A kind of hot drawing method and device for titanium alloy shuttle
A titanium alloy and hot-drawing technology, which is applied in the field of hot-drawing methods and devices for titanium alloy shuttle-shaped parts, can solve the problems of narrow adjustment range of blank holder force, etc., so as to avoid narrow adjustment range, reduce batch production cost, and reduce trial and error. The effect of modulus
Active Publication Date: 2016-02-10
BEIJING XINGHANG MECHANICAL ELECTRICAL EQUIP
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Therefore, how to develop a thermal deep drawing method and its device that can overcome defects such as wrinkles and cracks in the existing thermal deep drawing process and the narrow range of blank holder force adjustment, for those skilled in the art, It is a very urgent need to strive to achieve the direction and goal of
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[0030] In order to make the purpose, content and advantages of the present invention clearer, the specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.
[0031] Such as figure 1 As shown, the titanium alloy shuttle-shaped part thermal drawing method provided by the present invention comprises the following 6 steps:
[0032] (1) Cut the blank according to the curve shape of the inlet;
[0033] (2) Clamp the reverse drawing die into the working table of the hot drawing press;
[0034] (3) Raise the temperature to 700-720 degrees, carry out anti-deformation and deep drawing, and control the forming stroke to reach one-half to five-eighths of the entire depth;
[0035] (4) Clamp the drawing die into the working table of the hot drawing press;
[0036] (5) Raise the temperature to 700-720 degrees, carry out deep-drawing deformation, the forming stroke reaches the closed st...
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The invention belongs to the field of deep-drawing in thermoforming, particularly relates to a method and a device for thermal deep-drawing of titanium alloy spindle parts, and aims to overcome the shortcomings of wrinkle, cracking and the like of an existing thermal deep-drawing process method. Narrow adjusting range of blank holding force is avoided. The thermal deep-drawing method includes the steps: cutting blanks according to the curve shape of a material inlet; clamping a reverse redrawing die into a worktable of a thermal deep-drawing press; performing reversible deformation deep-drawing and controlling forming stroke to reach five eighths of the whole depth; clamping a deep-drawing die into the worktable of the thermal deep-drawing press; performing deep-drawing deformation, and maintaining pressure when the forming stroke reaches the closed state of a punch and a die; opening the die and taking out the parts, cooling the parts to reach indoor temperature, cutting the parts and machining the parts. The device for implementing the thermal deep-drawing method comprises the reverse redrawing die and the deep-drawing die. A tool is simple in structure and convenient to operate and use, mass production cost is reduced, and production efficiency is improved.
Description
technical field [0001] The invention belongs to the field of deep drawing in hot forming, in particular to a method and device for hot drawing of a titanium alloy shuttle. Background technique [0002] At present, in the thermoforming process, for special-shaped thin plate structural parts, deep drawing forming or stamping without blank holder is generally adopted. However, the wool of deep-drawn parts is usually in a regular shape such as a rectangle or a circle, and it is difficult to carry out accurate drawing of curved surface structural parts. Because of the implementation of the flat wrinkle function of the blank holder ring, the distribution of the blank holder force on the edge tends to be uniform; especially in the design of special-shaped thin plate structural parts, it is difficult to effectively calculate the blank holder force and punching force, and improper proportioning may easily cause forming defects in parts. For blank holder The regulation of force requi...
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IPC IPC(8): B21D22/22
Inventor 高海涛李建辉刘章光师利民苗建芸刘太盈
Owner BEIJING XINGHANG MECHANICAL ELECTRICAL EQUIP