CN104014927A - Amorphous alloy and nut welding method - Google Patents

Abstract

The invention relates to the technical field of amorphous alloys, in particular to an amorphous alloy and nut welding method. According to the method, an amorphous alloy base material and a nut are involved, protected by an inert atmosphere, a rotating device is adopted for driving the nut at a certain rotating speed and feeding speed to rotate and press the amorphous alloy base material, and the nut rubs with the amorphous alloy base material to generate heat, so that the temperature of the amorphous alloy base material reaches in a supercooling liquid phase range above the temperature Tg and below the temperature Tx or reaches above the temperature Tm, and the amorphous alloy base material is in a viscous supercooling liquid phase range or a molten (over the melting point) state and then is connected with the nut; the amorphous alloy base material is provided with a groove used for being welded to the nut, and the rotating device is provided with a protective gas nozzle for blowing the inert atmosphere to the amorphous alloy base material. The amorphous alloy base material and the nut are connected, the problem that an amorphous alloy is difficult to tap is solved, and the application range of the amorphous alloy is enlarged substantially. The connection force between the amorphous alloy and the nut is large, and the quality of the surface of the welding area is high.

Description

The welding method of a kind of non-crystaline amorphous metal and nut

Technical field

The present invention relates to non-crystaline amorphous metal technical field, particularly relate to the welding method of a kind of non-crystaline amorphous metal and nut.

Background technology

Non-crystaline amorphous metal is because having the good characteristic of the aspects such as intensity, hardness, toughness, wearability, corrosion resistance, soft magnetism and superconductivity, and it has all obtained application in fields such as electronics, machinery, chemical industry.

But, although non-crystaline amorphous metal has good characteristic described above, there is difficult processing, hard-to-weld shortcoming, thereby greatly limited its range of application.Therefore, technological difficulties that are welded into non-crystaline amorphous metal application extension of non-crystaline amorphous metal.

In actual applications, mainly adopt binder to connect being connected between non-crystaline amorphous metal and crystal metal.But the bonding strength that some product needed is stronger, adopts adhesive to connect and just can not meet the bonding strength of these products.In addition, owing to being difficult to realize tapping technique on amorphous alloy material, make to be difficult to realize on non-crystaline amorphous metal product the structure of bolt, nut, and, if employing adhesive is by bolt, nut bonding connection on non-crystaline amorphous metal product, its bonding strength can not meet the needs of production.Therefore, need badly and solve the problem that non-crystaline amorphous metal product is difficult to realize tapping, significantly to expand the range of application of non-crystaline amorphous metal.

Summary of the invention

The object of the invention is to provide for weak point of the prior art the welding method of a kind of non-crystaline amorphous metal and nut.

For achieving the above object, the present invention is achieved through the following technical solutions.

The welding method of a kind of non-crystaline amorphous metal and nut is provided, comprise non-crystaline amorphous metal base material and nut, adopt whirligig drive described nut rotation and press to described non-crystaline amorphous metal base material with certain rotary speed and feed rate, and make described nut and described non-crystaline amorphous metal base material frictional heat, so that more than described non-crystaline amorphous metal base material reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, described non-crystaline amorphous metal base material enters viscous or molten condition, then under inert atmosphere protection, described non-crystaline amorphous metal base material engages with described nut;

Described non-crystaline amorphous metal base material is provided with for the groove with described nut-welding;

Described whirligig is provided with protective gas nozzle, and described inert atmosphere blows to described non-crystaline amorphous metal base material with certain blow gas pressure from described protective gas nozzle.

Described non-crystaline amorphous metal base material offers two described grooves, and the width of rebate value of two described grooves all equates with the external diameter of described nut and the difference between internal diameter; In the process of welding, the notch of two described grooves engages over against the external diameter of described nut and the position between internal diameter respectively.

Preferably, two described grooves are all set to " V " type.

Preferably, two described grooves are all set to isosceles trapezoid, and the upper base length of described isosceles trapezoid is greater than the length of going to the bottom.

Described non-crystaline amorphous metal base material is provided with at least two structures with draft angle, and described groove is described in two, to have the groove forming between the structure of draft angle; The external diameter of described nut is greater than the bottom land width of described groove, and is less than the width of rebate of described groove.

Described rotary speed is 1700rpm ~ 2500rpm, and described feed rate is 15mm/min ~ 25mm/min.

Described blow gas pressure is 0.1MPa ~ 1MPa.

