CN101862916A - Method for improving wear resistance and toughness of large wear resistant part in welding and fusing - Google Patents

Abstract

The invention relates to a method for improving the service life of wear resistant parts of large mechanical equipment used under the industrial and mining conditions of friction and wear as well as particle abrasion and a manufacturing and processing technology. The method imitates a coupling structure of a biosome in quite a deep area on the worn surface of a mechanical part, processes and manufactures a groove or a pit with a certain depth and width, and fully fills the space in the groove or the pit with special or common welding rods through welding and fusing technologies so as to manufacture a bionic coupling unit body. A bionic coupling area in a bionic object structure with hard parts and soft parts at intervals is formed by a bionic coupling unit body area and a work piece original composition area, and the surface is the bionic coupling unit bodies. The method effectively solves the defect that the toughness and the wear resistance of wear resistant material cannot be achieved simultaneously, overcomes the conflict that the wear resistant parts sacrifice wear resistance in order to ensure the toughness or sacrifice toughness in order to ensure the wear resistance so that the service life of the wear resistant parts is greatly improved, simultaneously greatly reduces the production cost and improves the production efficiency.

Description

A kind of welding consolidation improves large wear resistant part wearability and toughness method

Technical field

The present invention relates to the manufacturing process technology of the heavy mechanical equipment wearing piece service life that under fretting wear and abrasive wear working condition, uses.Also relate to a kind of method that improves parts wearability and toughness simultaneously.

Background technology

It is indispensable technical process in a lot of industries (as metallurgy, mine, building materials, thermal power plant, chemical industry, pottery, build the road etc.) production that material particles reduces.Granularity reduces to finish by comminution process (comprising fragmentation and grinding).For finishing the mechanical wearing piece of comminution process (as liner plate, grinding roller, cylinder, die casting etc.), it is because of using repeatedly, and long-term rubs with material, and makes component failure because of abrasive wear.Grinding roller with ball mill is an example, when the ball mill grinding material, cylinder rotates, material and grinding roller produce violent friction, grinding roller produces the surface fatigue wearing and tearing, mainly be since abrasive particle in irregular shape roller surface carry out repeatedly ditch dug with a plow, roll, cause crackle to form expansion, with sheet abrasive dust breaking releasing, this granule size with abrasive particle is relevant at last.The coal pulverizer pulverized coal preparation system is as the main system in burning power station, and its operation conditions is directly connected to boiler on-load ability and stove internal combustion stability, and wherein grinding roller is main vulnerable part.Because the fretting wear that grinding roller had both born coal under arms, the heavily stressed contact fatigue effect of bearing coal again particularly is subjected to both associating reciprocation, makes that the service life of grinding roller is very short, and under some harsh working condition, the life-span has only three to four months.Particularly because Power Plant in China burning ature of coal is relatively poor, impurity such as iron block, stone, wooden unit are more, cause the grinding roller wearing and tearing more serious, because the grinding roller serious wear, make coal pulverizer under low power output situation, move for a long time, cause boiler coal-grinding reserve factor wretched insufficiency.For many years, the wearing and tearing of wearing piece have caused the loss of sizable human and material resources and the shutdown of boiler, the unit that cause are thus sent out less, not send out the indirect economic loss that causes bigger.Traditional research method is to deal with problems from whole parts or whole parts surface, whole parts or whole parts surface are improved, but it can not solve the defective that high-abrasive material toughness and wearability can not get both effectively, be produced as the toughness that guarantees wear parts and sacrifice wearability or for guaranteeing that wearability sacrifices the unvanquishable like this contradiction of toughness, make that the wearability raising is little or production cost is too high, thereby the service life of how to improve wearing piece, be an extremely urgent difficult problem.

Summary of the invention

The objective of the invention is to break through tradition is handled improvement from whole or whole surface method, propose a kind of more reasonable, effective welding consolidation and improve large wear resistant part wearability and toughness method, exploitation prepares cell cube forms the soft and hard alternation coupled structure zone of mimic biology body at the certain thickness working surface of wearing piece manufacturing technology by welding forming.It has solved the defective that high-abrasive material toughness and wearability can not get both effectively, overcome wear parts for guaranteeing toughness and sacrifice wearability or for guaranteeing that wearability sacrifices the contradiction of toughness, the service life of wear parts is increased substantially, also reduce production costs greatly simultaneously, enhance productivity.Advantage such as have that processing technology is simple, dependable performance, processing cost are low.

