Your search keyword '"AZ31 alloy"' showing total 513 results

501. Effect of Processing Routes on AZ31 Alloy Processed By Severe Plastic Deformation

Author

H. Shivananda Nayaka, S. Narendranath, and Muralidhar Avvari

Subjects

Pressing, Materials science, ECAP, Routes, Metallurgy, General Medicine, Microstructure, Indentation hardness, AZ31 alloy, Grain size, AZ31, and Mechanical Properties, Severe plastic deformation, Elongation

Abstract

Equal Channel Angular Pressing (ECAP) is one of the promising techniques in Severe Plastic Deformation (SPD) used to refine the grain size of the metals and its alloys. The main aim of the present study is to give an in depth knowledge of effect of processing routes on AZ31 alloy in ECAP process. In this, processing route A, route C, and route Bc are used to refine the grain size of AZ31 alloy up to two ECAP passes at a temperature of 498K. Initial average grain size of the as received material was found to be 31.8 μm. Further, it was reduced to 14.0 μm, 15.9 μm and 13.3 μm for processing route A, route C, and route Bc respectively. Mechanical properties of the AZ31 alloy are experimentally evaluated for three processing routes. The percentage elongation of the material was found to be increased with increasing number of passes. Maximum microhardness of the material was observed in route Bc when compared to route A and route C.

502. Formability and Grain Size of AZ31 Sheet in Gas Blow Forming Process

Author

Jae-Jung Kim, Youngseon Lee, Yongnam Kwon, and Eun Yoo Yoon

Subjects

Equiaxed crystals, Materials science, Alloy, Metallurgy, superplasticity, Forming processes, Superplasticity, AZ31 alloy, General Medicine, engineering.material, Microstructure, Grain size, engineering, Formability, Gas blow forming, Composite material, Engineering(all), Tensile testing

Abstract

Initial microstructural effect on mechanical properties and high temperature formability was investigated by experiments such as uniaxial tensile test at room temperature and 400 °C and biaxial gas blow forming at 400 °C. To observe distinct microstructural effect, three types of AZ31 alloy sheets which have different average grain size as 16.41 μm (type-A), 11.02 μm (type-B), and 7.58 μm (type-C) were investigated. Among the three types of AZ31 alloy sheets, Type-A and Type-B was the partially hardened specimens containing twins (AZ31-H) and Type-C was fully annealed specimen with equiaxed grains (AZ31-O). At room temperature tensile test, initial microstructural features such as twin density, dislocation density, and grain size affected mechanical properties. However at 400 °C tensile test and gas blow forming, only initial grain size affected mechanical properties due to the fact that the original microstructures of AZ31-H alloy sheets evolved into recrystallized microstructures with equiaxed grains. Accordingly, AZ31-H magnesium alloys, which have improved mechanical properties at room temperature, could not affect superplastic formability and mechanical properties of post-superplastic formed microstructures.

503. Příprava povlaku na bázi yttria pro zvýšení korozní odolnosti hořčíkové slitiny AZ31

Abstract

Předmětem bakalářské práce byla příprava a charakterizace (morfologická a chemická) povlaků na bázi vrstvených podvojných hydroxidů (LDH) s yttriem na hořčíkové slitině AZ31 pro zlepšení korozní odolnosti slitiny. Povlaky byly připraveny za mírných a hydrotermálních podmínek a syntéza byla podpořena termodynamickými předpoklady. Korozní odolnost slitiny AZ31 s povlaky byla popsána potenciodynamickými měřeními a srovnána s čistou slitinou AZ31. Následoval popis morfologického a prvkového složení skrze SEM-EDS analýzu a potvrzení vzniku struktur, vypozorovaných touto metodou, bylo provedeno skrze FTIR analýzu. Nejlepším povlakem připraveným za mírných podmínek byl vzorek připravený při 90 °C po 24 h s koncentrací yttria 0,05 M a za hydrotermálních podmínek to byl povlak připravený při 120 °C po 30 h s koncentrací yttria 0,075 M. SEM-EDS a FTIR analýza neprokázala vznik MgY-LDH, nýbrž vznik Mg(OH)2. Yttrium bylo v povlacích minoritně zastoupeno, kde se mohlo nacházet, např. ve formě Y(OH)3. Bylo prokázáno, že yttrium má pozitivní vliv na přípravu povlaků ve srovnání se vzorkem připraveným bez yttria za stejných reakčních podmínek., The subject of the bachelor thesis was the preparation and characterization (morphological and chemical) of coatings based on layered double hydroxides (LDH) with yttrium on AZ31 magnesium alloy to improve the corrosion resistance of the alloy. The coatings were prepared under mild and hydrothermal conditions and the synthesis was supported by thermodynamic assumptions. The corrosion resistance of the AZ31 alloy with coatings was described by potentiodynamic measurements and compared with the pure AZ31 alloy. This was followed by a description of the morphological and elemental composition through SEM-EDS analysis, and confirmation of the formation of the structures observed by this method was performed through FTIR analysis. The best coating prepared under mild conditions was a sample prepared at 90 °C for 24 h with a yttrium concentration of 0,05 M and under hydrothermal conditions it was a coating prepared at 120 °C for 30 h with a yttrium concentration of 0,075 M. SEM-EDS and FTIR analysis did not show the formation of MgY-LDH but the formation of Mg(OH)2. Yttrium was minorly represented in the coatings where it could be present, e.g. as Y(OH)3. Yttrium was shown to have a positive effect on the preparation of the coatings compared to the sample prepared without yttrium under the same reaction conditions.

