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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

Kostolný, Igor, and Roman Koleňák. "Effect of in Addition to Zn-5Al Solder on Microstructure and Properties of Solder Joints." Key Engineering Materials 723 (December 2016): 357–62. http://dx.doi.org/10.4028/www.scientific.net/kem.723.357.

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The effect of In addition to Zn-5Al on the interfacial reaction behaviors and mechanical properties of solder joints were investigated. It was found that addition of In decreasing the melting point of Zn-5Al solder. The segregation of In on grain boundary was observed. CuZn5 and Cu5Zn8 intermetallic phases were observed at joint interface. Segregation of In on grain boundary caused a significant decrease of strength of the Zn-5Al-In solder compared to Zn-5Al. Addition of 1% In to Zn-5Al solder resulted in a reduction of shear strength of 14 MPa. The interfacial microstructure, shear strength and fracture surfaces of Zn-5Al/Cu and Zn-5Al-1In/Cu solder joints were studied.
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2

Koleňák, Roman, and Igor Kostolný. "Effect of in Addition on Microstructure and Properties of Zn-5Al Solder." Key Engineering Materials 737 (June 2017): 107–13. http://dx.doi.org/10.4028/www.scientific.net/kem.737.107.

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The effect of In addition on melting behaviors, microstructure and properties of Zn-5Al solder were investigated. It was found that addition of In decreasing the melting point of Zn-5Al solder. XRD analysis confirmed the presence of Indium in form of α-Zn+β-In solid solution. The segregation of In on grain boundary was observed. Segregation of In on grain boundary caused a significant decrease of strength of the Zn-5Al-In solder compared to Zn-5Al.
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3

Li, Shiwei, Bo Gao, Ganfeng Tu, Yi Hao, Liang Hu, and Shaohua Yin. "Study on the Corrosion Mechanism of Zn-5Al-0.5Mg-0.08Si Coating." Journal of Metallurgy 2011 (June 1, 2011): 1–5. http://dx.doi.org/10.1155/2011/917469.

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A new type of hot-dip Zn-5Al-0.5Mg-0.08Si and Zn-5Al alloy coatings was performed on the cold rolled common steel. The hot-dip process was executed by self-made hot-dip galvanising simulator. SEM and EDS test results demonstrated that Mg was mainly distributed in crystal boundaries. XRD test results showed that the corrosion product of Zn-5Al-0.5Mg-0.08Si alloy coating was almost Zn5(OH)8C12⋅H2O. The features of Zn5(OH)8C12⋅H2O are low electric conductivity, insolubility and good adhesion.The corrosion resistance of alloy-coated steels was detected by neutral salt spray test. The microstructural characterization of the coating surface after neutral salt spray test and removing the corrosion products revealed that the corrosion process of Zn-5Al-0.5Mg-0.08Si coating was uniform and the coating surface was almost flat. As a result, the corrosion resistance of Zn-5Al-0.5Mg-0.08Si coating has a remarkable improvement with a factor of 9.2 compared with that of Zn-5Al coating.
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4

Demirtas, Muhammet, Harun Yanar, Onur Saray, and Gençağa Pürçek. "Room Temperature Superplasticity in Fine/Ultrafine-Grained Zn-Al Alloys with Different Phase Compositions." Defect and Diffusion Forum 385 (July 2018): 72–77. http://dx.doi.org/10.4028/www.scientific.net/ddf.385.72.

