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.

Superhard material laser cutting diamond product parts deburring, descaling, smoothing and polishing technology method

How to deburr, descale, smooth, finish and polish the superhard material laser cutting diamond product parts?

Diamond is a single crystal composed of regularly arranged carbon atoms. After cutting, finishing and polishing, diamond becomes a collectible diamond. Diamond is the simplest of all gemstones and the hardest substance naturally existing in nature. With this physical property, diamond is also widely used in the industrial field. Today we will share a case study of finishing and polishing a small slice of diamond synthetic material. Since the workpiece is processed by laser cutting technology, this polishing process method is also suitable for deburring, descaling, chamfering and polishing other precision machining parts of superhard materials such as plasma, water jet, wire cutting.

    • jerrylu
    • 2024-06-06
    • 0 Comments

     

superhard material laser cutting diamond product parts deburring, descaling, finishing and polishing technology method

1. Superhard material laser cutting diamond product parts before polishing
burrs and oxide scale of laser cutting diamond parts of superhard material

Materias:

synthetic diamond materials

Appearance:

burrs, oxide scale, zigzag edge

Shape:

ractangular

Size:

15*15 MM

Pre-polishing process:

laser cutting

Post-polishing process:

assembly

2. Finishing and polishing requirements
  • deburring, descaling.
  • smooth surface, low roughness.
3. Diamond superhard material parts polishing process details:
Process steps (1) deburring, descaling for rough finishing (2) fine finishing for reducing roughness
Machine and equipment centrifugal barrel finishing machine centrifugal barrel finishing machine
Speed highest highest
Tumbling media angle cut tri-angle silicon carbide deburring media precision finishing media
Abrasive media to workpiece 4:1 6:1
Chemical compound finishing compound polishing compound
Water appropriate amount,the liquid level is 30mm above the abrasive media appropriate amount,the liquid level is 30mm above the abrasive media
Polishing time 120 minutes 60 minutes
Remark parts separated and picked up automatically, rinsed with water parts separated and picked up automatically, rinsed with water
4. Superhard material laser cutting diamond product parts after polishing
deburring, descaling, polishing of laser cutting superhard material diamond product parts
polishing effect comparison of laser cutting superhard material diamond product parts

5. Additional instructions
  • This superhard diamond material part is a small precision product, so the rough finishing and polishing machine uses a centrifugal barrel finisher, which has strong finishing force and high cutting efficiency. Diamond is a superhard material with high hardness, so the tumbling media uses silicon carbide abrasives media with higher cutting force than heavy-cut ceramic deburring media, which can achieve the effect of quickly removing burrs and oxide layers.
  • Fine polishing uses precision finishing and polishing abrasives media with light cutting force and small abrasive grain size to further reduce surface roughness.

6. Final summary
  • In this case, we demonstrated a process for automated deburring, serrated edges smoothing, descaling, chamfering and polishing of the outer surface of a laser-cut superhard diamond component.
  • If you need professional technical support for deburring, descaling, chamfering and polishing of precision hardware accessories, workpieces or the following products such as plasma, water jet, wire cutting, etc., you can refer to the above cases:
    How to finish diamond
    How to polish diamond
    Methods for deburring diamond
    What diamond is cut and polished
    Deburring and polishing process for diamond products
    Deburring and polishing process for diamond materials
    Deburring and polishing process for diamond parts
    Diamond mirror finishing and polishing
    Laser cutting deburring machine
    How to remove burrs from laser cutting
    How to solve burrs when laser cutting
    Jagged waves appear in laser cutting
    How to deal with burrs from laser drilling
    What method is used to deburr high-hardness materials
    Polishing method for superhard materials

How to remove burrs, descale, rust, mirror polish the copper pipe fittings?

Copper (pure copper, brass, copper alloy) pipe, tube fittings deburring, descaling, mirror polishing technology method

Copper pipe, tube fittings, including copper, brass or other copper alloy pipe fittings, are generally used in plumbing systems and can also be used in food hygiene industries to inhibit bacterial growth. In order to improve the brightness of the product surface, the inner and outer surfaces need to be mirror polished. The traditional polishing process is to use a manual emery wheel for grinding. In this case, we will share a copper elbow pipe(tube) fitting product deburring, descaling, polishing and brightening process technology and methods. This finishing process solution is also suitable for deburring, descaling, chamfering and polishing of other materials such as brass, copper alloy, stainless steel, carbon steel and other pipe tube fittings.

