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Design and Development of a Novel Functionally Graded Material for High Pressure Pneumatic: A Novel Approach with SS316L, Inconel and Titanium Combinations
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Research Scholar, Department of Mechanical Engineering, Faculty of Engineering, Karpagam Academy of Higher Education, Coimbatore, 641 021, Tamil Nadu, India

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Design and Development of a Novel Functionally Graded Material for High Pressure Pneumatic: A Novel Approach with SS316L, Inconel and Titanium Combinations
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    摘要:

    technique is contemplated as a favorable technology within construction based on structures of hue metallic through great rates of accumulation in addition to its low cost. Stainless steels are extensively utilized because of the upright mechanical properties (MP)besides the good resistance in corrosion. FGM is extensively used in photoelectric, biological, aerospace, nuclear engineering fields. When compared with regular manufacturing, AM techniques are having the capability to create the complex components using the low wastage of energy and materials and the processing cycle which is shorter. The current study designed the novel SS316L with titanium and Inconel combination. The current study employed WAAM technique for manufacturing FGM composition. The study designed two combination of FGM namely 60% SS316L+20% INCONEL 625+20% Ti6Al4V and 60% SS316L+20% INCONEL 625+20% INCONEL718. The study analyzed the tensile strength, elongation, yield strength, hardness, cross sectional area of the parent material and two novel composition. The outcome of the test results illustrated that the combination of 60% SS316L+20% INCONEL 625+20% INCONEL718 has high mechanical properties compared to 60% SS316L+20% INCONEL 625+20% Ti6Al4V. Nonetheless, 60% SS316L+20% INCONEL 625+20% Ti6Al4V is better than the parent material SS316L. Hence, the study concludes that the novel research composition 60% SS316L+20% INCONEL 625+20% INCONEL718 is the best invented material. Due to high strength properties of 60% SS316L+20% INCONEL 625+20% INCONEL718, the composition could utilized in the field of high pressure pneumatic and defence application. Hence, the upcoming study will further analyze the vibration, impact, corrosion behavior and high and low temperature testing.

    Abstract:

    technique is contemplated as a favorable technology within construction based on structures of hue metallic through great rates of accumulation in addition to its low cost. Stainless steels are extensively utilized because of the upright mechanical properties (MP)besides the good resistance in corrosion. FGM is extensively used in photoelectric, biological, aerospace, nuclear engineering fields. When compared with regular manufacturing, AM techniques are having the capability to create the complex components using the low wastage of energy and materials and the processing cycle which is shorter. The current study designed the novel SS316L with titanium and Inconel combination. The current study employed WAAM technique for manufacturing FGM composition. The study designed two combination of FGM namely 60% SS316L+20% INCONEL 625+20% Ti6Al4V and 60% SS316L+20% INCONEL 625+20% INCONEL718. The study analyzed the tensile strength, elongation, yield strength, hardness, cross sectional area of the parent material and two novel composition. The outcome of the test results illustrated that the combination of 60% SS316L+20% INCONEL 625+20% INCONEL718 has high mechanical properties compared to 60% SS316L+20% INCONEL 625+20% Ti6Al4V. Nonetheless, 60% SS316L+20% INCONEL 625+20% Ti6Al4V is better than the parent material SS316L. Hence, the study concludes that the novel research composition 60% SS316L+20% INCONEL 625+20% INCONEL718 is the best invented material. Due to high strength properties of 60% SS316L+20% INCONEL 625+20% INCONEL718, the composition could utilized in the field of high pressure pneumatic and defence application. Hence, the upcoming study will further analyze the vibration, impact, corrosion behavior and high and low temperature testing.

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Sainath K. Design and Development of a Novel Functionally Graded Material for High Pressure Pneumatic: A Novel Approach with SS316L, Inconel and Titanium Combinations[J].稀有金属材料与工程,,().[Sainath K. Design and Development of a Novel Functionally Graded Material for High Pressure Pneumatic: A Novel Approach with SS316L, Inconel and Titanium Combinations[J]. Rare Metal Materials and Engineering,,().]
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  • 收稿日期:2024-12-03
  • 最后修改日期:2024-12-11
  • 录用日期:2024-12-18
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