CN104289777A - Environmentally friendly deburring process - Google Patents

Environmentally friendly deburring process Download PDF

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Publication number
CN104289777A
CN104289777A CN201310298993.0A CN201310298993A CN104289777A CN 104289777 A CN104289777 A CN 104289777A CN 201310298993 A CN201310298993 A CN 201310298993A CN 104289777 A CN104289777 A CN 104289777A
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CN
China
Prior art keywords
burr
deburring
workpiece
pulse power
electrolyte
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CN201310298993.0A
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Chinese (zh)
Inventor
张明
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Wuxi Huaye Iron & Steel Co Ltd
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Wuxi Huaye Iron & Steel Co Ltd
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Priority to CN201310298993.0A priority Critical patent/CN104289777A/en
Publication of CN104289777A publication Critical patent/CN104289777A/en
Pending legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23HWORKING OF METAL BY THE ACTION OF A HIGH CONCENTRATION OF ELECTRIC CURRENT ON A WORKPIECE USING AN ELECTRODE WHICH TAKES THE PLACE OF A TOOL; SUCH WORKING COMBINED WITH OTHER FORMS OF WORKING OF METAL
    • B23H3/00Electrochemical machining, i.e. removing metal by passing current between an electrode and a workpiece in the presence of an electrolyte
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23HWORKING OF METAL BY THE ACTION OF A HIGH CONCENTRATION OF ELECTRIC CURRENT ON A WORKPIECE USING AN ELECTRODE WHICH TAKES THE PLACE OF A TOOL; SUCH WORKING COMBINED WITH OTHER FORMS OF WORKING OF METAL
    • B23H9/00Machining specially adapted for treating particular metal objects or for obtaining special effects or results on metal objects
    • B23H9/02Trimming or deburring

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Grinding And Polishing Of Tertiary Curved Surfaces And Surfaces With Complex Shapes (AREA)

Abstract

The invention discloses an environmentally friendly deburring process. This process is an electrochemical deburring process. A workpiece is connected with an anode of a pulsed power supply. A tool electrode is connected with a cathode of the pulsed power supply. The electrolyte is added between the workpiece and the tool electrode. The pulsed power supply has a voltage of 24 V, a frequency of 500 HZ, and a current density of 24 A/cm<2>. The concentration of the electrolyte is NaCl 200 g/L. The temperature is 28 degrees centigrade. The electrifying time is 2 min. The process has simple equipment, convenient operation, high deburring efficiency, and good quality, and is green and environmentally friendly. The surface roughness of the part can reach Ra 0.8 um. The process is suitable for conducting material like stainless steel and aluminum alloy and has wide application range.