    • jerrylu
    • 2024-06-13
    • 0 Comments

     

Copper (pure copper, brass, copper alloy) pipe, tube fittings deburring, deflashing, descaling, mirror polishing process technology method

1. Copper pipe, tube fittings before polishing
burrs,scale before polishing of copper (pure copper, brass, copper alloy) pipe, tube fittings

Materials:

pure copper

Appearance:

burrs, oxide scale,stretch lines

Shape:

elbow

Size:

DN20 120°

Pre-polishing process:

extrusion molding

Post-polishing process:

packing

2. Finishing and polishing requirements
  • deburring, descaling
  • smooth, mirror-polish effect
3. Polishing process details of copper pipe fittings:
Process steps (1) deburring, descaling (2) fine finish to reduce roughness (3) mirror polishing
Machine and equipment vibratory bowl finishing machine vibratory bowl finishing machine mirror polishing machine
Speed highest highest highest
Tumbling media spherical deburring ceramic media cone polyester media mirror polishing media
Tumbling media to workpiece 4:1 6:1 8:1
Chemical finishing 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 120 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 copper pipe,tube fittings after mirror polishing
Copper (pure copper, brass, copper alloy) elbow pipe deburring, descaling and mirror polishing
deburring,descaling,mirror polishing of copper(pure copper,brass,alloy) pipe, tube fittings elbow

5. Additional instructions
  • During the extrusion and stretching process of copper pipe fittings, the surface tensile lines and pits should not be too high or too deep. If the surface tensile lines and flash are too thick due to the mold, they need to be rough-grinded and leveled with a sanding machine first, and then put into the machine for finishing. In order to improve the batch processing capacity, the rough finishing and polishing machine adopts a vibratory bowl polishing machine, with the heavy-cutting spherical deburring ceramic tumbling media, which can achieve the effect of deburring and removing the oxide layer.
    Using light-cutting precision finishing abrasive media, cone-shaped plastic media for fine finish to further reduce surface roughness.
  • After fine finishing, use a mirror polisher and mirror polishing abrasive media to enhance the brightness and mirror polishing.

6. Final summary
  • In this case, we demonstrated the process of automated deburring, descaling and mirror polishing of the outer surface of a copper elbow pipe fitting.
  • If you need professional technical support for deburring and mirror polishing of copper, brass, copper alloy or stainless steel short pipes, tees, crosses, heads, flanges, caps and other tube fittings or the following stainless steel parts, you can refer to the above cases:
    Copper polishing
    What abrasive media are used for copper polishing
    How to polish the copper surface
    Copper polishing method
    Copper parts polishing in one go
    Copper mirror polishing method
    What is the best polishing method for copper
    How to polish copper to a mirror surface
    What are the methods for brass polishing
    Brass manual polishing
    Copper pipe deburring method
    What abrasive media are used to grind copper parts for deburring
    What machine is used to deburr copper products
    Rust removal of copper pipe fittings
    How to deal with rust on copper parts
    Copper rust cleaning

diaphragm seals deburring, turning lines removal and polishing technology method of rubber and plastic product parts

How to deburr,deflash,remove turning lines of rubber, plastic diaphragm seal parts?

The diaphragm seal is a key component of pneumatic pumps and valves, diaphragm pump valve bodies and other products. Its main function is to perform the sealing function. It has been widely used in petrochemical, electric power, aviation, machinery and textile, medical and other industries. The main materials are PTFE polytetrafluoroethylene, Teflon and other polymer materials. There are slight burrs and turning lines in the production process, which will affect the sealing performance of the product. How to mechanically remove burrs and turning lines on the surface and reduce the roughness is a very troublesome problem. In this case, we will share a PTFE sealing diaphragm product high-efficiency deburring, removal of turning lines to reduce the surface roughness of the process technology and method. This finishing process solution is also suitable for deburring, deflashing and polishing of polymer products made of other materials such as polyester and resin.

    • jerrylu
    • 2024-06-05
    • 0 Comments

     

Surface deburring, removing turning lines, finishing and polishing process for sealing diaphragms of rubber and plastic product parts

1. Plastic sealing diaphragm before polishing
burrs and turning tool lines of diaphragms sealing of plastic, rubber parts

Materials:

PTFE(polytetrafluoroethylene)

Appearance:

surface burrs and turning tool lines

Shape:

circular

Size:

D40*20 mm

Pre-polishing process:

injection molding

Post-polishing process:

packing

2. Finishing and polishing requirements
  • deburring, deflashing, removal of turning tool lines.
  • smooth surface with a roughness of Ra 0.5 or less.
3. Plastic sealing diaphragm polishing process details:
Polishing processes (1) deburring, removal of turning tool lines (2) reduce roughness of fine polishing (3) drying
Machine and equipment plastic parts polishing machine plastic parts polishing machine dryer
Speed highest highest highest
Abrasive media heavy cut ceramic deburring media porcelain polishing media no
Abrasive media to workpiece 4:1 6:1 no
Chemical compound cutting liquid fine polishing liquid no
Water appropriate amount,the liquid level is 30mm above the abrasive media appropriate amount,the liquid level is 30mm above the abrasive media no
Polishing time 30 minutes 30 minutes 5 minutes
Remark parts separated and picked up automatically, rinsed with water parts separated and picked up automatically, rinsed with water drying
4. The plastic sealing diaphragm removing turning tool lines after polishing
plastic,rubber parts sealing diaphragm deburring, removing turning lines
deburring,deflashing,removal of turning tool lines of plastic,rubber sealing diaphragm parts

5. Additional instructions
  • The burrs on the surface of the sealing diaphragm are relatively slight, but the turning tool lines are very deep. The rough finishing and polishing machine uses a special polishing machine for plastic products. Rough grinding uses coarse-grained abrasives media to achieve the effect of removing burrs and turning tool marks.
    Fine polishing uses precision finishing ceramic media with micro-cutting force and fine-grained tumbling media, which can further reduce the surface roughness.
  • After fine polishing, use an automatic separating machine to separate the product from the abrasive media, and then use a dryer to dry it after cleaning.

