CN1814849A - High-toughness binary-cube non-crystal alloy - Google Patents

Abstract

This invention relates to block non-crystal alloy of high strength, high toughness and very fine anti-erosion characterizing in the following chemical components: Pd: 79-83% and Si: 21-17%. The preparation method includes: purifying the alloy by a glass cladding medium purifying technology then cooling it further to prepare said binary quick non-crystal alloy material, which has the ability of 70-80% compressed plastic deformation, 1200MPa bend strength, excellent anti-erosion and H2 storage performances.

Description

A kind of high-toughness binary-cube non-crystal alloy

Technical field

The invention belongs to the amorphous metallic material field.Be particularly related to block amorphous alloy, be a kind ofly have high strength, height prolongs the amorphous alloy material of toughness and fine corrosion resisting property.

Background technology

Block amorphous alloy be surplus in the of nearest 10 year the novel alloy material developed with a lot of special excellent properties, but have the tensile deformation of high-intensity block amorphous alloy material and compress variation all less than about 2%, make the application of such material receive restriction.It is very great to develop the novel block amorphous alloy meaning with big ductility deformability.This will increase the deformation processing forming ability of this alloy material and the security of application greatly.At present the compression performance Shang Weijian that is better than 22% non-crystaline amorphous metal openly reports.

Summary of the invention

The present invention proposes a kind of novel block amorphous alloy material with high strength and high-ductility deformability.This material has the yield strength of the compressive plastic deformation ability of about 70-80%, about 1200MPa, splendid corrosion resisting property and hydrogen storage property.The above-mentioned special excellent properties that has owing to this material makes this alloy in various fields good prospects for application be arranged.

Block amorphous alloy material proposed by the invention is characterized in that its chemical ingredients consists of: Pd:79-83at%; Si:21-17at%.

The preparation method of this alloy is characterized in that, is to adopt glass to coat medium (as B ₂O ₃The glass coating) purifying technique purification alloy, further cooling prepares the fast body amorphous alloy material of described binary then, contains following steps:

1) mother alloy melting: adopt vacuum alloy melting method to be smelted into master alloy ingot by the high-purity Pd and the Si raw material of alloying constituent proportioning;

2) glass is coated medium and be fused into liquid being higher than under the condition of melting temperature;

3) under vacuum condition, glass coated medium and be higher than under the above condition of its fusing point 100 degree and purify more than 1 hour, and molten glass coating medium liquid to reach state pure, that do not have bubble;

4) under vacuum condition alloy pig being added melten glass coats in the medium, temperature is increased to the temperature condition insulation purification down that is higher than alloy melting point 100 degree, in purification process, repeatedly alloy melt is cooled off until solidifying, and be warming up to the purification temperature once more, if alloy heats up when melting after solidifying once more, do not produce bubble, then can finish purification process;

5) the alloy melt cooling that is in molten state after will purifying obtains the Pd base large amorphous alloy.

The described the 2nd) step coats medium with glass and is fused into liquid under the condition of melting temperature and carries out in crucible at silica tube or alloy melting being higher than.

The described the 4th) total purification time of described alloy of step is 2～10 hours.

The described the 5th) described method of cooling of step be be in after purifying the alloy melt of molten state and coating medium on every side together slow cooling to room temperature.

The described the 5th) described method of cooling of step be be in after purifying the alloy melt of molten state and coating medium on every side together shrend to room temperature.

The described the 5th) described method of cooling of step is that the alloy melt that will be in molten state after will purifying solidifies earlier, then the alloy of purifying is melted the back rapid solidification once more or is cast into metal pattern under vacuum condition.

It is that dry glass coats medium that described glass coats medium.

Experiment showed, the block amorphous alloy material that adopts present method preparation, have very high compressive plastic deformation ability, yield strength, and corrosion resisting property and hydrogen storage property preferably, reached its intended purposes.

Embodiment:

Preparation process is as follows:

1) mother alloy melting: adopt vacuum alloy melting method to be smelted into master alloy ingot by the high-purity Pd and the Si raw material (greater than 99.5%) of alloying constituent proportioning.

