016/j.jmrt.2023.12.223.

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37

Prashar, Gaurav, and Hitesh Vasudev. "High-temperature erosion behavior of direct-aged bimodal Al2O3-reinforced Inconel625 plasma sprayed composite coatings." Surface and Coatings Technology 475 (December 2023): 130156. http://dx.doi.org/10.1016/j.surfcoat.2023.130156.

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38

Prashar, Gaurav, and Hitesh Vasudev. "Structure-property correlation and high-temperature erosion performance of Inconel625-Al2O3 plasma-sprayed bimodal composite coatings." Surface and Coatings Technology 439 (June 2022): 128450. http://dx.doi.org/10.1016/j.surfcoat.2022.128450.

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39

Sun, Zhonggang, Xiao Ji, Wenshu Zhang, Lili Chang, Guoliang Xie, Hui Chang, and Lian Zhou. "Microstructure evolution and high temperature resistance of Ti6Al4V/Inconel625 gradient coating fabricated by laser melting deposition." Materials & Design 191 (June 2020): 108644. http://dx.doi.org/10.1016/j.matdes.2020.108644.

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40

Wang Shu, 王舒, 程序 Cheng Xu, 田象军 Tian Xiangjun, and 张纪奎 Zhang Jikui. "Effect of TiC Addition on Microstructures and Properties of MC Carbide Reinforced Inconel625 composites by Laser Additive Manufacturing." Chinese Journal of Lasers 45, no. 6 (2018): 0602002. http://dx.doi.org/10.3788/cjl201845.0602002.

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41

Magdum, Bhauso, and Vinayak Gaikwad. "Joining of INCONEL-625 by microwave hybrid heating and its performance analysis." Journal of Physics: Conference Series 2601, no. 1 (September 1, 2023): 012022. http://dx.doi.org/10.1088/1742-6596/2601/1/012022.

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Abstract:
Abstract Welding is a process in joining of two or more metals which is done by using or without using of filler materials. Domestic microwave ovens have been in use since last century. Now a day’s microwave technology could be employed to process materials. The investigation is carried out to compare the performance of Joint formed by Microwave hybrid heating with respect to tungsten inert gas (TIG) welding. Radiations emitted from microwave are used to join INCONEL-625 by employing INCONEL-625 powder of grain size 40μm as interface material. Graphite, Silicon carbide (SiC) and Charcoal was used as a susceptor material. And thin graphite sheet is used as separator. Traditional TIG welding machine is used to join INCONEL625 plates with INCONEL-625 wire as filler material. Scanning electron microscope (SEM) characterization joints after welding shows complete melting of INCONEL-625 powder particles and good metallurgical bonding with surface. X-ray diffraction (XRD) reveals the formation of niobium and chromium carbides and intermetallic phases. Joining of same INCONEL-625 plates by using TIG welding has successfully conducted. The novelty of this study is to develop new material joining approach by microwave heating. The comparative study showed material diffusion in microwave hybrid heating is much greater than that of TIG welding. Weld formed by microwave heating is more effective that of TIG welding.
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HAYASHI, Yoshiichirou, Hiroyuki AKEBONO, Masahiko KATO, and Atsushi SUGETA. "Evaluation of Cavitation Erosion and Fatigue Properties in High Cr-Ni Based Alloy INCONEL625 for Welding Material of Hydraulic Turbine Runner." TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A 78, no. 787 (2012): 265–77. http://dx.doi.org/10.1299/kikaia.78.265.

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43

Siva Prasad, Kondapalli, Chalamalasetti Srinivasa Rao, and Damera Nageswara Rao. "Optimizing fusion zone grain size and hardness of pulsed current micro plasma arc welded Inconel625 sheets using Hooke and Jeeves Algorithm." Multidiscipline Modeling in Materials and Structures 8, no. 3 (September 28, 2012): 338–54. http://dx.doi.org/10.1108/15736101211269140.

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44

Bai, Lingyun, Dandan Men, Wenyi Peng, and Tuchun Chen. "Preparation and high temperature oxidation behaviors of TiO2/Al2O3/Inconel625 composite coatings on the surface of Q235 alloy at 900 °C." IOP Conference Series: Materials Science and Engineering 631 (November 7, 2019): 022054. http://dx.doi.org/10.1088/1757-899x/631/2/022054.

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45

Ridolfi, Maria Rita, Paolo Folgarait, and Andrea Di Schino. "Laser Operating Windows Prediction in Selective Laser-Melting Processing of Metallic Powders: Development and Validation of a Computational Fluid Dynamics-Based Model." Materials 13, no. 6 (March 20, 2020): 1424. http://dx.doi.org/10.3390/ma13061424.

