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Glass lubricant used for hot extrusion of titanium alloy and zirconium alloy as well as preparation method thereof

A glass lubricant and zirconium alloy technology, applied in lubricating compositions, additives, petroleum industry and other directions, can solve the problems of difficult process control, large temperature changes of glass lubricants, reduced production efficiency, etc., and can reduce the extrusion process. Control difficulty, good thermal barrier effect, and the effect of improving production efficiency

Active Publication Date: 2018-01-26
UNIV OF SCI & TECH BEIJING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Among them, when pure copper is used to coat and extrude titanium alloys, since copper and titanium alloys are prone to react at high temperatures to form Ti-Cu eutectic products, the extrusion force increases, and subsequent pickling pollution is large[4]
When the zirconium alloy is lubricated with copper, there are problems that the copper skin is easy to break during the extrusion process, and the copper skin is not easy to remove [5]
[0006] Glass lubrication is currently the most advanced lubrication method for hard-to-extrude metals such as titanium alloys and ferrous metals. However, the viscosity of glass lubricants varies greatly with temperature, which leads to difficult process control in actual production, mold life, product quality and finished product quality. low rate issues
For example, the billet temperature is about 950°C during extrusion of titanium alloy, while the preheating temperature of die steel usually does not exceed 500°C, so there is a large temperature gradient between the billet and the die steel during extrusion, and the temperature gradient between the die steel and the die steel The temperature of the contact part is low, even lower than the softening point of the glass lubricant, which greatly reduces the lubricating effect
The current solution is to adopt a multi-layer coating method, that is, to coat the high softening point lubricant on the surface of the billet and to coat the low softening point lubricant on the mold surface, but correspondingly increases the production process and reduces the production efficiency
[0007] In addition, since the extrusion temperature of zirconium alloys is usually 200-300°C lower than that of titanium alloys, it is difficult for the existing glass lubricant materials for titanium alloy extrusion to be directly applied to the extrusion of zirconium alloys.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Example 1: For titanium alloys

[0030] By mass percentage: (NH 3 ) 2 HPO 4 : 70%, H 3 BO 3 : 7%, ZnO: 13%, Na 2 CO 3 +KNO 3 : 10% of the ingredients are mixed and mechanically mixed to obtain a glass mixture; the glass mixture is heated to 1100 ° C, kept for 1 hour, and then cooled with the furnace. The sintered glass is broken and sieved with a 900-mesh sieve to obtain a low softening point. Glass powder; according to the mass ratio, low softening point glass: 70%, NaCl powder: 10%, SiO2 powder: 20% to prepare extrusion lubricant, and mechanically mix evenly to obtain the mixed powder of extrusion lubricant; extrusion lubrication according to mass ratio Agent powder: 70%, water glass: 30% mixed, stirred evenly, and coated on the surface of the titanium alloy extrusion billet or the inner wall of the extrusion cylinder.

Embodiment 2

[0031] Example 2: For Zirconium Alloys

[0032] By mass percentage: (NH 3 ) 2 HPO 4 : 70%, H 3 BO 3 : 7%, ZnO: 13%, Na 2 CO 3 +KNO 3 : 10% of the ingredients are mixed, and the glass mixture is uniformly mixed to obtain a glass mixture; the glass mixture is heated to 1100 ° C, kept for 1 hour, and then cooled in the furnace. The sintered glass is broken and sieved with a 900-mesh sieve to obtain a low softening point. Glass powder; according to the mass ratio, low softening point glass: 80%, NaCl powder: 10%, SiO2 powder: 10% to prepare extrusion lubricant, and mechanically mix evenly to obtain the mixed powder of extrusion lubricant; extrusion lubrication according to mass ratio Agent powder: 70%, water glass: 30% mixed, stirred evenly, and coated on the surface of the zirconium alloy billet or the inner wall of the extrusion cylinder.

Embodiment 3

[0033] Example 3: Extrusion Lubrication Pad for Titanium Alloy

[0034] By mass percentage: (NH 3 ) 2 HPO 4 : 70%, H 3 BO 3 : 7%, ZnO: 13%, Na 2 CO 3 +KNO 3 : 10% is mixed, and the mixture is mechanically mixed to obtain a glass mixture. The glass mixture was heated to 1100°C, kept for 1 hour and then cooled in the furnace. The sintered glass was broken and sieved with a 900-mesh sieve to obtain low softening point glass powder; low softening point glass by mass ratio: 60%, NaCl powder : 10%, SiO 2Powder: 30% of the extrusion lubricant is prepared, and mechanically mixed evenly to obtain a mixed powder of extrusion lubricant; according to the mass ratio, the powder of extrusion lubricant: 85%, water glass: 15% is mixed, stirred evenly, and put into the mold Compact and form, take out and dry naturally, or dry at 200°C for 30-60min.

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Abstract

The invention belongs to the field of a lubricant, and relates to the lubricant used for hot extrusion of a titanium alloy and a zirconium alloy as well as a preparation method thereof. The lubricantis composed of lubricant powder and soluble glass, the ratio of soluble glass to the mixed lubricant powder is 1:2-1:3, the lubricant powder comprises the following components: 60-80% of low-softeningpoint glass powder, 10-30% of SiO2 powder, 10-30% of NaCl powder, and the soluble glass with concentration being 1.0-1.1 mol / L. The lubricant has the advantage that the change of viscosity is small with temperature. The lubrication effect and thermal barrier effect are good, and cleaning is easy. The NaCl has water solubility, an extruding product attached with the lubricant is immersed into water, NaCl in the lubricant is dissolved in water, a porous structure is formed, and the lubricant is easily peeled from the surface of the product, and no pickling pollution is generated.

Description

Technical field: [0001] The invention belongs to the field of lubricants, and relates to a high-temperature lubricating material, in particular to a hot extrusion lubricant of titanium alloy and zirconium alloy and a preparation method thereof. Background technique: [0002] Titanium alloys and zirconium alloys have the characteristics of relatively low density, high specific strength, and excellent corrosion resistance, and are widely used in aerospace, defense and military industry, nuclear industry, sewage treatment, marine engineering and other fields. For example, zirconium alloy is currently the preferred material for nuclear reactor fuel cladding [1-2]. [0003] The application forms of titanium alloys and zirconium alloys mainly include pipes, profiles, bars, plates, etc. Among them, pipes, profiles, and bars are usually produced by extrusion, and for most profiles and pipes, extrusion is the only production method. [0004] Due to the high extrusion temperature, hi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10M125/28C10M125/26C10M125/18C10N20/02C10N40/24
Inventor 张志豪谢建新金峰郑延文倪嘉
Owner UNIV OF SCI & TECH BEIJING
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