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Processing method of titanium and titanium alloy wires

A titanium alloy wire and processing method technology, applied in the field of new materials, can solve the problems of straight wire processing difficulty, low production efficiency, serious hydrogen and oxygen absorption, etc., and achieve the goal of solving processing production problems, saving production costs, and reducing production costs Effect

Inactive Publication Date: 2010-06-02
宝鸡市三鑫金属有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This patented methods allow for efficient and precise manufacturing of highly accurate and strong materials such as Titanium or its alloys (Ti). By utilising this technique, it saves time, money, energy compared to older techniques like chemical etchings which require multiple steps. Additionally, these processes are environmentally friendly because they eliminate harmful waste from traditional ways used during their creation. Overall, these technical benefits make them more effective than previous technologies while minimizing environmental concerns associated therewith.

Problems solved by technology

Technological Problem: Current methods involve producing pure or very thin metallic materials like tantum (Ta) with better mechanical performance but limited ability to perform certain types of work due to their intrinsic characteristics. Existing techniques require multiple steps involving different machines, leading to increased costs associated therewith. Additionally, current methods result in nonuniform surfaces caused by variations during deposition overtime, making them challenged when trying to achieve precise dimensions needed for these applications.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] First take titanium and titanium alloy blanks with a specification of Φ10mm, and use a centerless lathe to remove the surface metal of 0.8mm to obtain bright titanium and titanium alloy wires with surface oxide removed, and use an angle grinder to repair the mold once to eliminate titanium and titanium Cracks and slits on the titanium alloy wire, then put the titanium and titanium alloy wire into a vacuum furnace, evacuate, heat to 750°C for 1 hour, keep warm for 2 hours, cool down to room temperature naturally, and then take out the titanium and titanium alloy The wire is then cold-rolled to titanium and titanium alloy wires with a specification of Φ5mm through a roll die cold rolling machine, and then the titanium and titanium alloy wires are put into a vacuum furnace, vacuumed, heated to 750°C for 1 hour, and then kept warm Cool naturally to room temperature after 2 hours, then pass the obtained Φ5mm titanium and titanium alloy wires through a roller die cold rolling ...

Embodiment 2

[0031] First take titanium and titanium alloy blanks with a specification of Φ11mm, and use a centerless lathe to peel off the surface metal to remove 1mm of surface metal to obtain bright titanium and titanium alloy wires with surface oxide removed. Use an angle grinder to repair the mold twice to eliminate titanium and titanium. Cracks and slits on the alloy wire, then put the titanium and titanium alloy wire into a vacuum furnace, evacuate, heat to 800°C for 2 hours, keep warm for 3 hours, cool down to room temperature naturally, and then take out the titanium and titanium alloy wire , and then cold rolled to titanium and titanium alloy wires with a specification of Φ6mm through a roll die cold rolling machine, and then put the titanium and titanium alloy wires into a vacuum furnace, vacuumize, heat to 800°C in 2 hours, and then keep warm for 3 Hours later, it was naturally cooled to room temperature, and then the obtained Φ6mm titanium and titanium alloy wires were rolled i...

Embodiment 3

[0033] First take titanium and titanium alloy blanks with a specification of Φ10mm, and use a centerless lathe to remove the surface metal of 0.9mm to obtain bright titanium and titanium alloy wires that have removed surface oxide scales. Use an angle grinder to repair the mold twice to eliminate titanium and titanium alloy wires. Cracks and slits on the titanium alloy wire, then put the titanium and titanium alloy wire into a vacuum furnace, evacuate, heat to 780°C for 2.5 hours, keep warm for 2.5 hours and cool down to room temperature naturally, then take out the titanium and titanium alloy The wire is then cold-rolled to titanium and titanium alloy wires with a specification of Φ5mm through a roll die cold rolling machine, and then the titanium and titanium alloy wires are put into a vacuum furnace, vacuumed, heated to 780°C in 1.5 hours, and then kept warm After 2.5 hours, naturally cool to room temperature, and then pass the obtained Φ5mm titanium and titanium alloy wire ...

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PUM

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Abstract

The invention discloses a processing method of titanium and titanium alloy wires, which comprises the following steps: taking titanium and titanium alloy blanks, scalping by using a centerless turning mill to obtain bright titanium and titanium alloy wires without surface scales, trimming by using an angle grinder, annealing the titanium and titanium alloy wires in a vacuum furnace, taking out the titanium and titanium alloy wires, cold-rolling by using a roller die cold rolling mill, annealing the titanium and titanium alloy wires in the vacuum furnace, and rolling the titanium and titanium alloy wires by using the roller die cold rolling mill to obtain the titanium and titanium alloy wires with bright surfaces and without surface scales, wherein the diameters of the titanium and titanium alloy wires are Phi 1-3 mm. The processing method of titanium alloy wires in the invention realizes the production of titanium wires with high precision and high efficiency. The invention can be used for continuous production, thereby saving the prior acid and alkaline washing production technique, reducing a plurality of drawing steps, greatly enhancing the production efficiency and saving the production cost. The processing method can be used for producing high-precision titanium wire products which can not be produced in the prior art.

Description

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Claims

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Application Information

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Owner 宝鸡市三鑫金属有限责任公司
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