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Three Zn-Al alloys, namely Zn-22Al, Zn-5Al and Zn-0.3Al, were subjected to equal-channel angular pressing (ECAP), and the effect of ECAP on their microstructure and room temperature (RT) superplastic behavior were investigated in detail referring to previous studies reported by the authors of the current study. ECAP remarkably refined the microstructures of three alloys as compared to their pre-processed conditions. While the lowest grain size was achieved in Zn-22Al alloy as 200 nm, the grain sizes of Zn-5Al and Zn-0.3Al alloys were ~540 nm and 2 µm, respectively, after ECAP. After the formation of fine/ultrafine-grained (F/UFG) microstructures, all Zn-Al alloys exhibited superplastic behavior at RT and high strain rates. The maximum superplastic elongations were 400%, 520% and 1000% for Zn-22Al, Zn-5Al and Zn-0.3Al alloys, respectively. It is interesting to point out that the highest RT superplastic elongation was obtained in Zn-0.3Al alloy with the largest grain size, while Zn-22Al alloy having the lowest grain size showed the minimum superplastic elongation. This paradox was attributed to the different phase compositions of these alloys. The formation of Al-rich α/α phase boundaries, where grain boundary sliding is minimum comparing to Zn-rich η/η and η/α phase boundaries of Zn-Al alloys, is the lowest level in Zn-0.3Al alloy among all the alloys. Therefore, it can be concluded that if it is desired to achieve high superplastic elongation in Zn-Al alloys at RT, keeping Al content at a possibly minimum level seems to be the most suitable way.
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5

IDO, Yasuyuki, Syuichi YOSHIMURA, and Hideki HAGI. "K-1024 Aqueous Corrosion of Zn-5Al Plated Steel." Proceedings of the JSME annual meeting I.01.1 (2001): 537–38. http://dx.doi.org/10.1299/jsmemecjo.i.01.1.0_537.

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6

AMINI, REZA, Z. NIZOMOV, M. RAZAZI, I. N. GANIEV, and Z. R. OBIDOV. "Temperature Dependence of Thermodynamic Properties of Zn-5Al and Zn-55Al Alloys With Magnesium." Oriental Journal Of Chemistry 28, no. 2 (June 18, 2012): 841–46. http://dx.doi.org/10.13005/ojc/280225.

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7

Rzychoń, Tomasz. "Microstructure and Creep Properties of Selected Gravity Casting Magnesium Alloys." Key Engineering Materials 682 (February 2016): 372–79. http://dx.doi.org/10.4028/www.scientific.net/kem.682.372.

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In this paper microstructure and creep properties of Mg-Al-Ca-Sr, Mg-Zn-RE-Zr and Mg-Sn-Si gravity casting magnesium alloys are presented. The microstructure was characterized using light microscopy, scanning and transmission electron microscopy. Phase identification was made by SAED and XRD analysis. Creep tests were carried out in the temperature range from 180°C to 200°C at applied stress of 60 MPa. Microstructure of Mg-Al-Ca-Sr alloys composed of α-Mg grains and C36, C15 and C14 intermetallic compounds in the interdendritic regions. In case of Mg-Zn-RE-Zr alloys the dominant intermetallic compound is (Mg,Zn)12RE phase also located in the interdendritic regions. Microstructure of Mg-Sn-Si alloys after T6 heat treatment consists of plate-like precipitates of Mg2Sn phase, primary crystals of Mg2Si phase and globular Mg2Si phase. Among the alloys in this study, the low-cost Mg-5Al-3Ca-0.7Sr alloy has the best creep resistance. The other alloys, excluding the Mg-5Si-7Sn alloy, are characterized by a poorer creep resistance in compared to Mg-5Al-3Ca-0.7Sr alloy, however their creep resistance is better if compared to typical Mg-Al alloys. Creep resistance of Mg-5Si-7Sn alloy is very low.
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8

Kato, Fumiki, Hiroki Takahashi, Hidekazu Tanisawa, Kenichi Koui, Shinji Sato, Yoshinori Murakami, Hiroshi Nakagawa, Hiroshi Yamaguchi, and Hiroshi Sato. "Evaluation of Thermal Resistance Degradation of SiC Power Module Corresponding to Thermal Cycle Test." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2017, HiTEN (July 1, 2017): 1–5. http://dx.doi.org/10.4071/2380-4491.2017.hiten.223.