6. Final summary
  • In this case, we demonstrate the process solution of automated deburring, removing turning tool lines and polishing of a PTFE polytetrafluoroethylene sealing diaphragm product.
  • If you need professional technical support for the deburring, deflashing, removal of turning tool lines and polishing of PE polyethylene, PA polyamide, PP polypropylene, polytrifluoroethylene, polyvinylidene fluoride and plastic, rubber and other polymer material product parts or the following plastic accessories, you can refer to the above cases:
    Plastic product deburring and finishing method
    Plastic product deburring tool equipment
    How to deal with plastic product burrs
    CNC plastic hole bottom burr removal
    Injection molded parts deburring
    Plastic product deburring
    Plastic parts deburring
    How to remove plastic burrs
    How to grind off burrs on plastic products
    Quickly remove burrs from plastic products
    Plastic parts deburring process
    What is the best polishing method for deburring plastic parts
    How to deburr rubber products
    What to use for deburring rubber products
    How to quickly remove burrs from rubber products
    Rubber deburring process
    Rubber product polishing process
    Rubber product surface polishing
    What to use for polishing rubber
    How to polish rubber smoothly

Mechanical parts textile steel collar deburring, descaling, polishing and brightening process technology method

How to deburr, descale, polishing and brightening the textile steel collars of mechanical parts?

Steel collars, also called spinning rings, are important textile machinery parts in spinning mills. They are made of high-quality carbon steel, alloy steel, bearing steel and other materials. Since the textile process has high requirements for the surface roughness of steel collars, the surface polishing process of the product is particularly important. In this case, we will share a process technology and method for deburring, descaling, and fine finishing and polishing of high-precision bearing steel collars. This polishing process solution is also suitable for the surface polishing of textile steel rings or other machined parts made of hard metal materials.

    • jerrylu
    • 2024-06-03
    • 0 Comments

     

mirror polishing effect of deburring, derusting, descaling, brightening of textile steel collars for mechanical parts

1. The textile steel collar before polishing
Burrs and oxide scale on the surface of textile steel collars before polishing of mechanical parts

Materials:

bearing steel

Appearance:

edge burrs,surface oxide skin.

Shape:

circular ring

Size:

D46 MM

Pre-polishing process:

rolling

Post-polishing process:

packing

2. Finishing and polishing requirements
  • descaling, derusting
  • smooth, bright surface; no burrs, no oxide scale
3. Textile steel collar (spinning ring) polishing process details:
Process steps (1) deburring,descaling of rough finishing (2) fine polishing (3) centrifugal drying
Machinery and equipment centrifugal barrel finishing machine centrifugal barrel finishing machine centrifugal dryer
Speed highest highest highest
Tumbling media angle cut tri-star ceramic media 3P polishing media no
Abrasive media to workpiece ratio 4:1 6:1 no
Finishing and polishing compound finishing liquid polishing liquid no
Water appropriate amount,the liquid level is 30mm above the abrasive media appropriate amount,the liquid level is 30mm above the abrasive media no
Polishing time 30 minutes 30 minutes 5 minutes
Remark parts separated and picked up automatically, rinsed with water parts separated and picked up automatically, rinsed with water centrifugal drying
4. Textile steel collar (spinning ring) finishing and polishing effect
Mechanical parts textile steel collar (spinning ring) deburring, descaling, rough finishing and polishing effect
Mechanical parts textile steel collar (spinning ring) after deburring, descaling, polishinig and brightening

5. Additional instructions
  • The steel collar (spinning ring) is made of high-hardness bearing steel. The material hardness is very high, and the surface is required to meet the requirements of mirror polishing. Therefore, a polishing process solution combining rough finishing and fine polishing is adopted. The rough finishing adopts a centrifugal barrel finisher, and uses heavy cutting force angle cut tri-star tumbling media for rough deburring and descaling. The sharp angle of the tumbling media can reach into the grooves, corners, and inner walls to remove burrs and oxide layers.
    Fine polishing still use centrifugal barrel polishing machines, and the ceramic media uses special precision finishing media 3P polishing media. This abrasive media has a high density and light cutting force. It can improve the surface brightness on the basis of precision cutting and achieve the effect of mirror polishing.
  • In order to improve the anti-rust and anti-corrosion performance of the product after water treatment, it is immersed in a anti-rust liquid for anti-rust treatment after polishing. Finally, a spin dryer is used to dry the surface moisture and dry it.

6. Final summary
  • In this case study, we demonstrated the automated surface deburring, derusting, descaling and polishing process for a steel collar (spinning ring), a precision mechanical component used in the textile industry.
  • If you need professional technical support for the following textile machinery parts polishing issues, you can refer to the above cases:
    Polishing process for precision textile machinery parts
    Deburring process for precision textile machinery parts
    Mirror polishing of textile steel collars
    Polishing of cotton spinning steel collars
    Polishing of fine yarn steel collars
    Polishing of wire rings

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