2) embodiment:

(1) adopting silica tube or alloy melting crucible is the alloy melting container, glass is coated medium be fused into liquid being higher than under the condition of melting temperature.

(2) under vacuum condition, glass coated medium and be higher than under the above condition of its fusing point 100 degree and purify more than 1 hour, and molten glass coating medium liquid should reach state pure, that do not have bubble.

(3) under vacuum condition, alloy pig is added melten glass and coat in the medium, then temperature is increased to the temperature condition insulation purification down that is approximately higher than alloy melting point 100 degree.And in purification process, for several times with the alloy melt cooling until solidifying, and then be warming up to the purification temperature, during fusing, do not produce bubble if alloy heats up once more after solidifying, then can finish purification process.But purification time length is relevant with the alloy size, the alloy size hour purification time short, the alloy size bigger the time time of purifying longer.

(4) adopt one of following three kinds of methods to prepare the Pd base large amorphous alloy of size arbitrarily greater than about 3mm:

1〉be in after will purifying the alloy melt of molten state and coating medium on every side together slow cooling to room temperature.

2〉be in after will purifying the alloy melt of molten state and coating medium on every side together shrend to room temperature.

3〉alloy melt that is in molten state after will purifying solidifies earlier, then with the alloy of purifying fusing back rapid solidification or be cast into metal pattern once more under vacuum condition.

Embodiment 1: prepare high ductility 80at%Pd-20at%Si bulk amorphous alloys

(1) adopting silica tube is the alloy melting container, and proportionately mother alloy is prepared in the alloy raw material fusing of assignment system under the argon shield condition.

(2) with anhydrous B ₂O ₃Coat the medium silica tube of packing into, under 900 degree conditions, be fused into liquid.Under vacuum condition, will coat medium then and under about 1000 degree conditions, purify 1 hour, and make the coating medium reach pure, no bubble state.

(3) under vacuum condition alloy pig being added fusion coats in the medium, about 1200 degree are purified, cooling is solidified about 5 times in purification process, and does not have bubble about 6 hours of total purification time (can suitably increase and decrease the purification time according to the alloy size) to occur when melting once more.

(4) will be in the alloy melt of molten state and coating medium on every side together slow cooling to room temperature, but preparation size is greater than the Pd base large amorphous alloy of 5mm; To be in the alloy melt of molten state and coating medium on every side together shrend to room temperature, but preparation size is greater than Pd base large amorphous alloy or the φ 3.6mm amorphous garden rod of 5mm; Also the alloy after purifying can be melted once more and is cast into the amorphous garden rod that obtains about φ 4mm in the copper mold under the vacuum condition.

(5) after tested, the Pd base large amorphous alloy of preparation has and is higher than 70% compression ductility, and the engineering yield strength is higher than 1300MPa.

Embodiment 2: prepare high ductility 81at%Pd-19at%Si bulk amorphous alloys

(1) adopting silica tube is the alloy melting container, and proportionately mother alloy is prepared in the alloy raw material fusing of assignment system under the argon shield condition.

(2) with anhydrous B ₂O ₃Coat the medium silica tube of packing into, under 900 degree conditions, be fused into liquid.Under vacuum condition, will coat medium then and under about 1000 degree conditions, purify 2 hours, and make the coating medium reach pure, no bubble state.

(3) under vacuum condition alloy pig is added fusion and coat in the medium, 1150 degree were being purified about 8 hours.Cooling is solidified about 5 times in purification process, and does not have bubble (can suitably increase and decrease the purification time according to the alloy size) to occur when melting once more.

(4) will be in the alloy melt of molten state and coating medium on every side together slow cooling to room temperature, but preparation size is greater than the Pd base large amorphous alloy of 5mm; To be in the alloy melt of molten state and coating medium on every side together shrend to room temperature, but preparation size is greater than Pd base large amorphous alloy or the φ 3.6mm amorphous garden rod of 5mm; Also the alloy after purifying can be melted once more and is cast into the amorphous garden rod that obtains about φ 4mm in the copper mold under the vacuum condition.

(5) Zhi Bei Pd base large amorphous alloy is built to have and is higher than 80% compression ductility, and yield strength is higher than 1200Mpa.