Description

Environmental protection debarring process
Technical field
The present invention relates to environmental protection debarring process.
Background technology
Burr, refers in process of metal working, at the irregular metallic member such as various wedge angles, burr that surface of the work transition position occurs.Metal cutting process, with regard to its essence, refers to and is cut layer metal produces shearing slip under the rake face of cutter and the effect of cutting edge deformation process through being squeezed.Layer metal that be cut on the position such as limit, angle, rib of workpiece produces larger plastic deformation in working angles, and make one some retention on the positions such as the limit of workpiece, angle, rib in chip and surface of the work rupture the process that is separated, define cutting burr.Metal Cutting Burr has multiple different form, and according to the burr taxonomic hierarchies being benchmark with cutting movement and Tool in Cutting sword, cutting burr can be divided into two side-direction burr, feed-direction burr and cutting direction burr three major types.Wherein feed-direction burr and cutting direction burr can be subdivided into again incision and cut out two kinds of forms; Two side-direction burr also can be divided into along the Side burrL of main cutting edge flowing and the Side burrL along front cutting edge flowing, namely always has six kinds of burr formations.
Through the piece surface of machining, particularly two surperficial intersections, often produce burr.Though burr is little, endanger very large.It not only affects the precision of part, and affects the reliability of complete machine.The installation of jagged part is used, and is the one of the main reasons that engineering goods produce fault.The existence of various burr brings following problem to the processing of part, assembling, inspection, properties of product, service life and safety and outward appearance etc.:
(1) dimensional accuracy of workpiece, form accuracy and surface roughness is affected;
(2) location of destruction or impact lower road manufacturing procedure;
(3) certainty of measurement of impact or interference workpiece;
(4) in assembly process, directly affect assembly quality, even cannot normally assemble time serious;
(5) in the processing and transportation of workpiece (or parts), the safety of operator is constituted a threat to, or causes certain injury etc.;
(6) in process, burr comes off suddenly and often causes wane (being also referred to as negative burr), causes workpiece size overproof or make it scrap;
(7) for hydraulic system element, if burr comes off, burr will be present in each Hydraulic Elements small working clearance, cause guiding valve stuck, make loop or filter net jam and cause the accident, also can cause fluid turbulence or laminar flow, reduce the service behaviour of system.Japan hydraulic pressure expert thinks, the reason affecting hydraulic part performance and life-span has 70% to be that burr causes.If hydraulic transmission part, Pneumatic Transmission element are with jagged, will directly affect its working effect and serviceability;
(8) for transformer, increase 20--90% with jagged iron core than the iron loss unshakable in one's determination of deburring, and strengthen with the increase of frequency, directly affect its working effect and serviceability;
(9) in use, when the machine that there is burr does mechanical movement or vibrations, the burr come off may cause machine slides surface premature abrasion, noise increases, transmission is obstructed, is destroyed transmission stability etc., mechanism blockage can be made time serious, action is malfunctioning, the faults such as electrical short-circuit occur, and become one of direct hidden danger causing accident;
(10) burr is carried out removing processing and usually become the one of the main reasons increasing work pieces process cost;
(11) sale etc. of surface of the work aesthetics, product is directly affected;
(12) easily crack with during jagged heat treatment of workpieces, thus reduce the fatigue strength of workpiece.Meanwhile, the sclerosis of burr and to come off be the source that crackle starts, therefore burr also may reduce the service life of workpiece.Statistic analysis result shows, deburring operation to account for during work pieces process chief engineer 5%-10% man-hour used.Deburring investment accounts for 20% of gross investment, and the U.S. spends in every year and removes expense on part burr all more than 2,000,000,000 dollars, and some times are up to 6,000,000,000 dollars.In this ratio, the expense that China is used for deburring is also quite objective.Therefore, in order to ensure the high-quality of product, deburring is paid much attention to both at home and abroad.
Along with the raising of industrialization and automatization level, field of machining, particularly aerospace instrumentation manufacture field, the machine components accuracy of manufacture requires more and more higher, service condition is more and more harsher, and many inside parts do not allow to leave any burr, in order to avoid cause fault.Meanwhile, mechanism design is tending towards microminiaturized, complicated, and the difficulty of deburring is increasing, and the technique of traditional-handwork deburring can not meet the demands far away, and the harm of burr is particularly evident, causes the great attention of people gradually.Burr Problem not only becomes model change, improves quality, the most important factor reduced costs, and is realize production process mechanization, automation, intelligentized one large obstacle.Therefore, deburring has become the critical process in part process.In the face of the various product existence of Yin Maoci and all accidents of occurring in actual applications, propose the concept of deburring, and also more and more higher to the technological requirement of deburring.Meanwhile, a new subject-deburring engineering is defined gradually.The U.S., Japan and the country such as German propose " burr engineering " (Burr Engineering) or " burr technology " (Burr Technology), and develop rapidly.Also establish deburring employer's organization at home, hold regularly internal and international meeting, also drafted the national standard of the blanking part burr height limit, and be widely used in manufacturing.To the real understanding of burr technical significance, start from Larrux Mr. K.Gillepie of the Bendix company of the U.S., he the Americanized SE (SME) of 1974 set up burr technical point can meeting be made a speech time, first employ this term of burr removal technology.As time goes on, in the world when exploring this technology, often be combined exchange with seamed edge (edge), surface finishing technology (Surface Finishing Technology), so this branch was formally renamed as burr, seamed edge and Surface Finishing branch (Burr Edge & Surface Finishing Technique) afterwards referred to as BEST.With the name that U.S. BEST learns, within 1975, hold first time international seminar in the U.S., then held at 1976,1977, every two years hold once later.