504. Příprava a charakterizace hydroxidu hořečnatého na povrchu hořčíkové slitiny AZ31 v závislosti na použitém kationtu hydroxidu

Abstract

Bakalářská práce se zabývá přípravou a charakterizací hydroxidu hořečnatého na povrchu slitiny AZ31 v závislosti na použitém kationtu hydroxidu. Teoretická část se zaměřuje na hořčík a rovněž i na jeho slitiny. Dále pak na korozi ve vodném a chloridovém prostředí. Poslední kapitola teoretické části je soustředěna na vznik a na přípravu hydroxidu hořečnatého na slitinách hořčíku. V experimentální části je popsána samotná hydrotermální syntéza ochranných povlaků na slitině hořčíku AZ31 a rovněž i jednotlivé metody, jenž byly v průběhu studie použity. Jako podmínky přípravy byla zvolena teplota 120 °C a různé časy syntézy (2h, 4h, 8h, 12h a 24h). Mezi použité metody patřila SEM-EDS analýza na dokumentování povrchu a tloušťky povlaku materiálu. Následovala metoda potenciodynamické polarizace, která sloužila na zjištění korozní odolnosti připravených vzorků v prostředí 0,15M NaCl. Poslední analýzou byla FTIR spektrometrie, jež posloužila k určení sloučenin, z nichž byl ochranný povlak složen. Výsledky ukázaly, že kationty použitých hydroxidů nijak neovlivňují morfologii ani množství připraveného hydroxidu hořečnatého na slitině AZ31. Výsledné povlaky se vyznačovaly dobrou korozní odolností ve srovnání s referenční slitinou AZ31. Nejlepší výsledky byly dosáhnuty u 24h vzorků. Tloušťka povlaků dosáhla 10 m při teplotě 120 °C a při době hydrotermální syntézy 24 h., The bachelor thesis deals with the preparation and characterization of magnesium hydroxide on the surface of AZ31 alloy depending on the hydroxide cation used. The theoretical part focuses on magnesium and also on its alloys. Furthermore, corrosion in aqueous and chloride environments is discussed. The last chapter of the theoretical part focuses on the formation and preparation of magnesium hydroxide on magnesium alloys. The experimental part describes the actual hydrothermal synthesis of protective coatings on AZ31 magnesium alloy as well as the different methods used during the study. A temperature of 120 °C and different synthesis times (2h, 4h, 8h, 12h and 24h) were chosen as preparation conditions. The methods used included SEM-EDS analysis to document the surface and coating thickness of the material. This was followed by a potentiodynamic polarization method to determine the corrosion resistance of the prepared samples in a 0.15M NaCl. The last analysis was FTIR spectrometry, which served to determine the compounds that made up the protective coating. The results showed that the cations of the hydroxides used did not affect the morphology or the amount of prepared magnesium hydroxide on AZ31 alloy. The resulting coatings were characterized by good corrosion resistance compared to the reference AZ31 alloy. The best results were obtained for 24h samples. The thickness of the coatings reached 10 m at 120 °C and at a hydrothermal synthesis time of 24 h.

