What should we do if the burrs cannot be removed completely when the edges are curled, turned over or collapsed?

Deburring, descaling, chamfering and polishing process of CV joint for automobile parts

The CV joint is an important component of the ball cage universal joint, a steering component of the car. On its drum-shaped side wall, six window holes are milled by CNC to install the steel balls responsible for rotation. If there are burrs on the inner wall of the window hole, then over time, the car will make a “clicking” noise during driving or turning. Therefore, the last process in the product production process is deburring and finishing. The commonly used polishing process is to use the vibrating deburring process to put the CV joint into the working bowl of the vibratory finisher for batch deburring. One disadvantage of this process is that the burrs on the edge of the window hole will have a flanging and curling phenomenon, which cannot be removed cleanly; at the same time, collisions between products will cause bumps and wounds. Today we will share how to improve and optimize the process of a 20 chromium manganese titanium CV joint product to solve the problem of unclean burr removal and bumps on the surface of the workpiece. This finishing process method is also suitable for other deburring, deflashing processes such as vibratory, centrifugal barrel, disc finishing where the burrs are not removed cleanly, and the collision between workpieces causes bumps and needs to improve and adjust the finishing and polishing process.

    • jerrylu
    • 2024-06-08
    • 0 Comments

     

deburring,deflashing,chamfering,finishing,polishing process method for CV joint of auto parts

1. The CV joint before vibratory deburring, finishing, polishing
How to deal with the burrs and curling of the automotive parts cv joint

Materials:

20 chromium manganese titanium(20CRMNTI)

Appearance:

burr flanging, curling

Shape:

special-shaped

Size:

Ø65*35 MM

Pre-polishing process:

quenching

Post-polishing process:

packing

2. Finishing and polishing requirements:
  • deburring
  • No burrs, no bruises
3. Optimization and adjustment of cv joint deburring and polishing:
Process steps: (1) deburring
Machine and equipment centrifugal barrel deburring machine
Speed highest
Abrasive Media angle cut triangle ceramic tumbling media
Abrasive media to workpiece 4:1
Chemical compound finishing liquid
Water appropriate amount,the liquid level is 20mm above the abrasive media
Polishing time 10 minutes
Remark parts picked up manually, rinsed with water
4. Deburring effect comparison after optimized process
deburring, finishing and polishing effects of automotive parts cv joint
anti-collision and deburring effect of the cv joint of automobile parts

5. Additional instructions
  • 20 chromium manganese titanium (20CRMNTI) is a high-quality carburizing steel, which is often used to manufacture transmission parts of automotive parts. It has high strength and toughness, but the commonly used vibratory deburring process often has problems such as incomplete burr removal and collision of workpieces. After optimization, the special high-speed centrifugal barrel finishing machine is now used, which has strong finishing force, high cutting efficiency, and uses special anti-collision jigs and fixtures, thus avoiding the problem of collision between parts. Rough finishing uses heavy cutting force angle cut triangle ceramic deburring media, which can achieve the effect of rapid deburring.

6. Final summary
  • In this case study, we demonstrate the automated deburring, finishing and polishing process of the surface of a 20CRMNTI cv joint of automotive parts.
  • If your product workpiece has burrs, curled edges, collapsed edges, etc. that cannot be removed cleanly, or if the workpieces collide with each other and cause bumps and scratches, and other finishing and polishing problems require professional technical support, you can refer to the above case.

How to remove burrs and oxide scales from hardware wrenches tools and achieve a mirror polishing surface?

Hardware wrench tool deburring,descaling and mirror polishing process technology method

Hardware tools are necessities in our daily production. The name of hardware originally refers to tools made of five metals: gold, silver, copper, iron, and tin. However, with the development of technology today, the materials used in hardware tools have long broken through the original five metal limitations and are changing with each passing day. Today we will share a case of deburring and descaling of an open-end wrench tool product made of chrome-vanadium alloy steel after stamping, reducing surface roughness, and mirror polishing. This finishing process solution is also suitable for the deburring, descaling, mirror finishing and polishing of hardware wrench tools made of other materials such as high-carbon steel, stainless steel, and high-manganese alloy steel.