Described whirligig is also provided with rotary drive mechanism, and drives with described rotary drive mechanism the rotating shaft being connected; Described protective gas nozzle cage is located at the upper end of described rotating shaft.

Described nut sleeve is located at the bottom of described rotating shaft.

Described inert atmosphere is inert gas or nitrogen.

Beneficial effect of the present invention:

(1) welding method of a kind of non-crystaline amorphous metal provided by the invention and nut, has realized engaging of non-crystaline amorphous metal and nut, has solved the problem that non-crystaline amorphous metal is difficult to tapping, thereby has significantly expanded the range of application of non-crystaline amorphous metal.

(2) welding method of a kind of non-crystaline amorphous metal provided by the invention and nut, engaging force between non-crystaline amorphous metal and nut is high, more than the tensile strength of the weld between non-crystaline amorphous metal and nut reaches 180MPa, illustrated that the weld between non-crystaline amorphous metal and nut has good tensile strength, and, non-crystaline amorphous metal after welding still keeps non crystalline structure, and in welding process, crystallization does not occur non-crystaline amorphous metal.

(3) welding method of a kind of non-crystaline amorphous metal provided by the invention and nut; in the process in welding; adopt inert atmosphere to protect non-crystaline amorphous metal; avoid non-crystaline amorphous metal because frictional heat makes excess Temperature, to be easily oxidized (non-crystaline amorphous metal is generally 400 ℃ of above easily oxidations); and this inert atmosphere can make the quality on welding region surface high.

(4) welding method of a kind of non-crystaline amorphous metal provided by the invention and nut; there is welding parameter (welding parameter comprises kind and the blow gas pressure of rotary speed, feed rate, protective gas) range of choice widely; the parameter range of choice of welding conditions is larger; be that the suffered restriction of welding condition is smaller; in welding process; take TTT figure as benchmark; as long as heating and cooling process does not touch crystallization region; be that non-crystaline amorphous metal does not occur to complete welding under the situation of crystallization, multiple welding parameter all can reach good engaging force and welding quality.

(5) welding method of a kind of non-crystaline amorphous metal provided by the invention and nut, due to by wanting the position of welded nut to process groove at non-crystaline amorphous metal in advance, this groove can make the engaging force intensity between non-crystaline amorphous metal and nut large.

(6) welding method of a kind of non-crystaline amorphous metal provided by the invention and nut, has method simple, can be applicable to the feature of large-scale production.

Accompanying drawing explanation

Fig. 1 is embodiment 1,2 and 3 non-crystaline amorphous metal base material and the structural representation of nut-welding of the welding method of a kind of non-crystaline amorphous metal of the present invention and nut.

Fig. 2 is embodiment 4 and 5 non-crystaline amorphous metal base material and the structural representation of nut-welding of the welding method of a kind of non-crystaline amorphous metal of the present invention and nut.

Fig. 3 is the non-crystaline amorphous metal base material of embodiment 6 of welding method of a kind of non-crystaline amorphous metal of the present invention and nut and the structural representation of nut-welding.

Fig. 4 is the TTT figure of the welding method of a kind of non-crystaline amorphous metal of the present invention and nut.

In Fig. 1 to Fig. 4, include:

1---non-crystaline amorphous metal base material, 11---groove, 12---structure, 101 with draft angle---draft angle,

2---nut,

3---whirligig, 31---protective gas nozzle, 32---rotary drive mechanism, 33---rotating shaft,

4---crystallization region,

5---non-crystallization region.

The specific embodiment

For the ease of those skilled in the art's understanding, below in conjunction with embodiment, the present invention is further illustrated, and the content that embodiment is mentioned not is limitation of the invention.

The Tg temperature of mentioning in the present invention refers to glass transition temperature, and Tx temperature refers to crystallization temperature, and Tm temperature refers to melting temperature.

The inert gas of mentioning in the present invention comprises helium, neon, argon gas, Krypton and xenon.

TTT figure of the present invention refers to temperature-time transformation diagram, and TTT figure of the present invention as shown in Figure 4.Supercooling liquid phase region more than heating curves reaches Tg temperature and below Tx temperature or Tm(fusing point) more than after carry out coolingly, and heating curves and cooling curve all can not touch crystallization region 4.Wherein, in welding process, only otherwise touch crystallization region 4, non-crystaline amorphous metal base material 1 does not occur to complete welding under the situation of crystallization, in non-crystallization region 5, select welding parameter all can, multiple welding parameter all can reach good engaging force and welding quality.

embodiment 1.

