Method for macro-etching detection of titanium alloy blade metallurgical quality
A low-magnification corrosion and titanium alloy technology, which is applied in the direction of optical testing for defects/defects, can solve problems such as streamlines and microstructures, mechanical properties and performance, engine reliability blind spots, etc., to achieve perfect technical standards, shorten The effect of cycle time and cost savings
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Embodiment 1
[0022] This embodiment provides a method for inspecting the metallurgical quality of titanium alloy blades by low-magnification corrosion, which is characterized in that: the method for inspecting the metallurgical quality of titanium alloy blades by low-magnification corrosion includes, during the blade forming process, including: extruding rods, Heading, pre-forging, isothermal forming, isothermal correction, heat treatment, machining, low-magnification corrosion; vacuum heat treatment: double annealing, heating at 900°C, heat preservation, heat preservation time calculated according to the largest cross-section; cooling with argon; heating at 550°C , heat preservation for 4 hours, filled with argon to cool; machining method: CNC machining; low-magnification corrosion bath solution: HF (42%) 120ML / L, HNO 3 (65%~68%)260ML / L, H 3 PO 4 (85%) 160ML / L, urea 25g / L, others are water;
[0023] If the uniform equiaxed α-phase structure is the ideal structure, then the heterogeneous...
Embodiment 2
[0035] This embodiment provides a method for inspecting the metallurgical quality of titanium alloy blades by low-magnification corrosion, which is characterized in that: the method for inspecting the metallurgical quality of titanium alloy blades by low-magnification corrosion includes, during the blade forming process, including: extruding rods, Heading, pre-forging, isothermal forming, isothermal correction, heat treatment, machining, low-magnification corrosion; vacuum heat treatment: double annealing, heating at 920°C, heat preservation, heat preservation time calculated according to the largest cross-section; cooling with argon; heating at 650°C , heat preservation for 8h, filled with argon to cool; machining method: CNC machining; low-magnification corrosion bath solution: HF (42%) 120ML / L, HNO 3 (65%~68%)260ML / L, H 3 PO 4 (85%) 160ML / L, urea 25g / L, others are water;
[0036] If the uniform equiaxed α-phase structure is the ideal structure, then the heterogeneous micr...
Embodiment 3
[0048] This embodiment provides a method for inspecting the metallurgical quality of titanium alloy blades by low-magnification corrosion, which is characterized in that: the method for inspecting the metallurgical quality of titanium alloy blades by low-magnification corrosion includes, during the blade forming process, including: extruding rods, Heading, pre-forging, isothermal forming, isothermal correction, heat treatment, machining, low-magnification corrosion; vacuum heat treatment: double annealing, heating at 910°C, heat preservation, heat preservation time calculated according to the largest cross-section; cooling with argon; heating at 600°C , heat preservation for 6h, filled with argon to cool; machining method: CNC machining; low-magnification corrosion bath solution: HF (42%) 120ML / L, HNO 3 (65%~68%)260ML / L, H 3 PO 4 (85%) 160ML / L, urea 25g / L, others are water;
[0049] If the uniform equiaxed α-phase structure is the ideal structure, then the heterogeneous micr...
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