    • jerrylu
    • 2024-06-08
    • 0 Comments

     

Hardware wrench tool deburring,descaling, mirror finishing and polishing process

1. Chrome vanadium alloy steel hardware wrench tool before polishing
How to deburr, descale, mirror finish and polish the hardware wrenches tools

Materials:

chrome vanadium alloy steel

Appearance:

surface burrs, oxide scale.

Shape:

special-shaped

Size:

15*70 MM

Pre-polishing process:

standard stamping

Post-polishing process:

chrome plating

2. Finishing and polishing requirements:
  • deburring, descaling
  • surface mirror polishing
3. Chrome vanadium alloy steel hardware wrench tool polishing process details:
Process steps: (1) deburring, descaling for rough finishing (2) reduce roughness for fine finishing (3) mirror polishing
Machine and equipment centrifugal disc finishing machine centrifugal disc finishing machine mirror polishing machine
Speed highest highest highest
Tumbling Media angle cut tri-angle ceramic tumbling media cone resin tumbling media mirror polishing media
Abrasive media to workpiece 4:1 4:1 8:1
Chemical Compound finishing compound polishing compound polishing paste
Water appropriate amount, liquid level does not exceed abrasive media appropriate amount, liquid level does not exceed abrasive media no
Polishing time 120 minutes 60 minutes 180 minutes
Remark parts separated and picked up automatically, rinsed with water parts separated and picked up automatically, rinsed with water high-speed mirror polishing
4. Chrome vanadium alloy steel hardware wrench tool after polishing
Hardware wrench tools deburring,descaling, mirror finishing and polishing effect
deburring,descaling,mirror finishing and polishing effect comparison of hardware wrench tools

5. Additional instructions
  • Chrome vanadium steel is an alloy tool steel with chromium (CR) and vanadium (V) alloy elements. Its comprehensive strength and toughness are better than carbon steel, making it an ideal material for high-quality tools. This product is small in size and requires high finishing efficiency. Therefore, the rough finishing machine uses a centrifugal disc finisher, which has strong finishing force and high cutting efficiency. The medium-cutting force of the angle cut tri-angle ceramic tumbling media is used for rough finishing, which can achieve the effect of rapid deburring and descaling.
  • Fine finishing uses light cutting force plastic media, also called polyester media. This tumbling media has small grit size and light weight, will not cause deformation of the workpiece, and can further reduce the surface roughness.
  • The last step after fine finishing is to use a mirror polisher and mirror polishing abrasive media to enhance the brightness and mirror polishing.

6. Final summary
  • In this case study, we demonstrate the process of automated deburring, descaling, mirror finishing and polishing of the outer surface of a chrome-vanadium alloy steel hardware wrench tool.
  • If you need professional technical support for deburring, descaling, finishing and polishing of hardware wrenches tools made of stainless steel, high carbon steel, chrome-molybdenum steel, S2 tool steel, etc. or the following products, you can refer to the above cases:
    Methods for deburring hardware tools
    How to deburr hardware tools
    Videos for deburring hardware tools
    Videos for hardware tool polishing machines
    Methods for polishing hardware tools
    Hardware tool polishing machines
    Polishing and finishing of wrenches
    Differences between polished and not-polished of hardware wrenche tools
    Methods for deburring hardware
    Manufacturers of hardware deburring equipment
    Hardware deburring machines
    Deburring and polishing of hardware products
    Hardware tool processing
    How to finish and polish hardware

Deburring, descaling and mirror polishing technology method for deep drawing stamping parts of stainless steel

How to remove burrs, oxide scale, stretch lines and mirror polish the stainless steel deep drawing stamping parts?