505. Příprava a charakterizace hydroxidu hořečnatého na povrchu hořčíkové slitiny AZ31 v závislosti na použitém kationtu hydroxidu

Abstract

Bakalářská práce se zabývá přípravou a charakterizací hydroxidu hořečnatého na povrchu slitiny AZ31 v závislosti na použitém kationtu hydroxidu. Teoretická část se zaměřuje na hořčík a rovněž i na jeho slitiny. Dále pak na korozi ve vodném a chloridovém prostředí. Poslední kapitola teoretické části je soustředěna na vznik a na přípravu hydroxidu hořečnatého na slitinách hořčíku. V experimentální části je popsána samotná hydrotermální syntéza ochranných povlaků na slitině hořčíku AZ31 a rovněž i jednotlivé metody, jenž byly v průběhu studie použity. Jako podmínky přípravy byla zvolena teplota 120 °C a různé časy syntézy (2h, 4h, 8h, 12h a 24h). Mezi použité metody patřila SEM-EDS analýza na dokumentování povrchu a tloušťky povlaku materiálu. Následovala metoda potenciodynamické polarizace, která sloužila na zjištění korozní odolnosti připravených vzorků v prostředí 0,15M NaCl. Poslední analýzou byla FTIR spektrometrie, jež posloužila k určení sloučenin, z nichž byl ochranný povlak složen. Výsledky ukázaly, že kationty použitých hydroxidů nijak neovlivňují morfologii ani množství připraveného hydroxidu hořečnatého na slitině AZ31. Výsledné povlaky se vyznačovaly dobrou korozní odolností ve srovnání s referenční slitinou AZ31. Nejlepší výsledky byly dosáhnuty u 24h vzorků. Tloušťka povlaků dosáhla 10 m při teplotě 120 °C a při době hydrotermální syntézy 24 h., The bachelor thesis deals with the preparation and characterization of magnesium hydroxide on the surface of AZ31 alloy depending on the hydroxide cation used. The theoretical part focuses on magnesium and also on its alloys. Furthermore, corrosion in aqueous and chloride environments is discussed. The last chapter of the theoretical part focuses on the formation and preparation of magnesium hydroxide on magnesium alloys. The experimental part describes the actual hydrothermal synthesis of protective coatings on AZ31 magnesium alloy as well as the different methods used during the study. A temperature of 120 °C and different synthesis times (2h, 4h, 8h, 12h and 24h) were chosen as preparation conditions. The methods used included SEM-EDS analysis to document the surface and coating thickness of the material. This was followed by a potentiodynamic polarization method to determine the corrosion resistance of the prepared samples in a 0.15M NaCl. The last analysis was FTIR spectrometry, which served to determine the compounds that made up the protective coating. The results showed that the cations of the hydroxides used did not affect the morphology or the amount of prepared magnesium hydroxide on AZ31 alloy. The resulting coatings were characterized by good corrosion resistance compared to the reference AZ31 alloy. The best results were obtained for 24h samples. The thickness of the coatings reached 10 m at 120 °C and at a hydrothermal synthesis time of 24 h.

506. Příprava povlaku na bázi yttria pro zvýšení korozní odolnosti hořčíkové slitiny AZ31

Abstract

Předmětem bakalářské práce byla příprava a charakterizace (morfologická a chemická) povlaků na bázi vrstvených podvojných hydroxidů (LDH) s yttriem na hořčíkové slitině AZ31 pro zlepšení korozní odolnosti slitiny. Povlaky byly připraveny za mírných a hydrotermálních podmínek a syntéza byla podpořena termodynamickými předpoklady. Korozní odolnost slitiny AZ31 s povlaky byla popsána potenciodynamickými měřeními a srovnána s čistou slitinou AZ31. Následoval popis morfologického a prvkového složení skrze SEM-EDS analýzu a potvrzení vzniku struktur, vypozorovaných touto metodou, bylo provedeno skrze FTIR analýzu. Nejlepším povlakem připraveným za mírných podmínek byl vzorek připravený při 90 °C po 24 h s koncentrací yttria 0,05 M a za hydrotermálních podmínek to byl povlak připravený při 120 °C po 30 h s koncentrací yttria 0,075 M. SEM-EDS a FTIR analýza neprokázala vznik MgY-LDH, nýbrž vznik Mg(OH)2. Yttrium bylo v povlacích minoritně zastoupeno, kde se mohlo nacházet, např. ve formě Y(OH)3. Bylo prokázáno, že yttrium má pozitivní vliv na přípravu povlaků ve srovnání se vzorkem připraveným bez yttria za stejných reakčních podmínek., The subject of the bachelor thesis was the preparation and characterization (morphological and chemical) of coatings based on layered double hydroxides (LDH) with yttrium on AZ31 magnesium alloy to improve the corrosion resistance of the alloy. The coatings were prepared under mild and hydrothermal conditions and the synthesis was supported by thermodynamic assumptions. The corrosion resistance of the AZ31 alloy with coatings was described by potentiodynamic measurements and compared with the pure AZ31 alloy. This was followed by a description of the morphological and elemental composition through SEM-EDS analysis, and confirmation of the formation of the structures observed by this method was performed through FTIR analysis. The best coating prepared under mild conditions was a sample prepared at 90 °C for 24 h with a yttrium concentration of 0,05 M and under hydrothermal conditions it was a coating prepared at 120 °C for 30 h with a yttrium concentration of 0,075 M. SEM-EDS and FTIR analysis did not show the formation of MgY-LDH but the formation of Mg(OH)2. Yttrium was minorly represented in the coatings where it could be present, e.g. as Y(OH)3. Yttrium was shown to have a positive effect on the preparation of the coatings compared to the sample prepared without yttrium under the same reaction conditions.