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Abstract In this paper, we demonstrate that thermal degradation of silicon carbide (SiC) power modules corresponding to thermal cycles can be detected and tracked non-destructively by transient thermal analysis. The purpose of this evaluation is to analyze the distribution of the thermal resistance in the power module and to identify the structure deterioration part. As a target for evaluation power modules using a SiC-MOSFET for high-temperature operation were assembled with Zn-5Al eutectic solder. The junction to case thermal resistance was successfully evaluated as 0.85 K/W by using transient thermal analysis, and the thermal resistance of the Zn-5Al die-attachment was also evaluated as 0.13 K/W. A series of thermal cycle test between −40 and 250°C was conducted, and the power modules were evaluated their thermal resistance taken out from thermal cycle test machine at 100, 200, 500 and 1000 cycles. We identified the increase of thermal resistance each thermal cycle in specific modules. It was successfully shown that thermal resistance deterioration of SiC power module corresponding to thermal cycles can be traced non-destructively by this transient thermal analysis method.
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9

Ben Hamu, Guy, Polina Metalnikov, Dan Eliezer, and Kwang Seon Shin. "Corrosion Mechanisms of New Wrought Mg-Al Based Alloys Alloying with Mn, Zn and Sn." Materials Science Forum 941 (December 2018): 1880–85. http://dx.doi.org/10.4028/www.scientific.net/msf.941.1880.

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The low density and high strength/weight ratio of magnesium (Mg) and magnesium alloys make them promising candidate materials in light-weight vehicle industries, such as automobile and aerospace, where poor corrosion resistance is a major obstacle in many of their wide-spread applications. Addition of alloying elements with production of wrought Mg alloys with finer microstructure results in enhanced mechanical properties and corrosion resistance. The aim of this research is to study the changes in microstructure caused by addition of alloying elements (zinc (Zn), and tin (Sn)) to new wrought Mg-5Al alloy, and their influence on the alloy's corrosion behavior. The microstructure was investigated using optical and electron microscopy and EDS. The corrosion behavior was analyzed through electrochemical measurements and immersion test. It was found that the corrosion resistance of Mg-5Al alloy was improved by addition of alloying elements, and the amounts of these elements strongly influenced the corrosion behavior of the alloys. Nevertheless, the influence of alloying elements is different for short-term and long-term immersion periods, since the mechanisms of corrosion initiation and corrosion propagation are different.
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10

Xiao, Wenlong, Shusheng Jia, Jianli Wang, Jie Yang, Lidong Wang, and Limin Wang. "Effects of rare earth on the structure and properties of Mg–6Zn–5Al–4Gd–1RE (RE = Ce or Y) alloys." Journal of Materials Research 23, no. 10 (October 2008): 2609–21. http://dx.doi.org/10.1557/jmr.2008.0343.

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The microstructures and mechanical properties of Mg–6Zn–5Al–4Gd–1RE (RE = Ce or Y) alloys were investigated. The addition of Ce or Y obviously refines the grain size for the Mg–6Zn–5Al–4Gd-based alloy, while the Y element has a better refining effect. The Ce and Y show different grain-refining mechanisms: Ce addition mostly promotes the growth of secondary dendrite, while Y addition mainly increases the heterogeneous nucleation sites. The hardness-versus-aging time curves indicate that all the alloys have excellent aging-hardening behavior, but the response to maximum hardness was delayed by the Ce or Y addition. The microstructure observation of the peak-aged alloys indicated a large number of nanocrystalline τ-Mg32(Al, Zn)49 precipitates in the matrix. The Y addition is beneficial to improve the mechanical properties, and the alloy has optimal values. However, the Ce addition decreases the ultimate tensile strength and elongation of the alloy due to formation of a lot of shrinkage porosities.
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11

Yu, Shan-Pu, Moo-Chin Wang, and Min-Hsiung Hon. "Formation of intermetallic compounds at eutectic Sn–Zn–Al solder/Cu interface." Journal of Materials Research 16, no. 1 (January 2001): 76–82. http://dx.doi.org/10.1557/jmr.2001.0015.