See Fig. 1.A welding method for non-crystaline amorphous metal and nut, comprises non-crystaline amorphous metal base material 1 and nut 2, and the present embodiment non-crystaline amorphous metal base material 1 used is for Zr-Cu-Ni-Al-Nb is associated gold, and the material of nut 2 used is carbon steel.

Adopt whirligig 3 drive nut 2 rotations and press to non-crystaline amorphous metal base material 1 with the rotary speed of 2200rpm and the feed rate of 15mm/min, and make nut 2 and non-crystaline amorphous metal base material 1 frictional heat, so that more than non-crystaline amorphous metal base material 1 reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, non-crystaline amorphous metal base material 1 enters viscous or molten condition, then under helium protection, non-crystaline amorphous metal base material 1 engages with nut 2;

In the present embodiment, non-crystaline amorphous metal base material 1 offers two for the groove 11 with nut 2 welding, and the width of rebate value of these two grooves 11 all equates with the external diameter of nut 2 and the difference between internal diameter; In the process of welding, the notch of two grooves 11 engages over against the external diameter of nut 2 and the position between internal diameter respectively.And two grooves 11 of the present embodiment are all set to " V " type.

Whirligig 3 is provided with protective gas nozzle 31, and helium blows to non-crystaline amorphous metal base material 1 with the blow gas pressure of 0.2MPa from protective gas nozzle 31.

Wherein, whirligig 3 is also provided with rotary drive mechanism 32, and drives with rotary drive mechanism 32 rotating shaft 33 being connected; Protective gas nozzle 31 is sheathed on the upper end of rotating shaft 33.In the process of welding; because making temperature, nut 2 and non-crystaline amorphous metal base material 1 frictional heat rise; the helium that blows to non-crystaline amorphous metal base material 1 from protective gas nozzle 31 can avoid non-crystaline amorphous metal to be easily oxidized because frictional heat makes excess Temperature; and this helium can make the quality on welding region surface high.

Before welding, nut 2 is sheathed on the bottom of rotating shaft 33, and rotating shaft 33 drives nut 2 rotations and presses to non-crystaline amorphous metal base material 1, and makes nut 2 and non-crystaline amorphous metal base material 1 frictional heat.

embodiment 2.

See Fig. 1.A welding method for non-crystaline amorphous metal and nut, comprises non-crystaline amorphous metal base material 1 and nut 2, and the present embodiment non-crystaline amorphous metal base material 1 used is for Zr-Cu-Ni-Al-Nb is associated gold, and the material of nut 2 used is stainless steel.

Adopt whirligig 3 drive nut 2 rotations and press to non-crystaline amorphous metal base material 1 with the rotary speed of 2000rpm and the feed rate of 20mm/min, and make nut 2 and non-crystaline amorphous metal base material 1 frictional heat, so that more than non-crystaline amorphous metal base material 1 reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, non-crystaline amorphous metal base material 1 enters viscous or molten condition, then under neon protection, non-crystaline amorphous metal base material 1 engages with nut 2;

In the present embodiment, non-crystaline amorphous metal base material 1 offers two for the groove 11 with nut 2 welding, and the width of rebate value of these two grooves 11 all equates with the external diameter of nut 2 and the difference between internal diameter; In the process of welding, the notch of two grooves 11 engages over against the external diameter of nut 2 and the position between internal diameter respectively.And two grooves 11 of the present embodiment are all set to " V " type.

Whirligig 3 is provided with protective gas nozzle 31, and neon blows to non-crystaline amorphous metal base material 1 with the blow gas pressure of 1MPa from protective gas nozzle 31.

Wherein, whirligig 3 is also provided with rotary drive mechanism 32, and drives with rotary drive mechanism 32 rotating shaft 33 being connected; Protective gas nozzle 31 is sheathed on the upper end of rotating shaft 33.In the process of welding; because making temperature, nut 2 and non-crystaline amorphous metal base material 1 frictional heat rise; the neon that blows to non-crystaline amorphous metal base material 1 from protective gas nozzle 31 can avoid non-crystaline amorphous metal to be easily oxidized because frictional heat makes excess Temperature; and this neon can make the quality on welding region surface high.