Above-mentioned purpose of the present invention can be achieved through the following technical solutions:

A kind of welding consolidation improves large wear resistant part wearability and toughness method, adopts following steps:

A) according to wear parts instructions for use and size, imitation forms the soft and hard alternation coupled structure of organism, physical dimension and distribution to parts surface pit and groove cell cube design, the physical dimension of groove is: wide 3-25mm, dark 3-25mm, spacing 3-25mm, the diameter of pit, dark and spacing are 3-25mm; The pit of parts surface or groove distribute by latticed or parallel strip, or groove and pit mixed distribution;

B) welding material of selected cell body according to the service life of part requirement, selects common material welding rod or specific alloy material welding rod or selection to produce the wear-resisting welding material that uses and preset to welding rod;

C) adopt method manual or the machinery welding, adjust welding condition according to selected alloy, again according to the pit that presets or selected welding wire of groove width or electrode size, its diameter is less than or equal to 1/2nd of the pit that presets or groove width, be filled in the pit or groove that presets selected gold alloy solder wire bond is molten, the cell cube after the filling is higher than parts surface 0-3mm.

The physical dimension of described parts surface pit and groove cell cube and distribution click and require to determine: the service life of part requirement is high more, size is big more, and the width of pre-pit or groove and the degree of depth should be big more, and distribution should be close more.

Described specific alloy material welding rod comprises: golden rich chromium cast iron C 1.5-5.2, Cr 30-39, Si＜0.8, Mn＜0.8, S, P＜0.08, B 0-0.2% rare earth element 0-0.32%, high-carbon vanadium high-speed steel C 1.7-3.2, Cr 4-5, Mo4-5, W 4-5, V 3-10, Si, Mn＜0.35, S, P＜0.03.

The pit of described parts surface and groove cell cube distribute and adopt the structure of soft and hard alternation, and described parallel strip is by being 0～90 arranged distribution with the component axes angle.

The pit of described parts surface and groove cell cube are pressed single size and are evenly distributed or the different size mixed distribution.

The pit of described parts surface and groove cell cube or by row's groove one row pit cross-distribution, or by two row's grooves, two row's pit cross-distribution, or by row's groove two row's pit distribution, perhaps by two row's grooves, one row's pit cross-distribution.

The anti-surface fatigue wearing and tearing and the abrasive wear behavior that improve material and product thereof are the focuses of research always, but the working environment of part is extremely abominable and be aided with fatigue wear the complex nature of the problem because this class is milled, and the result improves little and cost greatly improves the service life of often parts.Biological evolution through 1 years not only can adapt to nature, and its evolution degree is near perfect, and their some marvellous functions are considerably beyond the previous design of mankind itself, and becomes the answer that solves the problem job problem gradually.The biology (as shell, leaf, dragonfly wing etc.) that has excellent anti fatigue by observation of nature circle finds that they have closely similar feature: 1. they all have the structure that soft or hard alternates; 2. can there be different distributional patterns hard unit self in this structure; 3. the relative high rigidity of hard unit is all from the composition material or the institutional framework difference of itself and soft unit.The organic coupling of this form, structure and composition material makes biology have excellent mechanical property and crack arrest anti-fatigue effect.