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The eutectic Sn–Zn–Al solder alloy was used [composition: 91Sn–9(5Al–Zn)] to investigate the intermetallic compounds (IMCs) formed between solder and a Cu substrate. Scanning electron microscope, transmission electron microscope, and electron diffraction analysis were used to study the IMCs between solder and a Cu substrate. The γ–Cu5Zn8 and γ–Cu9Al4 IMCs were found at the Sn–Zn–Al/Cu interface. Thermodynamic calculation can explain the formation of γ–Cu5Zn8 and γ–Cu9Al4 IMCs instead of Cu–Sn compounds. The formation and growth of γ–Cu9Al4 IMC at 423 K resulted in the decrease of adhesion strength at the interface of solder and a Cu substrate, where the Kirkendall voids were severely formed. As the heating time increased up to 1000 h at 423 K, the adhesion strength between the eutectic Sn–Zn–Al solder and a Cu substrate decreased from 7.6 ± 0.7 MPa to 4.4 ± 0.8 MPa.
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12

LI, JIANQUAN, HUASHI LIU, JIANING LI, and GUOZHONG LI. "PHYSICAL PROPERTIES AND MICROSTRUCTURE PERFORMANCE OF LASER ALLOYING Zn MODIFIED AMORPHOUS-NANOCRYSTALS REINFORCED COATING." Nano 08, no. 04 (July 17, 2013): 1350038. http://dx.doi.org/10.1142/s1793292013500380.

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Zn was firstly used to improve wear resistance of a TA7 (Ti–5Al–2.5Sn) titanium alloy surface by mean of a laser alloying (LA) technique. The synthesis of the hard coating on a TA7 titanium alloy by LA of Co–Ti–Cr–TiB2–Zn–CeO2 pre-placed powders was investigated by means of scanning electron microscope (SEM), X-ray diffraction (XRD) and high resolution transmission electron microscope (HRTEM). Experimental results indicated lot of the nanocrystals, such as Ti–B/CoZn13 and the amorphous phases were produced in such LA coating. The nucleation and growth of the amorphous phases were retarded by the nanocrystals in a certain extent during the crystallization process of the amorphous phases. Compared with a TA7 alloy substrate, an improvement of the wear resistance was obtained for such LA composite coating.
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13

Arikan, H., and F. Sahar. "Fracture and mechanical properties of steel fibre reinforced Zn–5Al (Zamak 5) alloy." International Journal of Cast Metals Research 23, no. 3 (June 2010): 173–75. http://dx.doi.org/10.1179/136404609x12580240348938.

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14

Lin, Kwang-Lung, Fu-Chih Chung, and Tzy-Pin Liu. "The potentiodynamic polarization behavior of Pb-free XIn-9(5Al-Zn)-YSn solders." Materials Chemistry and Physics 53, no. 1 (April 1998): 55–59. http://dx.doi.org/10.1016/s0254-0584(97)02062-2.

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15

Park, K. C., B. H. Kim, J. J. Jeon, B. G. Park, Y. H. Park, and I. M. Park. "Influence of Sr and Zn additions on corrosion behaviour of Mg–6Sn–5Al–2Si alloys." International Journal of Cast Metals Research 21, no. 1-4 (August 2008): 96–99. http://dx.doi.org/10.1179/136404608x361747.

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16

Liu, Canyu, Allan Liu, Yutai Su, Yi Chen, Zhaoxia Zhou, and Changqing Liu. "Ultrasonically enhanced flux-less bonding with Zn-5Al alloy under ambient condition for high-temperature electronics interconnects." Journal of Manufacturing Processes 73 (January 2022): 139–48. http://dx.doi.org/10.1016/j.jmapro.2021.10.065.

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17

Liu, Li, Zhiwen Chen, Zhaoxia Zhou, Guang Chen, Fengshun Wu, and Changqing Liu. "Diffusion barrier property of electroless Ni-W-P coating in high temperature Zn-5Al/Cu solder interconnects." Journal of Alloys and Compounds 722 (October 2017): 746–52. http://dx.doi.org/10.1016/j.jallcom.2017.06.122.