507. Příprava povlaku na bázi yttria pro zvýšení korozní odolnosti hořčíkové slitiny AZ31

Abstract

Předmětem bakalářské práce byla příprava a charakterizace (morfologická a chemická) povlaků na bázi vrstvených podvojných hydroxidů (LDH) s yttriem na hořčíkové slitině AZ31 pro zlepšení korozní odolnosti slitiny. Povlaky byly připraveny za mírných a hydrotermálních podmínek a syntéza byla podpořena termodynamickými předpoklady. Korozní odolnost slitiny AZ31 s povlaky byla popsána potenciodynamickými měřeními a srovnána s čistou slitinou AZ31. Následoval popis morfologického a prvkového složení skrze SEM-EDS analýzu a potvrzení vzniku struktur, vypozorovaných touto metodou, bylo provedeno skrze FTIR analýzu. Nejlepším povlakem připraveným za mírných podmínek byl vzorek připravený při 90 °C po 24 h s koncentrací yttria 0,05 M a za hydrotermálních podmínek to byl povlak připravený při 120 °C po 30 h s koncentrací yttria 0,075 M. SEM-EDS a FTIR analýza neprokázala vznik MgY-LDH, nýbrž vznik Mg(OH)2. Yttrium bylo v povlacích minoritně zastoupeno, kde se mohlo nacházet, např. ve formě Y(OH)3. Bylo prokázáno, že yttrium má pozitivní vliv na přípravu povlaků ve srovnání se vzorkem připraveným bez yttria za stejných reakčních podmínek., The subject of the bachelor thesis was the preparation and characterization (morphological and chemical) of coatings based on layered double hydroxides (LDH) with yttrium on AZ31 magnesium alloy to improve the corrosion resistance of the alloy. The coatings were prepared under mild and hydrothermal conditions and the synthesis was supported by thermodynamic assumptions. The corrosion resistance of the AZ31 alloy with coatings was described by potentiodynamic measurements and compared with the pure AZ31 alloy. This was followed by a description of the morphological and elemental composition through SEM-EDS analysis, and confirmation of the formation of the structures observed by this method was performed through FTIR analysis. The best coating prepared under mild conditions was a sample prepared at 90 °C for 24 h with a yttrium concentration of 0,05 M and under hydrothermal conditions it was a coating prepared at 120 °C for 30 h with a yttrium concentration of 0,075 M. SEM-EDS and FTIR analysis did not show the formation of MgY-LDH but the formation of Mg(OH)2. Yttrium was minorly represented in the coatings where it could be present, e.g. as Y(OH)3. Yttrium was shown to have a positive effect on the preparation of the coatings compared to the sample prepared without yttrium under the same reaction conditions.

508. Příprava a charakterizace hydroxidu hořečnatého na povrchu hořčíkové slitiny AZ31 v závislosti na použitém kationtu hydroxidu