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The rapidly ascending trend of additive manufacturing techniques requires a tailoring of existing solidification models and the development of new numerical tools. User-friendly numerical models can be a valid aid in order to optimize operating parameter ranges with the scope to extend the modelling tools to already existing or innovative alloys. In this paper a modelling approach is described simulating the generation of single tracks on a powder bed system in a selective laser melting process. The approach we report attains track geometry as a function of: alloy thermo-physical properties, laser speed and power, powder bed thickness. Aim of the research is to generate a numerical tool able to predict laser power and speed ranges in manufacturing porosity-free printed parts without lack of fusion and keyhole pores. The approach is based on a simplified description of the physical aspects. Main simplifications concern: the laser energy input, the formation of the pool cavity, and the powder bed thermo-physical properties. The model has been adjusted based on literature data providing the track’s geometry (width and depth) and relative density. Such data refer to different alloys. In particular, Ti6Al4V, Inconel625, Al7050, 316L and pure copper are considered. We show that the printing process presents features common to all alloys. This allows the model to predict the printing behavior of an alloy from its physical properties, avoiding the need to perform specific experimental activities.
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Vemanaboina, Harinadh, G. Edison, and Suresh Akella. "Weld bead temperature and residual stresses evaluations in multipass dissimilar INCONEL625 and SS316L by GTAW using IR thermography and x-ray diffraction techniques." Materials Research Express 6, no. 9 (July 24, 2019): 0965a9. http://dx.doi.org/10.1088/2053-1591/ab3298.

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47

Vemanaboina, Harinadh, B. Sridhar Babu, Edison Gundabattini, Paolo Ferro, and Kaushik Kumar. "Effect of Heat Input on Distortions and Residual Stresses Induced by Gas Tungsten Arc Welding in SS 316L to INCONEL625 Multipass Dissimilar Welded Joints." Advances in Materials Science and Engineering 2021 (November 22, 2021): 1–9. http://dx.doi.org/10.1155/2021/1028461.

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In the present study, distortion and residual stresses in the multipass welded joint were analyzed with respect to heat input. The welded joint was produced using the gas tungsten arc welding (GTAW) process with dissimilar Ni-based filler of ERNiCrMo-3. This dissimilar joint is essential in power generating nuclear and thermal plants operating at elevated temperatures. The distortion and residual stress measurements were taken using the Vernier height gauge and XRD method. To evaluate the mechanical properties, tensile testing was carried out at room temperature. The welded joint qualified the tensile test with an average value of 593 MPa. In the weld metal, a significant variation of residual stresses is measured on the top surface of the weldment along with the thickness with peak magnitude of 145 MPa to 180 MPa at the fusion zone.
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Zhang, Jiarong, Xinjie Di, Xing Jiang, and Chengning Li. "Effect of synchronous electromagnetic stirring on Laves phase morphology and mechanical property of Inconel625-HSLA steel functionally graded material fabricated by wire arc additive manufacturing." Materials Letters 316 (June 2022): 132015. http://dx.doi.org/10.1016/j.matlet.2022.132015.

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49

Shinozaki, K., M. Yamamoto, A. Kawasaki, T. Tamura, and Peng Wen. "Development of Evaluation Method for Solidification Cracking Susceptibility of Inconel600/SUS347 Dissimilar Laser Weld Metal by In-Situ Observation." Materials Science Forum 580-582 (June 2008): 49–52. http://dx.doi.org/10.4028/www.scientific.net/msf.580-582.49.

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This study was carried out on the development of the evaluation method for solidification cracking susceptibility of Inconel600/SUS347 dissimilar weld metals during laser welding. Some dissimilar weld metals which have different ratios of Inconel600/SUS347 were prepared by TIG welding and then were remelted on the U-type hot cracking tester by laser. Solidification cracking behavior during hot cracking test was observed by a high speed camera and the dynamic strain, close to the solidification crack, was evaluated. It appeared that local critical strain, for the initiation of solidification crack, was obtained by this strain measurement method. So the solidification cracking susceptibility could be directly evaluated based on the critical strain for different dissimilar joint. By using this method, it was discovered that solidification cracking occurred most easily when the ratio of Inconel600/SUS347 is 40%/60%, in the case of the Inconel600/SUS347 dissimilar laser welded joints.
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Wang, Zhong Tang, Yong Gang Deng, Shi Hong Zhang, and Ming Cheng. "Critical Condition of Dynamic Recrystallization of IN690 Using Strain Hardening Rate." Applied Mechanics and Materials 148-149 (December 2011): 1141–44. http://dx.doi.org/10.4028/www.scientific.net/amm.148-149.1141.

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It had been studied that thermal deformation properties of super-alloy Inconel690(IN690) by thermal simulation on Gleeble 3800 Simulator, which the ranges of temperature was 1000~1200°Cand strain rates was 1.0~80/s. According to the experiment data, the critical conditions of super-alloy Inconel690 had been researched by strain hardening rate. Zener-Hollomn parameters (Z) had been introduced into establish the critical conditions of dynamic recrystallization, such as critical strain and critical stress and peak strain. The results showed that the critical strain model which established using strain hardening rate was in good agreement with that of Sellar’s model.

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