Before welding, nut 2 is sheathed on the bottom of rotating shaft 33, and rotating shaft 33 drives nut 2 rotations and presses to non-crystaline amorphous metal base material 1, and makes nut 2 and non-crystaline amorphous metal base material 1 frictional heat.

embodiment 3.

See Fig. 1.A welding method for non-crystaline amorphous metal and nut, comprises non-crystaline amorphous metal base material 1 and nut 2, and the present embodiment non-crystaline amorphous metal base material 1 used is for Zr-Cu-Ni-Al-Nb is associated gold, and the material of nut 2 used is copper.

Adopt whirligig 3 drive nut 2 rotations and press to non-crystaline amorphous metal base material 1 with the rotary speed of 1800rpm and the feed rate of 18mm/min, and make nut 2 and non-crystaline amorphous metal base material 1 frictional heat, so that more than non-crystaline amorphous metal base material 1 reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, non-crystaline amorphous metal base material 1 enters viscous or molten condition, then under argon shield, non-crystaline amorphous metal base material 1 engages with nut 2;

In the present embodiment, non-crystaline amorphous metal base material 1 offers two for the groove 11 with nut 2 welding, and the width of rebate value of these two grooves 11 all equates with the external diameter of nut 2 and the difference between internal diameter; In the process of welding, the notch of two grooves 11 engages over against the external diameter of nut 2 and the position between internal diameter respectively.And two grooves 11 of the present embodiment are all set to " V " type.

Whirligig 3 is provided with protective gas nozzle 31, and argon gas blows to non-crystaline amorphous metal base material 1 with the blow gas pressure of 0.5MPa from protective gas nozzle 31.

Wherein, whirligig 3 is also provided with rotary drive mechanism 32, and drives with rotary drive mechanism 32 rotating shaft 33 being connected; Protective gas nozzle 31 is sheathed on the upper end of rotating shaft 33.In the process of welding; because making temperature, nut 2 and non-crystaline amorphous metal base material 1 frictional heat rise; the argon gas that blows to non-crystaline amorphous metal base material 1 from protective gas nozzle 31 can avoid non-crystaline amorphous metal to be easily oxidized because frictional heat makes excess Temperature; and this argon gas can make the quality on welding region surface high.

Before welding, nut 2 is sheathed on the bottom of rotating shaft 33, and rotating shaft 33 drives nut 2 rotations and presses to non-crystaline amorphous metal base material 1, and makes nut 2 and non-crystaline amorphous metal base material 1 frictional heat.

embodiment 4.

See Fig. 2.A welding method for non-crystaline amorphous metal and nut, comprises non-crystaline amorphous metal base material 1 and nut 2, and the present embodiment non-crystaline amorphous metal base material 1 used is for Cu-Ti-Zr-Ni is associated gold, and the material of nut 2 used is copper.

Adopt whirligig 3 drive nut 2 rotations and press to non-crystaline amorphous metal base material 1 with the rotary speed of 1700rpm and the feed rate of 25mm/min, and make nut 2 and non-crystaline amorphous metal base material 1 frictional heat, so that more than non-crystaline amorphous metal base material 1 reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, non-crystaline amorphous metal base material 1 enters viscous or molten condition, then under Krypton protection, non-crystaline amorphous metal base material 1 engages with nut 2;

In the present embodiment, non-crystaline amorphous metal base material 1 offers two for the groove 11 with nut 2 welding, and the width of rebate value of these two grooves 11 all equates with the external diameter of nut 2 and the difference between internal diameter; In the process of welding, the notch of two grooves 11 engages over against the external diameter of nut 2 and the position between internal diameter respectively.And two grooves 11 of the present embodiment are all set to isosceles trapezoid, the upper base length of isosceles trapezoid is greater than the length of going to the bottom.

Whirligig 3 is provided with protective gas nozzle 31, and Krypton blows to non-crystaline amorphous metal base material 1 with the blow gas pressure of 0.1MPa from protective gas nozzle 31.

Wherein, whirligig 3 is also provided with rotary drive mechanism 32, and drives with rotary drive mechanism 32 rotating shaft 33 being connected; Protective gas nozzle 31 is sheathed on the upper end of rotating shaft 33.In the process of welding; because making temperature, nut 2 and non-crystaline amorphous metal base material 1 frictional heat rise; the Krypton that blows to non-crystaline amorphous metal base material 1 from protective gas nozzle 31 can avoid non-crystaline amorphous metal to be easily oxidized because frictional heat makes excess Temperature; and this Krypton can make the quality on welding region surface high.