Deburring process should spend a large amount of man-hours, and the production cost of part can be made again to increase.In order to solve the problem of burr, various burr removing method arises at the historic moment.Debarring process is developed by the manual mode to special-purpose machinery, automation.According to rough Statistics, the method for deburring in 1972 also only has 22 kinds, within 1980, is increased to about 50 kinds, and up to the present, burr removing method has reached kind more than 80.According to process principle, burr removing method can be divided into six large classes that are mechanical, abrasive particle, chemistry, electricity, heat energy and magnetic force.
Although the method for deburring is a lot, when selecting will according to the economic effect of the position of the material behavior of workpiece, shape, size, machining accuracy, production lot and burr, size, hardness and deburring with realize possibility and consider.Whether the selection of burr removing method is appropriate, is directly connected to effect and the processing cost of deburring.List several main burr removing method below:
(1) cylinder polishing
A certain proportion of workpiece and abrasive material are placed in cylinder, then close, in cylinder rotation process, make part and abrasive material produce grinding, between part and part, also produce grinding, thus remove burr.In order to raise the efficiency, not only allow cylinder turn round, and make it reach centrifugal flow, certainly revolve round the sun and move up and down, the revolution of positive and negative high speed, up and down back and forth, swirling motion, spout motion etc., make better relative motion between workpiece and abrasive.This equipment price is cheap, and production efficiency is high, is suitable for removing the burr of the good various workpiece of rigidity and stamping parts and forging, the overlap of casting blank and burr.Thickness is not easily adopted at below 0.5mm and the yielding part of appearance.
(2) high temperature deburring (heating power deburring)
Part is loaded in combustion chamber, after sealing, the hydrogen of certain volume ratio and oxygen are passed into combustion chamber, through ignition, produce instantaneous high-temperature, high pressure and shock wave.At high temperature, because its volume is little, surface area is rapidly heated to greatly from melting temperatur the burr of part, and with remaining oxidative synthesis oxide and self falling, thus remove burr.In contrast, because compole during detonation is short, the base metal volume of part is large, and surface area is little, and temperature rise is limited, is not enough to the change causing matrix material physical property, does not thus injure part.The great advantage of heating power deburring is can the burr at the position such as processing blind hole, Fine and Deep Hole, cross bore, narrow slot.For the part of unlike material, only need adjusting process parameter, do not need to change working media, effectively can control product quality.Such as, but this method also has limitation, be unsuitable for low melting point alloy, if the face of part, volume ratio excessive (being greater than 20), then can burn out part itself while deburring, the general thickness removing burr should be less than more than ten times of material thickness.At present, due to the restriction of combustion chamber dimensions, appearance and size greatly or very long part be all not suitable for deburring in this way.The tender burning room of heating power flash trimmer of domestic production is of a size of maximum gauge 250mm, maximum height 300mmp.
(3) brusher deburring
Various forms of brush made by employing such as the materials such as the nylon yarn of steel wire, copper wire, embedding abrasive particle, can change brush, realize workpiece deburring and skin processing as tool changing tool.Brush deburring can realize Flexible Manufacture, both can remove burr, also can not damage finished surface.According to the shape of inside and outside finished surface, various types of metallic brush and nylon bruss can be made, thus wide adaptability.But this method is difficult to be applied in cuts the inconsistent part of shape.In addition, the finished surface that scrub-brush is formed often is not easy to process subsequently.
(4) extrusion honing deburring (abrasive flow processing)
Adopt a kind of viscosity abrasive material of half flow regime containing abrasive particle, be placed in a grinding chamber, respectively there is a cylinder at two ends, make jelly back and forth through part to be processed die cavity, part in this reciprocal flow process of abrasive material, be subject to maximum retardance place have larger corrosive power and by die cavity and orifice edge burr remove.Its major advantage is, burr all can be removed in the place of every abrasive flows warp, can remove the burr of complex parts, not produce high temperature, does not form the rear residual stress and strain layer of processing, more can not produce secondary burr.But the method is also restricted, the minimum-value aperture such as processed is 0.35mm, and the maximum gauge of burr is 0.3mm, and the maximum radius of chamfered edge is 1 ~ 1.5mm, and surface roughness Ra is greater than 0.2 μm.This method is unsuitable for processing very long part and removes burr in blind hole.