The present invention proposes the deposited technology of welding that adopts thus, be processed to form hard unit in the similar organism on the wearing piece top layer, obtain its tissue and be different from parent, mechanical performance, hardness etc. be much higher than parent the high-wear-resistant alloy metal material cell cube and as increased the firm dowel pin or the special construction of reinforcement on the parts top layer.Concrete way is at first to adopt the surface of the method for machining at parts, processes groove or the pit and the arrangement according to certain rules of similar organism muscle, arteries and veins distribution, and the direction that groove is arranged is 0～90 ° for the angle with component axes.Again with producing wear-resisting welding material or certain particular alloy material such as the rich chromium cast iron that uses, high-speed steel etc. preset to welding rod, adopt the method for welding, the particular alloy welding rod is filled in the pit that presets or the groove finishes filling, be set in the surface together rapidly after making the fusing of alloy material and mother metal, make it to be higher than parts surface 0-3mm, obtain the bionical coupling regime of mimic biology body surface soft and hard alternation, welding is filled into the bionical coupling unit body that different types of alloy forms in the groove (hole), have than base material better intensity and wearability, it is the state of single chemical composition and tissue that this method has changed the parts top layer, become the structure of soft and hard alternation, the toughness and the wearability that are originally single chemical composition and organization material are greatly improved, thereby make the toughness of parts also improve wearability simultaneously.This method is compared with original laser melting method, maximum characteristics are exactly can the degree of depth deposited and large volume is deposited, the degree of depth of pit or groove can increase to 25mm, width also can increase to 25mm, therefore the degree of depth and the bigger bionical cell cube of volume can be prepared, the little deficiency of the shallow or deposited cell cube of laser cladding technology overlay in the past can be remedied greatly, for the big machinery wear parts, can enhance productivity greatly

The specific embodiment

Table 1. is to be the example of object with MPS type medium-speed pulverizer.

Table 1, MPS type medium-speed pulverizer application example

Condition	The filling slot width	The filling slot degree of depth	Welding rod material	Height of projection	Filling slot distributes	Spacing	With the component axes angle	Result of use
									??1	??3mm	??3mm	Rich chromium cast iron 1	??1mm	Parallel strip	??3mm	??90	1.5 doubly
??2	??3mm	??3mm	Common welding rod	??2mm	Parallel strip	??4mm	??60	1.3 doubly
									??3	??4mm	??3.5mm	High-carbon vanadium steel 1	??3mm	Parallel strip	??3mm	??45	1.8 doubly
??4	??5mm	??5mm	Common welding rod	??3mm	Latticed	??6mm	??30	1.4 doubly
									??5	??6mm	??6mm	High-carbon vanadium steel 2	??0mm	Parallel strip	??3.5mm	??60	1.8 doubly
??6	??7mm	??4mm	Rich chromium cast iron 3	??1.5mm	Latticed	??5mm	??0	2.1 doubly
									??7	??7mm	??6mm	Common welding rod	??2.5mm	Parallel strip	??6mm	??90	1.6 doubly
??8	??9mm	??8mm	Rich chromium cast iron 2	??3mm	Latticed	??10mm	??30	1.6 doubly
									??9	??10mm	??8mm	Common welding rod	??1mm	Parallel strip	??8mm	??60	1.7 doubly
??10	??10mm	??10mm	High-carbon vanadium steel 3	??0mm	Parallel strip	??8mm	??45	1.6 doubly
									??11	??3m	??3.0mm	Rich chromium cast iron 1	??2mm	The hole shape	??6.5mm		1.5 doubly
??12	??10mm	??8mm	High-carbon vanadium steel 1	??3mm	The hole shape	??7mm		2.0 doubly
									??13	??9mm	??13mm	Rich chromium cast iron 2	??3mm	Irregular strip	??10mm		1.4 doubly
??14	??13mm	??12mm	Common welding rod	??2mm	Latticed	??11mm		1.5 doubly
									??15	??15mm	??14mm	Common welding rod	??2.5mm	Parallel strip	??13	??30	1.6 doubly
??16	??15mm	??15mm	Common welding rod	??1mm	The hole shape	??15mm		1.8 doubly

Condition	The filling slot width	The filling slot degree of depth	Welding rod material	Height of projection	Filling slot distributes	Spacing	With the component axes angle	Result of use
									??17	??20mm	??18mm	High-carbon vanadium steel 3	??0mm	The hole shape	??15mm		2.0 doubly
??18	??20mm	??20mm	Rich chromium cast iron	??3mm	Latticed	??20mm		2.2 doubly
									??19	??25mm	??4mm	Common welding rod	??2mm	The hole shape	??5mm		1.5 doubly
??20	??25mm	??25mm	High-carbon vanadium steel 2	??0mm	Latticed	??15mm		2.3 doubly
									??20	??25mm	??25mm	Rich chromium cast iron 3	??3mm	Parallel strip	??25mm		2.2 doubly