Before welding, nut 2 is sheathed on the bottom of rotating shaft 33, and rotating shaft 33 drives nut 2 rotations and presses to non-crystaline amorphous metal base material 1, and makes nut 2 and non-crystaline amorphous metal base material 1 frictional heat.

embodiment 5.

See Fig. 2.A welding method for non-crystaline amorphous metal and nut, comprises non-crystaline amorphous metal base material 1 and nut 2, and the present embodiment non-crystaline amorphous metal base material 1 used is for Cu-Ti-Zr-Ni is associated gold, and the material of nut 2 used is stainless steel.

Adopt whirligig 3 drive nut 2 rotations and press to non-crystaline amorphous metal base material 1 with the rotary speed of 2100rpm and the feed rate of 23mm/min, and make nut 2 and non-crystaline amorphous metal base material 1 frictional heat, so that more than non-crystaline amorphous metal base material 1 reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, non-crystaline amorphous metal base material 1 enters viscous or molten condition, then under xenon protection, non-crystaline amorphous metal base material 1 engages with nut 2;

In the present embodiment, non-crystaline amorphous metal base material 1 offers two for the groove 11 with nut 2 welding, and the width of rebate value of these two grooves 11 all equates with the external diameter of nut 2 and the difference between internal diameter; In the process of welding, the notch of two grooves 11 engages over against the external diameter of nut 2 and the position between internal diameter respectively.And two grooves 11 of the present embodiment are all set to isosceles trapezoid, the upper base length of isosceles trapezoid is greater than the length of going to the bottom.

Whirligig 3 is provided with protective gas nozzle 31, and xenon blows to non-crystaline amorphous metal base material 1 with the blow gas pressure of 0.7MPa from protective gas nozzle 31.

Wherein, whirligig 3 is also provided with rotary drive mechanism 32, and drives with rotary drive mechanism 32 rotating shaft 33 being connected; Protective gas nozzle 31 is sheathed on the upper end of rotating shaft 33.In the process of welding; because making temperature, nut 2 and non-crystaline amorphous metal base material 1 frictional heat rise; the xenon that blows to non-crystaline amorphous metal base material 1 from protective gas nozzle 31 can avoid non-crystaline amorphous metal to be easily oxidized because frictional heat makes excess Temperature; and this xenon can make the quality on welding region surface high.

Before welding, nut 2 is sheathed on the bottom of rotating shaft 33, and rotating shaft 33 drives nut 2 rotations and presses to non-crystaline amorphous metal base material 1, and makes nut 2 and non-crystaline amorphous metal base material 1 frictional heat.

embodiment 6.

See Fig. 3.A welding method for non-crystaline amorphous metal and nut, comprises non-crystaline amorphous metal base material 1 and nut 2, and the present embodiment non-crystaline amorphous metal base material 1 used is for Cu-Ti-Zr-Ni is associated gold, and the material of nut 2 used is carbon steel.

Adopt whirligig 3 drive nut 2 rotations and press to non-crystaline amorphous metal base material 1 with the rotary speed of 2500rpm and the feed rate of 22mm/min, and make nut 2 and non-crystaline amorphous metal base material 1 frictional heat, so that more than non-crystaline amorphous metal base material 1 reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, non-crystaline amorphous metal base material 1 enters viscous or molten condition, then under nitrogen protection, non-crystaline amorphous metal base material 1 engages with nut 2;

In the present embodiment, non-crystaline amorphous metal base material 1 is provided with two structures 12 with draft angle 101, between the structure 12 that two have a draft angle 101, form groove 11, this groove 11 is for welding with nut 2, the external diameter of nut 2 is greater than the bottom land width of this groove 11, and is less than the width of rebate of this groove 11.

Whirligig 3 is provided with protective gas nozzle 31, and nitrogen blows to non-crystaline amorphous metal base material 1 with the blow gas pressure of 0.9MPa from protective gas nozzle 31.

Wherein, whirligig 3 is also provided with rotary drive mechanism 32, and drives with rotary drive mechanism 32 rotating shaft 33 being connected; Protective gas nozzle 31 is sheathed on the upper end of rotating shaft 33.In the process of welding; because making temperature, nut 2 and non-crystaline amorphous metal base material 1 frictional heat rise; the nitrogen that blows to non-crystaline amorphous metal base material 1 from protective gas nozzle 31 can avoid non-crystaline amorphous metal to be easily oxidized because frictional heat makes excess Temperature; and this nitrogen can make the quality on welding region surface high.

