CN118492356A - Manufacturing method of marble Dan Jupian - Google Patents

Abstract

The invention discloses a manufacturing method of marble cutter head matrix powder and marble Dan Jupian, wherein the matrix powder comprises the following components in percentage by weight: 25-35% of Fe-Cu-Sn-P alloy powder, 20-30% of Cu-Zn alloy powder, 2-5% of Ni-coated graphite powder and the balance of Cu-Sn-Zn-Pb alloy powder; the matrix powder adopts alloy powder with reasonable proportion to change the melting point, and can use low silver 15% or silver-free solder to finish welding, thereby greatly reducing the welding cost of the marble Dan Jupian and further reducing the production cost of the marble saw blade.

Description

Manufacturing method of marble Dan Jupian

The invention relates to a method for manufacturing carcass powder of a marble cutter head and marble Dan Jupian, which are divided into Chinese patent application number 202110404969.5, the original application number 202110404969.5 and the application date 2021, 04 and 15.

Technical Field

The invention relates to the technical field of diamond cutter manufacturing, in particular to a manufacturing method of marble Dan Jupian.

Background

Marble Dan Jupian is a superhard sawing tool, namely one of diamond saw blades, and the main processing object is marble; marble is a softer stone than granite and is brittle; the existing marble saw blade consists of a marble cutter head and a matrix, wherein the cutter head and the matrix are connected together mainly by welding; because the main component of the marble is calcium carbonate, the Mohs hardness is between 3 and 4 levels, and is much smaller than that of granite, the formula composition of the metal matrix of the existing marble cutter head is much larger than that of the granite cutter head, the content of Cu, sn, zn and other low-melting-point elements contained in the matrix is much higher, the cutter head cannot be welded at high temperature like a granite saw blade when being welded with a matrix, and only silver-copper alloy solder with the silver content of more than 40% can be used for completing the welding, and the welding cost of the existing marble Dan Jupian is always high due to the high price of the silver element, so that the production cost of the marble saw blade is very high.

In view of the above, the present inventors have developed and designed the present invention by intensively conceived against many defects and inconveniences caused by the imperfection of the above-mentioned marble saw blade and actively studied and improved attempts.

Disclosure of Invention

The invention aims to provide matrix powder of a marble cutter head and a manufacturing method of marble Dan Jupian, wherein the matrix powder adopts alloy powder with reasonable proportion to change the melting point, and can be welded by using low-silver 15% or silver-free solder, so that the welding cost of the marble Dan Jupian can be greatly reduced, and the production cost of a marble saw blade is reduced.

In order to achieve the above object, the solution of the present invention is:

The matrix powder of the marble cutter comprises the following components in percentage by weight:

The Fe-Cu-Sn-P alloy powder comprises the following components in percentage by weight: p2%, sn 3%, cu18%, fe 77%; the Cu-Zn alloy powder comprises the following components in percentage by weight: 80% of Cu and 20% of Zn; the Ni-coated graphite powder comprises the following components in percentage by weight: 10-15% of Ni and 85-90% of C; the Cu-Sn-Zn-Pb alloy powder comprises the following components in percentage by weight: pb 3%, zn 6%, sn 6%, cu84%.

The granularity of the Fe-Cu-Sn-P alloy powder is less than or equal to 800 meshes, and the oxygen content is 1500-2500PPM.

The granularity of the Ni-coated graphite powder is less than or equal to 500 meshes, and the oxygen content is 1000-1500PPM.

The Ni-coated graphite powder adopts a coating production process, and Ni is uniformly distributed on the surfaces of spherical graphite particles.

A manufacturing method of a marble Dan Jupian comprises the following steps:

(1) Weighing the components of the matrix powder of the marble cutter head according to a proportion, and stirring for 45-90 minutes by using a three-dimensional mixer; wherein the matrix powder comprises the following components in percentage by weight: 25-35% of Fe-Cu-Sn-P alloy powder, 20-30% of Cu-Zn alloy powder, 2-5% of Ni-coated graphite powder and the balance of Cu-Sn-Zn-Pb alloy powder;

(2) Mixing 90-95% of matrix powder and 10-5% of diamond particles together according to the weight ratio, and mixing for 30-60 minutes in a mixer to obtain a mixture of the matrix and the diamond particles;

(3) Pressing the mixture into a cutter head blank in a cold press, wherein the cold pressing pressure is 600-1000kg/cm ²;

(4) Putting the green body into a multi-layer graphite mold for sintering at 780-850 ℃ for 1-2 minutes;

(5) Carrying out appearance treatment on the sintered diamond tool bit;

(6) Welding the steel plates on a full-automatic welding frame to form saw blades, wherein the welding time is 5-10s, and the welding inspection strength is 360Mpa;

(7) And (3) sharpening, scraping edges, polishing and soaking oil by the saw blade.