Abstract

Bakalářská práce se zabývá přípravou a charakterizací hydroxidu hořečnatého na povrchu slitiny AZ31 v závislosti na použitém kationtu hydroxidu. Teoretická část se zaměřuje na hořčík a rovněž i na jeho slitiny. Dále pak na korozi ve vodném a chloridovém prostředí. Poslední kapitola teoretické části je soustředěna na vznik a na přípravu hydroxidu hořečnatého na slitinách hořčíku. V experimentální části je popsána samotná hydrotermální syntéza ochranných povlaků na slitině hořčíku AZ31 a rovněž i jednotlivé metody, jenž byly v průběhu studie použity. Jako podmínky přípravy byla zvolena teplota 120 °C a různé časy syntézy (2h, 4h, 8h, 12h a 24h). Mezi použité metody patřila SEM-EDS analýza na dokumentování povrchu a tloušťky povlaku materiálu. Následovala metoda potenciodynamické polarizace, která sloužila na zjištění korozní odolnosti připravených vzorků v prostředí 0,15M NaCl. Poslední analýzou byla FTIR spektrometrie, jež posloužila k určení sloučenin, z nichž byl ochranný povlak složen. Výsledky ukázaly, že kationty použitých hydroxidů nijak neovlivňují morfologii ani množství připraveného hydroxidu hořečnatého na slitině AZ31. Výsledné povlaky se vyznačovaly dobrou korozní odolností ve srovnání s referenční slitinou AZ31. Nejlepší výsledky byly dosáhnuty u 24h vzorků. Tloušťka povlaků dosáhla 10 m při teplotě 120 °C a při době hydrotermální syntézy 24 h., The bachelor thesis deals with the preparation and characterization of magnesium hydroxide on the surface of AZ31 alloy depending on the hydroxide cation used. The theoretical part focuses on magnesium and also on its alloys. Furthermore, corrosion in aqueous and chloride environments is discussed. The last chapter of the theoretical part focuses on the formation and preparation of magnesium hydroxide on magnesium alloys. The experimental part describes the actual hydrothermal synthesis of protective coatings on AZ31 magnesium alloy as well as the different methods used during the study. A temperature of 120 °C and different synthesis times (2h, 4h, 8h, 12h and 24h) were chosen as preparation conditions. The methods used included SEM-EDS analysis to document the surface and coating thickness of the material. This was followed by a potentiodynamic polarization method to determine the corrosion resistance of the prepared samples in a 0.15M NaCl. The last analysis was FTIR spectrometry, which served to determine the compounds that made up the protective coating. The results showed that the cations of the hydroxides used did not affect the morphology or the amount of prepared magnesium hydroxide on AZ31 alloy. The resulting coatings were characterized by good corrosion resistance compared to the reference AZ31 alloy. The best results were obtained for 24h samples. The thickness of the coatings reached 10 m at 120 °C and at a hydrothermal synthesis time of 24 h.

509. Deformation mechanisms responsible for the high ductility in a Mg AZ31 alloy analyzed by electron backscattered diffraction

Author

María Teresa Pérez-Prado, Oscar Antonio Ruano, and J.A. del Valle

Subjects

Materials science, EBSD, Metallurgy, Metals and Alloys, Recrystallization (metallurgy), Tensile deformation, AZ31 alloy, Slip (materials science), Creep, Strain rate, Condensed Matter Physics, Grain size, Grain growth, Deformation mechanism, Mechanics of Materials, Electron backscatter diffraction

Abstract

The microstructural evolution during tensile deformation of an AZ31 alloy with grain size ranging from 17 to 40 µm, at intermediate temperatures, has been studied using electron backscattered diffraction (EBSD) and optical microscopy (OM) as the main characterization tools. Two deformation regimes could be distinguished. In the high-strain-rate regime, the stress exponent was found to be about 6, and the activation energy is close to that for Mg self-diffusion. These values are indicative of climb-controlled creep. In the lower strain rate range, elongations higher than 300 pct were measured. In this range, significant dynamic grain growth takes place during the test, and thus, the predominant deformation mechanisms have been investigated by means of strain-rate-change tests. It was found that the stress exponent varied during the test between 1.7 and 2.5, while the activation energy remains close to that for grain-boundary diffusion. The EBSD analysis revealed, additionally, the appearance of low to moderately misoriented boundaries that tend to lay perpendicular to the tensile axis. The enhanced ductility of this AZ31 alloy in this regime is attributed to the operation of a sequence of deformation mechanisms. Initially, grain-boundary sliding governs deformation; once dynamic grain growth occurs, dislocation slip becomes gradually more important. Dislocation interaction gives rise to the appearance of new interfaces by continuous dynamic recrystallization (CDRX).

510. Accumulative roll bonding of AZ31 magnesium alloy

Author

Abbas Zarei-Hanzaki, Meysam Haghshenas, and S.M. Fatemi-Varzaneh

Subjects

Accumulative roll bonding, Materials science, Homogeneous, Statistical and Nonlinear Physics, Magnesium alloy, Composite material, Ultra fine, Condensed Matter Physics, Microstructure, AZ31 alloy, Grain size, Degree (temperature)

Abstract

This work conducted to investigate the effects of accumulative roll bonding (ARB) method on achieving the ultra-fine grain microstructure in AZ31 alloy. Accordingly, a number of ARB routes at 400°C, applying thickness reductions per pass of 35%, 55%, and 85% were performed. The results indicate that both the final grain size and the degree of bonding have been dictated by the thickness reduction per pass. The larger pass reductions promote a higher degree of bonding. Increasing the total strain stimulates the formation of a more homogeneous ultra fine grain microstructure.