Annotate: the composition of rich chromium cast iron, high-carbon, vanadium high-speed steel is listed as follows

The chemical composition Wt% of table 2. rich chromium cast iron welding rod

Rich chromium cast iron	??C	??Cr	Rare earth	??Mn、Si	??S，P	??B
							No. 1	??1.51.6	??3032	??0	Less than 0.8	Be not more than 0.08	??0
No. 2	??3.53.7	??3032	??0.30.32	Less than 0.8	Be not more than 0.08	??0.1
							No. 3	??5.05.2	??3739	??0.30.32	Less than 0.8	Be not more than 0.08	??0.2

The chemical composition Wt% of table 3. high-carbon, vanadium high-speed steel welding rod

High-carbon steel	??C	??Cr	??Mo	??W	??V	??Si，Mn	??S，P
								No. 1	??1.71.9	??45	??45	??45	??9.510	Be not more than 0.35	Be not more than 0.03
No. 2	??2.52.5	??45	??45	??45	??66.5	Be not more than 0.35	Be not more than 0.03
								No. 3	??3.03.2	??45	??45	??45	??33.5	Be not more than 0.35	Be not more than 0.03

Claims (6)

1. a welding consolidation improves large wear resistant part wearability and toughness method, it is characterized in that, adopts following steps:

A) according to wear parts instructions for use and size, imitation forms the soft and hard alternation coupled structure of organism, physical dimension and distribution to parts surface pit and groove cell cube design, the physical dimension of groove is: wide 3-25mm, dark 3-25mm, spacing 3-25mm, the diameter of pit, dark and spacing are 3-25mm; The pit of parts surface or groove distribute by latticed or parallel strip, or groove and pit mixed distribution;

B) welding material of selected cell body according to the service life of part requirement, selects common material welding rod or specific alloy material welding rod or selection to produce the wear-resisting welding material that uses and preset to welding rod;

C) adopt method manual or the machinery welding, adjust welding condition according to selected alloy, again according to the pit that presets or selected welding wire of groove width or electrode size, its diameter is less than or equal to 1/2nd of the pit that presets or groove width, be filled in the pit or groove that presets selected gold alloy solder wire bond is molten, the cell cube after the filling is higher than parts surface 0-3mm.

2. a kind of welding consolidation according to claim 1 improves large wear resistant part wearability and toughness method, it is characterized in that, the physical dimension of described parts surface pit and groove cell cube and distribution click and require to determine: the service life of part requirement is high more, size is big more, the width of pre-pit or groove and the degree of depth should be big more, and distribution should be close more.

3. a kind of welding consolidation according to claim 1 improves large wear resistant part wearability and toughness method, it is characterized in that, described specific alloy material welding rod comprises: golden rich chromium cast iron C 1.5-5.2, Cr 30-39, Si＜0.8, Mn＜0.8, S, P＜0.08, B 0-0.2% rare earth element 0-0.32%, high-carbon vanadium high-speed steel C 1.7-3.2, Cr 4-5, Mo4-5, W 4-5, V 3-10, Si, Mn＜0.35, S, P＜0.03.

4. a kind of welding consolidation according to claim 1 improves large wear resistant part wearability and toughness method, it is characterized in that, the pit of described parts surface and groove cell cube distribute and adopt the structure of soft and hard alternation, and described parallel strip is by being 0～90 arranged distribution with the component axes angle.

5. a kind of welding consolidation according to claim 1 improves large wear resistant part wearability and toughness method, it is characterized in that, the pit of described parts surface and groove cell cube are pressed single size and evenly distributed or the different size mixed distribution.

6. a kind of welding consolidation according to claim 1 improves large wear resistant part wearability and toughness method, it is characterized in that, the pit of described parts surface and groove cell cube or by row's groove one row pit cross-distribution, or by two row's grooves, two row's pit cross-distribution, or by row's groove two row's pit distribution, perhaps by two row's grooves, one row's pit cross-distribution.