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18

Demirtas, M., G. Purcek, H. Yanar, Z. J. Zhang, and Z. F. Zhang. "Achieving room temperature superplasticity in Zn–5Al alloy at high strain rates by equal-channel angular extrusion." Journal of Alloys and Compounds 623 (February 2015): 213–18. http://dx.doi.org/10.1016/j.jallcom.2014.10.111.

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19

Huang, Qiuyu, Youbin Wang, Bingtao Zhou, Yuezhou Wei, Feng Gao, and Toyohisa Fujita. "The effect of ZnAl-LDHs-CO3 on the corrosion behaviour of Zn-5Al alloys in 3.5wt.% NaCl solution." Corrosion Science 179 (February 2021): 109165. http://dx.doi.org/10.1016/j.corsci.2020.109165.

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20

Fu, Yuanke, Liping Wang, Sicong Zhao, Yicheng Feng, and Lei Wang. "Effect of Al Content on Microstructure Evolution and Mechanical Properties of As-Cast Mg-11Gd-2Y-1Zn Alloy." Materials 14, no. 23 (November 24, 2021): 7145. http://dx.doi.org/10.3390/ma14237145.

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In the present paper, the Mg-11Gd-2Y-1Zn alloys with different Al addition were fabricated by the gravity permanent mold method. The effect of Al content on microstructure evolution and mechanical properties of as-cast Mg-11Gd-2Y-1Zn alloy was studied by metallographic microscope, scanning electron microscope, XRD and tensile testing. The experimental results showed that the microstructure of as-cast Mg-11Gd-2Y-1Zn alloy consisted of α-Mg phase and island-shaped Mg3 (RE, Zn) phase. When Al element was added, Al2RE phase and lamellar Mg12REZn (LPSO) phase were formed in the Mg-11Gd-2Y-1Zn alloy. With increasing Al content, LPSO phase and Mg3 (RE, Zn) phase gradually decreased, while Al2RE phase gradually increased. There were only α-Mg and Al2RE phases in the Mg-11Gd-2Y-1Zn-5Al alloy. With the increase of Al content, the grain size decreased firstly and then increased. When the Al content was 1 wt.%, the grain size of the alloy was the minimum value (28.9 μm). The ultimate tensile strength and elongation increased firstly and then decreased with increasing Al addition. And the fracture mode changed from intergranular fracture to transgranular fracture with increasing addition. When Al addition was 1 wt.%, the maximum ultimate tensile strength reached 225.6 MPa, and the elongation was 7.8%. When the content of Al element was 3 wt.%, the maximum elongation reached 10.2% and the ultimate tensile strength was 207.7 MPa.
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21

Liu, L. M., L. M. Zhao, and Z. H. Wu. "Influence of holding time on microstructure and shear strength of Mg–Al alloys joint diffusion bonded with Zn–5Al interlayer." Materials Science and Technology 27, no. 9 (September 2011): 1372–76. http://dx.doi.org/10.1179/026708310x12699498462887.

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22

Nam, Nguyen Dang. "Corrosion behavior of Mg–5Al based magnesium alloy with 1 wt.% Sn, Mn and Zn additions in 3.5 wt.% NaCl solution." Journal of Magnesium and Alloys 2, no. 2 (June 2014): 190–95. http://dx.doi.org/10.1016/j.jma.2014.06.002.

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23

Foster, Leanna L., and John R. Scully. "Corrosion of Cu-5Zn-5Al-1Sn (89% Cu, 5% Zn, 5% Al, 1% Sn) Compared to Copper in Synthetic Perspiration During Cyclic Wetting and Drying: The Fate of Copper." CORROSION 72, no. 9 (September 2016): 1095–106. http://dx.doi.org/10.5006/2063.

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24

LIU, XUHE, RUIZHI WU, and MILIN ZHANG. "MECHANICAL PROPERTIES AND MICROSTRUCTURE OF Mg-5Li-5Al-3Zn-xCd ALLOYS." International Journal of Modern Physics B 23, no. 06n07 (March 20, 2009): 894–99. http://dx.doi.org/10.1142/s0217979209060208.