Before welding, nut 2 is sheathed on the bottom of rotating shaft 33, and rotating shaft 33 drives nut 2 rotations and presses to non-crystaline amorphous metal base material 1, and makes nut 2 and non-crystaline amorphous metal base material 1 frictional heat.

Performance test.

The non-crystaline amorphous metal base material 1 that above-described embodiment 1 to 6 is obtained carries out tested for tensile strength with the product of nut 2 welding, and table 1 is the tensile strength of the weld of welding product in embodiment 1 to 6.

The tensile strength of the weld of welding product in table 1 embodiment 1 to 6

Performance test	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5	Embodiment 6
							Tensile strength (MPa)	250	230	185	180	225	240

From the data of table 1, the non-crystaline amorphous metal base material 1 that above-described embodiment 1 to 6 obtains all has good tensile strength with the product of nut 2 welding, has illustrated that in above-described embodiment 1 to 6, non-crystaline amorphous metal base material 1 is strong with the engaging force of nut 2.

Finally should be noted that; above embodiment is only for illustrating technical scheme of the present invention but not limiting the scope of the invention; although the present invention is explained in detail with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify or be equal to replacement technical scheme of the present invention, and not depart from essence and the scope of technical solution of the present invention.

Claims (10)

1. the welding method of a non-crystaline amorphous metal and nut, it is characterized in that: comprise non-crystaline amorphous metal base material and nut, adopt whirligig drive described nut rotation and press to described non-crystaline amorphous metal base material with certain rotary speed and feed rate, and make described nut and described non-crystaline amorphous metal base material frictional heat, so that more than described non-crystaline amorphous metal base material reaches the above and supercooling liquid phase region below Tx temperature of Tg temperature or reaches Tm temperature, described non-crystaline amorphous metal base material enters viscous or molten condition, then under inert atmosphere protection, described non-crystaline amorphous metal base material engages with described nut,

Described non-crystaline amorphous metal base material is provided with for the groove with described nut-welding;

Described whirligig is provided with protective gas nozzle, and described inert atmosphere blows to described non-crystaline amorphous metal base material with certain blow gas pressure from described protective gas nozzle.

2. the welding method of a kind of non-crystaline amorphous metal according to claim 1 and nut, it is characterized in that: described non-crystaline amorphous metal base material offers two described grooves, the width of rebate value of two described grooves all equates with the external diameter of described nut and the difference between internal diameter; In the process of welding, the notch of two described grooves engages over against the external diameter of described nut and the position between internal diameter respectively.

3. the welding method of a kind of non-crystaline amorphous metal according to claim 2 and nut, is characterized in that: two described grooves are all set to " V " type.

4. the welding method of a kind of non-crystaline amorphous metal according to claim 2 and nut, is characterized in that: two described grooves are all set to isosceles trapezoid, and the upper base length of described isosceles trapezoid is greater than the length of going to the bottom.

5. the welding method of a kind of non-crystaline amorphous metal according to claim 1 and nut, is characterized in that: described non-crystaline amorphous metal base material is provided with at least two structures with draft angle, and described groove is described in two, to have the groove forming between the structure of draft angle; The external diameter of described nut is greater than the bottom land width of described groove, and is less than the width of rebate of described groove.

6. the welding method of a kind of non-crystaline amorphous metal according to claim 1 and nut, is characterized in that: described rotary speed is 1700rpm ~ 2500rpm, and described feed rate is 15mm/min ~ 25mm/min.

7. the welding method of a kind of non-crystaline amorphous metal according to claim 1 and nut, is characterized in that: described blow gas pressure is 0.1MPa ~ 1MPa.

8. the welding method of a kind of non-crystaline amorphous metal according to claim 1 and nut, is characterized in that: described whirligig is also provided with rotary drive mechanism, and drives with described rotary drive mechanism the rotating shaft being connected; Described protective gas nozzle cage is located at the upper end of described rotating shaft.

9. the welding method of a kind of non-crystaline amorphous metal according to claim 8 and nut, is characterized in that: described nut sleeve is located at the bottom of described rotating shaft.

10. the welding method of a kind of non-crystaline amorphous metal according to claim 1 and nut, is characterized in that: described inert atmosphere is inert gas or nitrogen.