In the step (1), the Fe-Cu-Sn-P alloy powder comprises the following components in percentage by weight: p2%, sn 3%, cu 18%, fe 77%; the Cu-Zn alloy powder comprises the following components in percentage by weight: 80% of Cu and 20% of Zn; the Ni-coated graphite powder comprises the following components in percentage by weight: 10-15% of Ni and 85-90% of C; the Cu-Sn-Zn-Pb alloy powder comprises the following components in percentage by weight: pb 3%, zn 6%, sn 6%, cu 84%.

In the step (2), the diamond particles are diamond with the surface titanized and the granularity range of 20/25-100/120 meshes, and are fully mixed by a bipartite, and then 3 per mill of paraffin is added into the diamond for hand mix-3 minutes.

In step (6), the soldering material is 12% silver soldering tab or silver-free soldering tab.

The granularity of the Fe-Cu-Sn-P alloy powder is less than or equal to 800 meshes, and the oxygen content is 1500-2500PPM.

The granularity of the Ni-coated graphite powder is less than or equal to 500 meshes, and the oxygen content is 1000-1500PPM.

The Ni-coated graphite powder adopts a coating production process, and Ni is uniformly distributed on the surfaces of spherical graphite particles.

The matrix powder of the invention has the following advantages:

1. the low-melting-point elements Sn and Zn in the matrix powder are added in an alloy form, so that alloying is more sufficient during sintering, vaporization of melting-point components during welding can be effectively controlled, and welding current is improved; the requirements on the welding materials can be relaxed, and the welding materials with low or no silver content can be used for welding, so that the welding cost is reduced, and the production cost is further reduced.

2. The Fe-Cu-Sn-P alloy powder is novel high-brittleness powder, fe is soft, and is added in a P-containing alloy form, so that the soft property of Fe is changed, on one hand, the blade height of diamond can be improved, the sharpness of a product is improved, on the other hand, the melting point of Fe is high, and welding materials with better melting points can be selected for welding.

3. Ni-coated graphite powder is a coating production process, ni is uniformly distributed on the surfaces of spherical graphite particles, cu in the matrix powder can be infinitely and mutually dissolved, the mutual solubility of Cu, sn and Zn is also good, the elements can be mutually fused when the whole matrix is sintered, the diamond coating strength of the matrix is improved, graphite can be deoxidized in the sintering process, a reducing environment can be provided for high-temperature alloying of the matrix powder, the lubricating effect is achieved in the cutting process of a cutter head, and the noise is reduced.

The matrix powder is adopted in the manufacturing method of the marble Dan Jupian, so that the manufacturing method has the advantages of the matrix powder, and the low-melting-point elements Sn and Zn in the matrix powder are added in an alloy form, so that alloying is more sufficient during sintering, vaporization of components with melting points during welding can be effectively controlled, and welding current is improved; the requirements on the welding materials can be relaxed, and the welding materials with low or no silver content can be used for welding, so that the welding cost is reduced, and the production cost is reduced; the sharpness of the Fe-Cu-Sn-P alloy powder can be improved, the Ni-coated graphite powder and Cu in the matrix powder can be infinitely and mutually dissolved, the mutual solubility of Cu and Sn and Zn is also very good, and the elements of the whole matrix can be mutually fused when the whole matrix is sintered, so that the embedding strength of the matrix to diamond is improved, and the wear resistance and sharpness of the saw blade are further improved; the graphite can deoxidize in the sintering process, can provide a reducing environment for high-temperature alloying of matrix powder, plays a role in lubrication in the cutting process of the cutter head, and reduces noise.

Detailed Description

In order to further explain the technical scheme of the invention, the invention is explained in detail by specific examples.