Embodiment 3: high ductility 82at%Pd-18at%Si bulk amorphous alloys

(1) adopting silica tube is the alloy melting container, and proportionately mother alloy is prepared in the alloy raw material fusing of assignment system under the argon shield condition.

(2) with anhydrous B ₂O ₃Coat the medium silica tube of packing into, under 900 degree conditions, be fused into liquid.Under vacuum condition, will coat medium then and under about 1000 degree conditions, purify more than 2 hours, and make the coating medium reach pure, no bubble state.

(3) under vacuum condition alloy pig is added fusion and coat in the medium, 1100 degree were being purified about 6 hours.Cooling is solidified about 5 times in purification process, and does not have bubble (can suitably increase and decrease the purification time according to the alloy size) to occur when melting once more.

(4) will be in the alloy melt of molten state and coating medium on every side together slow cooling to room temperature, but preparation size is greater than the Pd base large amorphous alloy of 5mm; To be in the alloy melt of molten state and coating medium on every side together shrend to room temperature, but preparation size is greater than Pd base large amorphous alloy or the φ 3mm amorphous garden rod of 5mm; Also the alloy after purifying can be melted once more and is cast into the amorphous garden rod that obtains about φ 4mm in the copper mold under the vacuum condition.

(5) Zhi Bei Pd base large amorphous alloy is built to have and is higher than 75% compression ductility, and yield strength is higher than 1200Mpa.

Claims (8)

1, a kind of high-toughness binary-cube non-crystal alloy is characterized in that, its chemical ingredients consists of:

Pd：79-83at％：Si：21-17at％。

2, a kind of preparation method of high-toughness binary-cube non-crystal alloy is characterized in that, is to adopt glass to coat medium purifying technique purification alloy, and further cooling prepares described binary block amorphous alloy material then, contains following steps:

1) mother alloy melting: adopt vacuum alloy melting method to be smelted into master alloy ingot by the high-purity Pd and the Si raw material of alloying constituent proportioning;

2) glass is coated medium and be fused into liquid being higher than under the condition of melting temperature;

3) under vacuum condition, glass coated medium and be higher than under the above condition of its fusing point 100 degree and purify more than 1 hour, and molten glass coating medium liquid to reach state pure, that do not have bubble;

4) under vacuum condition alloy pig being added melten glass coats in the medium, temperature is increased to the temperature condition insulation purification down that is higher than alloy melting point 100 degree, in purification process, repeatedly alloy melt is cooled off until solidifying, and be warming up to the purification temperature once more, if alloy heats up when melting after solidifying once more, do not produce bubble, then purification process finishes;

5) the alloy melt cooling that is in molten state after will purifying obtains the Pd base large amorphous alloy.

3, the preparation method of high-toughness binary-cube non-crystal alloy as claimed in claim 2 is characterized in that, the described the 2nd) step coats medium with glass and is fused into liquid under the condition of melting temperature and carries out in crucible at silica tube or alloy melting being higher than.

4, the preparation method of high-toughness binary-cube non-crystal alloy as claimed in claim 2 is characterized in that, the described the 4th) total purification time of described alloy of step is 2～10 hours.

5, the preparation method of high-toughness binary-cube non-crystal alloy as claimed in claim 2 is characterized in that, the described the 5th) described method of cooling of step be be in after purifying the alloy melt of molten state and coating medium on every side together slow cooling to room temperature.

6, the preparation method of high-toughness binary-cube non-crystal alloy as claimed in claim 2 is characterized in that, the described the 5th) described method of cooling of step be be in after purifying the alloy melt of molten state and coating medium on every side together shrend to room temperature.

7, the preparation method of high-toughness binary-cube non-crystal alloy as claimed in claim 2, it is characterized in that, the described the 5th) described method of cooling of step is that the alloy melt that will be in molten state after will purifying solidifies earlier, then the alloy of purifying is melted the back rapid solidification once more or is cast into metal pattern under vacuum condition.

8, the preparation method of high-toughness binary-cube non-crystal alloy as claimed in claim 2 is characterized in that, it is that dry glass coats medium that described glass coats medium.