511. Effect of friction stir processing on microstructure and mechanical properties of cast AZ31 magnesium alloy

Author

Wu Nan, Wang Wen, Guo Qiang, and Wang Kuaishe

Subjects

Friction stir processing, Materials science, Magnesium, Metallurgy, General Engineering, chemistry.chemical_element, Microstructure, Homogenization (chemistry), AZ31 alloy, chemistry, Ultimate tensile strength, Composite material, Magnesium alloy, Eutectic system

Abstract

Cast AZ31 magnesium alloy was treated by the single-pass and two-pass friction stir processing (FSP), respectively, and the microstructure and mechanical properties were investigated. The results show that FSP causes a remarkable grain refinement and homogenization, and it makes the coarse, network-like eutectic β-Mg17Al12 phase break up and dissolve into the magnesium matrix. There is no obvious preferential orientation in the cast AZ31 alloy and the single-pass FSP specimen. On the contrary, the two-pass FSP specimen exhibits the preferential grain orientation, and (0002) basal plane shows a strong tendency to be parallel to the plate surface. Further, the ultimate tensile strengths of the single-pass and the two-pass FSP specimens increase by 43 and 82 MPa, and elongations increase by 4.3% and 11.9%, respectively. In the FSP condition, the fracture surface of the AZ31 magnesium alloy exhibits ductile fracture characterization.

512. Microstructure evolution and mechanical properties of AZ 31 Mg alloy processed by equal channel angular extrusion

Author

Li Jin, Da Li Mao, Dong Liang Lin, Wenjiang Ding, and Xiao Qing Zeng

Subjects

Materials science, Equal channel angular extrusion, Mechanical Engineering, Metallurgy, Alloy, Recrystallization (metallurgy), Property analysis, Atmospheric temperature range, engineering.material, Condensed Matter Physics, Microstructure, AZ31 alloy, Mechanics of Materials, engineering, General Materials Science, Grain boundary

Abstract

Microstructure evolution and mechanical properties of AZ31 Mg alloy during equal channel angular extrusion (ECAE) at the temperature range of 453-498K was investigated. The processing temperature is an important factor to affect the microstructure and mechanical properties of the Mg alloy during ECAE. ECAE processing can be practiced at 498k or upon the temperature for as-received AZ31 alloy. A new two-step ECAEed processing was successfully used with lowing the processing temperature to 453k. The ductility increased but yield stress decreased though the grain refinement after ECAE at 498k because the recrystallization took place and large angle grain boundary formed. However both the ductility and yield stress were increased after two-step ECAE, which was ascribed to grain refinement as well as incomplete dynamic recovery and recrystallization during the processing.

513. Superplastic behavior in commercial wrought magnesium alloys

Author

H. Tsutsui, Yoshihira Okanda, Masahide Kohzu, Kunio Ishikawa, Toshiji Mukai, Hiroyuki Watanabe, and Kenji Higashi

Subjects

High strain rate, Materials science, Magnesium, Mechanical Engineering, Metallurgy, chemistry.chemical_element, Superplasticity, Strain rate, Condensed Matter Physics, AZ31 alloy, chemistry, Mechanics of Materials, Ultimate tensile strength, General Materials Science, Elongation, Ductility

Abstract

Superplastic behavior of five commercial wrought magnesium alloys in as-received condition were examined to grasp the ability of superplastic forming. The materials used in the present study was an AZ31 rolled sheet, an AZ31 extruded rod, an AZ61 rolled sheet, an AZ61 extruded sheet and a ZK60 extruded rod. All the materials have been tested at different temperature and strain rate ranges where their respective superplastic behavior could be obtained. The tensile tests revealed that all the materials exhibited high ductility at about 673 K with elongations-to-failure of over 200%. The results indicated that the commercial wrought magnesium alloys have a potential for superplastic forming However, strain rate for the maximum elongation was in the range of 10 -4 to 10 -5 s -1 except ZK60 extruded rod, that exhibited the maximum elongation at a relatively high strain rate of 10 -3 s -1 , Further grain refinement is required to perform high-strain-rate superplastic forming using commercial wrought alloys.