The invention discloses matrix powder of a marble cutter head, which comprises the following components in percentage by weight:

the Fe-Cu-Sn-P alloy powder in the matrix powder comprises the following components in percentage by weight: p2%, sn 3%, cu 18%, fe 77%; the Cu-Zn alloy powder comprises the following components in percentage by weight: 80% of Cu and 20% of Zn; the Ni-coated graphite powder comprises the following components in percentage by weight: 10-15% of Ni and 85-90% of C; the Cu-Sn-Zn-Pb alloy powder comprises the following components in percentage by weight: pb 3%, zn 6%, sn 6%, cu 84%.

The granularity of Fe-Cu-Sn-P alloy powder in the matrix powder is less than or equal to 800 meshes, and the oxygen content is 1500-2500PPM.

The granularity of Ni-coated graphite powder in the matrix powder is less than or equal to 500 meshes, and the oxygen content is 1000-1500PPM.

The Ni-coated graphite powder in the matrix powder adopts a coating production process, and Ni is uniformly distributed on the surfaces of spherical graphite particles.

The matrix powder of the invention has the following advantages:

1. the low-melting-point elements Sn and Zn in the matrix powder are added in an alloy form, so that alloying is more sufficient during sintering, vaporization of melting-point components during welding can be effectively controlled, and welding current is improved; the requirements on the welding materials can be relaxed, and the welding materials with low or no silver content can be used for welding, so that the welding cost is reduced, and the production cost is further reduced.

2. The Fe-Cu-Sn-P alloy powder is novel high-brittleness powder, fe is soft, and is added in a P-containing alloy form, so that the soft property of Fe is changed, on one hand, the blade height of diamond can be improved, the sharpness of a product is improved, on the other hand, the melting point of Fe is high, and welding materials with better melting points can be selected for welding.

3. Ni-coated graphite powder is a coating production process, ni is uniformly distributed on the surfaces of spherical graphite particles, cu in the matrix powder can be infinitely and mutually dissolved, the mutual solubility of Cu, sn and Zn is also good, the elements can be mutually fused when the whole matrix is sintered, the diamond coating strength of the matrix is improved, graphite can be deoxidized in the sintering process, a reducing environment can be provided for high-temperature alloying of the matrix powder, the lubricating effect is achieved in the cutting process of a cutter head, and the noise is reduced.

The invention also discloses a manufacturing method of the marble Dan Jupian, which comprises the following steps:

(1) Weighing the components of the matrix powder of the marble cutter head according to a proportion, and stirring for 45-90 minutes by using a three-dimensional mixer; wherein the matrix powder comprises the following components in percentage by weight: 25-35% of Fe-Cu-Sn-P alloy powder, 20-30% of Cu-Zn alloy powder, 2-5% of Ni-coated graphite powder and the balance of Cu-Sn-Zn-Pb alloy powder;

(2) Mixing 90-95% of matrix powder and 10-5% of diamond particles together according to the weight ratio, and mixing for 30-60 minutes in a mixer to obtain a mixture of the matrix and the diamond particles;

(3) Pressing the mixture into a cutter head blank in a cold press, wherein the cold pressing pressure is 600-1000kg/cm ²;

(4) Putting the green body into a multi-layer graphite mold for sintering at 780-850 ℃ for 1-2 minutes;

(5) Carrying out appearance treatment on the sintered diamond tool bit;

(6) Welding the steel plates on a full-automatic welding frame to form saw blades, wherein the welding time is 5-10s, and the welding inspection strength is 360Mpa;

(7) And (3) sharpening, scraping edges, polishing and soaking oil by the saw blade.

The matrix powder is adopted in the manufacturing method of the marble Dan Jupian, so that the manufacturing method has the advantages of the matrix powder, and the low-melting-point elements Sn and Zn in the matrix powder are added in an alloy form, so that alloying is more sufficient during sintering, vaporization of components with melting points during welding can be effectively controlled, and welding current is improved; the requirements on the welding materials can be relaxed, and the welding materials with low or no silver content can be used for welding, so that the welding cost is reduced, and the production cost is reduced; the sharpness of the Fe-Cu-Sn-P alloy powder can be improved, the Ni-coated graphite powder and Cu in the matrix powder can be infinitely and mutually dissolved, the mutual solubility of Cu and Sn and Zn is also very good, and the elements of the whole matrix can be mutually fused when the whole matrix is sintered, so that the embedding strength of the matrix to diamond is improved, and the wear resistance and sharpness of the saw blade are further improved; the graphite can deoxidize in the sintering process, can provide a reducing environment for high-temperature alloying of matrix powder, plays a role in lubrication in the cutting process of the cutter head, and reduces noise.