Metal drawing stamping process is a common metal forming process. The difference between it and the standard stamping process is that standard stamping does not significantly change the depth of the formed product, while drawing (stretching) stamping generally significantly increases the depth of the formed product. Most of the daily necessities we use are made of metal by deep drawing and stamping processes. Today we will share a case of reducing surface roughness and mirror polishing of parts made of 304 stainless steel plates after deep drawing and stamping. This polishing process solution is also suitable for deburring, descaling, removing stretch marks, wrinkles, and mirror polishing of hardware drawing and stamping parts made of other materials such as aluminum alloy, carbon steel, copper, or nickel-titanium alloy.

    • jerrylu
    • 2024-06-07
    • 0 Comments

     

Deburring, descaling, de-stretching marks and mirror polishing process for stainless steel deep drawing stamping parts

1. The stainless steel deep drawing stamping parts before polishing
how to deburr, descale, de-stretching marks from stainless steel deep drawing stamping parts

Materials:

304 stainless steel

Appearance:

surface burrs, stretch marks

Shape:

hollow cylinder

Size:

Ø50*15 MM

Pre-polishing process:

deep drawing stamping

Post-polishing process:

chrome plating

2. Finishing and polishing requirements
  • deburring, de-stretch marks,roughness reduced from Ra0.5 to below Ra0.2
  • surface mirror polishing
3. Polishing process details of stainless steel deep drawing stamping parts:
Porcess steps: (1) deburring, descaling for rough finishing (2) reduce roughness for fine finishing (3) mirror polishing
Machine and equipment vibratory bowl finisher vibratory bowl finisher mirror polishing machine
Speed highest highest highest
Abrasive Media tri-angle silicon carbide deburring media cone polyester media mirror polishing media
Abrasive media to workpiece 4:1 4:1 8:1
Chemical Compound finishing compound polishing compound polishing paste
Water appropriate amount, liquid level does not exceed abrasive media appropriate amount, liquid level does not exceed abrasive media no
Polishing time 120 minutes 60 minutes 180 minutes
Remark parts separated and picked up automatically, rinsed with water parts separated and picked up automatically, rinsed with water high-speed mirror polishing
4. The stainless steel deep drawing stamping parts after polishing
deburring,descaling,de-stretch marks, mirror polishing effect of stainless steel deep drawing stamping parts
 deburring, descaling, mirror polishing effect comparison of stainless steel deep drawing stamping parts

5. Additional instructions
  • This stainless steel deep drawing stamping hardware parts product is formed from stainless steel thin plate through deep drawing of mold. There are sharp burrs on the upper end after cutting, but the wall thickness of the finished product is very thin, which can easily cause deformation of the workpiece during polishing. Therefore, the rough finishing machine adopts vibrating bowl finishing machine, which has moderate finishing force and high cutting efficiency. Abrasive media uses heavy-cutting triangular silicon carbide deburring media, which can quickly remove burrs, stretch line marks and wrinkles.
  • Fine finishing uses light cutting force cone-shaped plastic media, also called resin media. This abrasive media has small grit size and light weight, will not cause deformation of the workpiece, and can further reduce the surface roughness.
  • The last step after fine finishing is to use a mirror polisher with precision finishing media to enhance the brightness and mirror polishing.

6. Final summary
  • In this case, we demonstrated the process of automated deburring, descaling, removing stretch mark lines and mirror polishing of the outer surface of a hardware component product formed by deep drawing and stamping of a 304 stainless steel plate.
  • If you need professional technical support for deep drawing stamping parts, products or the following products made of stainless steel, aluminum alloy, copper alloy, carbon steel, etc., deburring, descaling, finishing and polishing, you can refer to the above cases:
    How to deal with stamping stretch marks
    Methods for deburring by drawing stamping
    Principles of deburring by stretching stamping
    How to deburr by stamping
    What does it mean to a burred stamped part
    What is the best tool for deburring a stamped part
    Process flow of stretching stamping polishing
    Polishing of stamped parts
    What is the best material for deep drawing
    Deep drawing forming process

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