(5) magnetic finishing
Hold magnetic abrasive follow procedure on machined surface by magnetic force to move and carry out skin processing.Add man-hour, ferromagnetism abrasive material and workpiece are placed between two magnetic poles.When forming D.C. magnetic field between two magnetic poles, ferromagnetism abrasive material forms magnetically grinding brush.Make magnetic pole or workpiece rotate and vibrate, thus make abrasive brush produce relative motion to workpiece, play the effect of grinding workpiece surface, to reach the object of deburring and polishing.Its application surface is very wide, and the shape hardly by part limits, and as end face, cylindrical, inner circle, plane, sphere, curved surface etc. can carry out grinding and polishing, is removed by burr simultaneously.
(6) water sprays deburring
The impact energy utilizing the water under high pressure sprayed in special nozzle to cause removes burr.This method is very effective to the burr removing deep hole and small diameter bore, is particularly suitable for the multiple burr that removal complicated shape part is formed after the machining operation.Water injection deburring can remove the multiple burr on complicated shape part, but this method needs special equipment, costly, is applicable to the production that batch is large.Abrasive material classification requires strict, and need control dust.
Summary of the invention
The object of the invention is to propose a kind of environmental protection debarring process.
For reaching this object, the present invention by the following technical solutions:
(1) a kind of environmental protection debarring process, this technique is electrochemical deburring technique, workpiece connects the positive pole of the pulse power, tool-electrode connects the negative pole of the pulse power, electrolyte is added between workpiece and tool-electrode, comprise: the voltage of the pulse power is 24V, the frequency of the pulse power is 500HZ, current density 24A/cm 2, concentration of electrolyte is NaCl 200g/L, temperature 28 degree, conduction time 2min.
(2) according to the method for step (1), workpiece needed through oil removing, processing of rust removing before access pulse power negative pole.
(3) according to the method for step (2), electrolyte needs to use Ultrasonic Cleaning 30s after chemical deburring.
Detailed description of the invention
Embodiment 1
(1) workpiece needed through oil removing, processing of rust removing before access pulse power negative pole.
(2) a kind of environmental protection debarring process, this technique is electrochemical deburring technique, workpiece connects the positive pole of the pulse power, tool-electrode connects the negative pole of the pulse power, electrolyte is added between workpiece and tool-electrode, comprise: the voltage of the pulse power is 24V, the frequency of the pulse power is 500HZ, current density 24A/cm 2, concentration of electrolyte is NaCl 200g/L, temperature 28 degree, conduction time 2min.
(3) method according to claim 1, is characterized in that, electrolyte needs to use Ultrasonic Cleaning 30s after chemical deburring.
Embodiment 2
(1) workpiece needed through oil removing, processing of rust removing before access pulse power negative pole.
(2) a kind of environmental protection debarring process, this technique is electrochemical deburring technique, workpiece connects the positive pole of the pulse power, tool-electrode connects the negative pole of the pulse power, electrolyte is added between workpiece and tool-electrode, comprise: the voltage of the pulse power is 10V, the frequency of the pulse power is 1500HZ, current density 8A/cm 2, concentration of electrolyte is NaNO 3100g/L, temperature 50 degree, conduction time 1.5min.
(3) method according to claim 1, is characterized in that, electrolyte needs to use Ultrasonic Cleaning 60s after chemical deburring.
Embodiment 3
(1) workpiece needed through oil removing, processing of rust removing before access pulse power negative pole.
(2) a kind of environmental protection debarring process, this technique is electrochemical deburring technique, workpiece connects the positive pole of the pulse power, tool-electrode connects the negative pole of the pulse power, electrolyte is added between workpiece and tool-electrode, comprise: the voltage of the pulse power is 10V, the frequency of the pulse power is 500HZ, current density 12A/cm 2, concentration of electrolyte is NaNO 350g/L+Na 2sO 430g/L, temperature 22 degree, conduction time 0.5min.
(3) method according to claim 1, is characterized in that, electrolyte needs to use Ultrasonic Cleaning 70s after chemical deburring.

Claims (3)

1. an environmental protection debarring process, this technique is electrochemical deburring technique, it is characterized in that workpiece connects the positive pole of the pulse power, tool-electrode connects the negative pole of the pulse power, electrolyte is added between workpiece and tool-electrode, comprise: the voltage of the pulse power is 24V, the frequency of the pulse power is 500HZ, current density 24A/cm 2, concentration of electrolyte is NaCl 200g/L, temperature 28 degree, conduction time 2min.
2. environmental protection debarring process according to claim 1, is characterized in that, workpiece needed through oil removing, processing of rust removing before access pulse power negative pole.
3. environmental protection debarring process according to claim 1, is characterized in that, electrolyte needs to use Ultrasonic Cleaning 30s after chemical deburring.
CN201310298993.0A 2013-07-16 2013-07-16 Environmentally friendly deburring process Pending CN104289777A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107999915A (en) * 2017-12-18 2018-05-08 江苏大学 The elongated hole burr removing method that burr burns under pure oxygen environment is triggered based on high-voltage pulse current

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107999915A (en) * 2017-12-18 2018-05-08 江苏大学 The elongated hole burr removing method that burr burns under pure oxygen environment is triggered based on high-voltage pulse current

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Application publication date: 20150121