In the step (1), the Fe-Cu-Sn-P alloy powder comprises the following components in percentage by weight: p2%, sn 3%, cu 18%, fe 77%; the Cu-Zn alloy powder comprises the following components in percentage by weight: 80% of Cu and 20% of Zn; the Ni-coated graphite powder comprises the following components in percentage by weight: 10-15% of Ni and 85-90% of C; the Cu-Sn-Zn-Pb alloy powder comprises the following components in percentage by weight: pb 3%, zn 6%, sn 6%, cu 84%; the low-melting-point elements Sn and Zn in the matrix powder are added in an alloy form, so that alloying is more sufficient during sintering, vaporization of melting-point components during welding can be effectively controlled, and welding current is improved; the requirements on the welding materials can be relaxed, and the welding materials with low or no silver content can be used for welding, so that the welding cost is reduced, and the production cost is further reduced.

In the step (2), the diamond particles are diamond with the surface titanized and the granularity range of 20/25-100/120 meshes, and are fully mixed by a bipartite, and then 3 per mill of paraffin is added into the diamond for hand mix to 3 minutes.

In the step (6), the welding material adopts 12% silver soldering lug or silver-free soldering lug.

The granularity of the Fe-Cu-Sn-P alloy powder is less than or equal to 800 meshes, and the oxygen content is 1500-2500PPM.

The granularity of the Ni-coated graphite powder is less than or equal to 500 meshes, and the oxygen content is 1000-1500PPM.

The Ni-coated graphite powder adopts a coating production process, and Ni is uniformly distributed on the surfaces of spherical graphite particles.

Example 1

A manufacturing method of a marble Dan Jupian comprises the following steps:

(1) Preparing Fe-Cu-Sn-P alloy powder, cu-Zn alloy powder, ni-coated graphite powder and Cu-Sn-Zn-Pb alloy powder in advance; wherein the Fe-Cu-Sn-P alloy powder comprises the following components in percentage by weight: p2%, sn 3%, cu 18%, fe 77%; the Cu-Zn alloy powder comprises the following components in percentage by weight: 80% of Cu and 20% of Zn; the Ni-coated graphite powder comprises the following components in percentage by weight: 10-15% of Ni and 85-90% of C; the Cu-Sn-Zn-Pb alloy powder comprises the following components in percentage by weight: pb 3%, zn 6%, sn 6%, cu 84%;

(2) Weighing the components of the matrix powder of the marble cutter head according to a proportion, and stirring for 45-90 minutes by using a three-dimensional mixer; wherein the matrix powder comprises the following components in percentage by weight: 35% of Fe-Cu-Sn-P alloy powder, 20% of Cu-Zn alloy powder, 2% of Ni-coated graphite powder and 43% of Cu-Sn-Zn-Pb alloy powder;

(3) Fully mixing the titanium-plated diamond with the content of 70/80 being 50% and the content of 80/100 being 50% by using a bipartite, adding 3%o of paraffin into the diamond, and carrying out hand mix-3 minutes;

(4) Mixing 96% of matrix powder and 4% of diamond particles according to the weight ratio, and mixing for 30-60 minutes in a mixer to obtain a mixture of the matrix and the diamond particles;

(5) Pressing the mixture into a cutter head blank in a cold press, wherein the cold pressing pressure is 600-1000kg/cm ²;

(6) Putting the green body into a multi-layer graphite mold for sintering at 780-850 ℃ for 1-2 minutes;

(7) Carrying out appearance treatment on the sintered diamond tool bit;

(8) Welding the saw blade on a full-automatic welding frame, and welding by adopting silver-free solder for 5-10s, wherein the welding test strength is 360Mpa;

(9) And (3) sharpening, scraping edges, polishing and soaking oil by the saw blade.

Example two

A manufacturing method of a marble Dan Jupian comprises the following steps:

(1) Preparing Fe-Cu-Sn-P alloy powder, cu-Zn alloy powder, ni-coated graphite powder and Cu-Sn-Zn-Pb alloy powder in advance; wherein the Fe-Cu-Sn-P alloy powder comprises the following components in percentage by weight: p2%, sn 3%, cu 18%, fe 77%; the Cu-Zn alloy powder comprises the following components in percentage by weight: 80% of Cu and 20% of Zn; the Ni-coated graphite powder comprises the following components in percentage by weight: 10-15% of Ni and 85-90% of C; the Cu-Sn-Zn-Pb alloy powder comprises the following components in percentage by weight: pb 3%, zn 6%, sn 6%, cu 84%;