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Mg -5 Li -5 Al -3 Zn - xCd ( x =0,2,3,4,5) alloys were prepared. The densities of these alloys were measured with Archimedes' method. The influence of Cd element on the microstructure and the properties of these alloys were also studied. The results indicate that these alloys possess low density ranging from 1.5 to 1.7 g·cm-3. The addition of Cd has the refining effect on the α- Mg phase and causes the formation of Mg 3 Cd intermetallic compound. The refinement and the formation of Mg 3 Cd improve the mechanical properties of alloys. When the Cd content is 3 wt.%, the tensile strength of alloy reaches its peak value(288 MPa).
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25

Zhou, Xiaochao, Wei Shi, and Song Xiang. "Improving corrosion resistance of Zn–5Al (wt%) alloy by microalloying with samarium." Journal of Rare Earths, September 2022. http://dx.doi.org/10.1016/j.jre.2022.09.002.

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26

Metalnikov, Polina, Guy Ben-Hamu, and Kwang Seon Shin. "Relation Between Zn Additions, Microstructure and Corrosion Behavior of New Wrought Mg-5Al Alloys." Metals and Materials International, November 20, 2019. http://dx.doi.org/10.1007/s12540-019-00529-3.

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27

Ge, Zhen, Chengcong Huang, Liang Qi, Liang Tang, and Shengyi You. "Effects of Er addition and cooling rate on the corrosion resistance of Zn-5Al alloys." Materials Science and Technology, December 31, 2022, 1–9. http://dx.doi.org/10.1080/02670836.2022.2157529.

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28

Kostolný, Igor, Roman Kolenak, Paulina Babincova, and Martin Kusý. "Investigation of ultrasound-assisted soldering of SiC ceramics by using Zn-Al-In solder for high-temperature applications." Soldering & Surface Mount Technology, April 29, 2022. http://dx.doi.org/10.1108/ssmt-02-2022-0012.

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Purpose This study aims to investigate soldering of SiC ceramics by using Zn-Al-In-based solders and ultrasonic soldering. The focus was on the quality of soldered joints, examining the boundary of the solder/substrate joint and the strength of the fabricated joints. Moreover, the fractured surfaces of joints were assessed. Design/methodology/approach The Zn-5Al base, which is considered for eutectic solder, was used in experiments. When manufacturing this solder, In was also added to at 1 Wt.%. The soldering of SiC substrates on a hot plate with ultrasonic assistance was performed. Findings The solder at room temperature consists of a primary segregated solid solution (Zn) and the binary eutectics (Zn) + (Al) with a high Al content and binary lamellar eutectic with a high Zn and In content non-uniformly distributed on the grain boundaries. The average tensile strength of the Zn5Al1In solder was 52 MPa. The ceramic material was wetted during soldering via reaction between the solder and the SiC substrate, with the formation of Al-Si reaction products. The thickness of the reaction layer on the boundary was 0.5–1.1 µm. The average strength of the soldered joint was 59 MPa. The obtained results confirmed the high efficiency of ultrasonic soldering in air. Originality/value This work has characterised Zn5Al1In soldering alloy and examining soldering SiC ceramics by a flux-less ultrasonic process. The analyses were oriented to assess the strength and structure of the solder and the soldered joints. Based on the achieved results, it is possible to predict the suitability of the solder alloy for flux-free soldering of SiC ceramics.
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29

Sun, Ziwen. "Improved Adhesion and Corrosion Resistance of an epoxy/Zn- 5Al Composite Coating via NaF in a Phosphate Solution." International Journal of Electrochemical Science, July 2019, 6617–27. http://dx.doi.org/10.20964/2019.07.45.

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30

Foster, Leanna, Mike Hutchson, and John Scully. "The Fate of Copper during Corrosion of Cu-5Zn-5Al-1Sn (89% Cu, 5% Zn, 5% Al, 1% Sn) compared to Copper in Synthetic Perspiration Solution." Corrosion, October 2, 2015. http://dx.doi.org/10.5006/1885.

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