(2) Weighing the components of the matrix powder of the marble cutter head according to a proportion, and stirring for 45-90 minutes by using a three-dimensional mixer; wherein the matrix powder comprises the following components in percentage by weight: 25% of Fe-Cu-Sn-P alloy powder, 25% of Cu-Zn alloy powder, 5% of Ni-coated graphite powder and 45% of Cu-Sn-Zn-Pb alloy powder;

(3) Fully mixing 30/35 percent of copper-plated diamond with 60 percent of 35/40 percent of copper-plated diamond with 40 percent of 35/40 percent of copper-plated diamond with a bipartite, adding 3 per mill of paraffin into the diamond, and adding hand mix to 3 minutes;

(4) Mixing 92% of matrix powder and 8% of diamond particles according to the weight ratio, and mixing for 30-60 minutes in a mixer to obtain a mixture of the matrix and the diamond particles;

(5) Pressing the mixture into a cutter head blank in a cold press, wherein the cold pressing pressure is 600-1000kg/cm ²;

(6) Putting the green body into a multi-layer graphite mold for sintering at 780-850 ℃ for 1-2 minutes;

(7) Carrying out appearance treatment on the sintered diamond tool bit;

(8) Welding on a full-automatic welding frame to form a saw blade, and welding by adopting silver solder containing 15% of silver for 5-10s, wherein the welding test strength is 360Mpa;

(9) And (3) sharpening, scraping edges, polishing and soaking oil by the saw blade.

The above embodiments are not intended to limit the form or style of the present invention, and any suitable changes or modifications made by those skilled in the art should be construed as not departing from the scope of the present invention.

Claims (5)

1. The manufacturing method of the marble Dan Jupian is characterized by comprising the following steps:

(1) Weighing the components of the matrix powder of the marble cutter head according to a proportion, and stirring for 45-90 minutes by using a three-dimensional mixer; wherein the matrix powder comprises the following components in percentage by weight: 25-35% of Fe-Cu-Sn-P alloy powder, 20-30% of Cu-Zn alloy powder, 2-5% of Ni-coated graphite powder and the balance of Cu-Sn-Zn-Pb alloy powder;

(2) Mixing 90-95% of matrix powder and 10-5% of diamond particles together according to the weight ratio, and mixing for 30-60 minutes in a mixer to obtain a mixture of the matrix and the diamond particles; the diamond particles are diamond with the surface titanized and the granularity range of 20/25-100/120 meshes, and are fully mixed by a bipartite, and then 3 per mill of paraffin is added into the diamond for hand mix-3 minutes;

(3) Pressing the mixture into a cutter head blank in a cold press, wherein the cold pressing pressure is 600-1000kg/cm ²;

(4) Putting the green body into a multi-layer graphite mold for sintering at 780-850 ℃ for 1-2 minutes;

(5) Carrying out appearance treatment on the sintered diamond tool bit;

(6) Welding the steel plates on a full-automatic welding frame to form saw blades, wherein the welding time is 5-10s, and the welding inspection strength is 360Mpa; the welding material adopts 12% silver soldering lug or silver-free soldering lug;

(7) And (3) sharpening, scraping edges, polishing and soaking oil by the saw blade.

2. The method for manufacturing the marble Dan Jupian as defined in claim 1, wherein: in the step (1), the Fe-Cu-Sn-P alloy powder comprises the following components in percentage by weight: p2%, sn 3%, cu 18%, fe 77%; the Cu-Zn alloy powder comprises the following components in percentage by weight: 80% of Cu and 20% of Zn; the Ni-coated graphite powder comprises the following components in percentage by weight: 10-15% of Ni and 85-90% of C.

3. The method for manufacturing the marble Dan Jupian as defined in claim 1, wherein: the granularity of the Fe-Cu-Sn-P alloy powder is less than or equal to 800 meshes, and the oxygen content is 1500-2500PPM.

4. The method for manufacturing the marble Dan Jupian as defined in claim 1, wherein: the granularity of the Ni-coated graphite powder is less than or equal to 500 meshes, and the oxygen content is 1000-1500PPM.

5. The method for manufacturing the marble Dan Jupian as defined in claim 1, wherein: the Ni-coated graphite powder adopts a coating production process, and Ni is uniformly distributed on the surfaces of spherical graphite particles.