CN1990891A - Hard-surface welding alloy containing multi-component - Google Patents

Abstract

The invention relates to a multiple element hard surface welding alloy, The components and their atom proportion are as follows: iron a%, 5%<= a%<= 35%, nickel b%, 5%<= b%<= 35%, chromium c%, 5%<= c%<= 35% manganese d%, 5%<= d%<= 35%; and a%+ b%+ c%+ d% <= 100%. The proportion of each element in alloy is less than 35%. The invention employs concept of multiple element to allocate the components in the alloy to reach maximum utility. The welding material is characterized by low operation temperature, good physical strength resistance, acid and base resistance, oxidation resistance and packing interface.

Description

A kind of hard-surface welding alloy containing multi-component

Technical field

The present invention relates to a kind of metallic substance, particularly relate to a kind of hard-surface welding alloy containing multi-component.

Background technology

Progress along with the metallic substance research and development, metallic substance possesses characteristics such as high strength, high tenacity, high working property, low price, therefore metallic substance is widely used, no matter be machinofacture, Mould Machining, construction industry, shipbuilding industry, automotive industry etc., its usage quantity is all very huge, therefore cause the demand of global metallic substance to continue to increase, become the structured material that materials are maximum and utilization is the widest.But because the cleanliness factor of present metal material surface increases, roughness reduces, so the joint between the metallic substance needs better welding efficiency.

Most parts equipment generation failure mode is not to result from fracture damage, but leads because of in individual part indirectly and the result that produced of wearing and tearing, therefore how effectively to overcome between the assembly because the problem that produced of abrasion mutually is a very important problem.In addition with regard to present Working environment, many machine components such as pressure die-casting machine, forge facility, copper cash rolling equipment, squeeze type equipment cold-rolling mill etc., all need be among the pyritous environment Job Operations, so it must be in the face of more harsh high temperature abrasion test; And hardness of metal materials obviously descends under the pyritous environment, and tensile strength variation and softening situation are serious, so it selects for use the weldering cover material material of stiff dough weldering to become more important.

Solve the shortcoming of metallic substance under hot environment at present, increase its abrasion-resistant surface consumption physical properties, the stiff dough technical finesse is one of efficient method, generally speaking utilize similar production process processing such as welding, hot surfacing, can reduce the losses that other reason caused such as abrasion, corrosion effectively.

The stiff dough technical finesse is the application according to material, promoted the development of stiff dough technology and perfect, stiff dough wlding material can be divided into by its character: ferrous alloy, nickel-base alloy, cobalt base alloy, stupalith, self-fluxing alloy, tungsten carbide material, specific alloy material, matrix material etc.; Form according to the product of stiff dough wlding material can be divided into: alloy silk, powdered alloy and composite powder, ceramic powder, metal ceramic powder, nanometer powder, band, bar, uncoated electrode, welding electrode, tubular electrode, tubular filament, flexible cord etc.

For example U.S. Pat 4728493, the atom of this patent formulation and per-cent thereof are chromium (Cr) 45-60%, nickel (Ni) 25-44%, molybdenum (Mo) 6.5-12%, columbium (Cb) 2.0-4.5%, carbon (C) 1.5-2.8%, sulphur (S) 0.4-1.2%, it belongs to the croloy is main component, be applicable among the environment that subjects under the aqueous vapor environmental attack, therefore the stiff dough building materials that can be used for drilling platform, the constitutive requirements of its stiff dough character are to rely on carbon and the heavy metal element that adds in its prescription, utilizing the generation carbide to separate out increases stiff dough intensity, and the main mechanism of its rust protection is the heavy addition that relies on the chromium element.

In addition, for the demand of contact surface hardness, also having patent extensively to adopt ferrous alloy is prescription main component, for example U.S. Pat 5431136 and US4810464.Wherein emphasize can be under the situation of not using aluminium element and boron for US5431136, be suitable for the stiff dough weldering of the brill oil head of drilling platform, its system component is except iron, other atom and per-cent thereof are respectively carbon (C) 1.3-2%, chromium (Cr) 19-23%, molybdenum (Mo) 8-11%, nickel (Ni) 17-21%, manganese (Mn) 6-13%, silicon (Si)＜0.5%, oxygen (O)＜0.06%, are too to rely on carbide to separate out to increase stiff dough intensity.US4810464 emphasizes not use the situation of cobalt element to be issued to the ferrous alloy component prescription of same rigidity, its component prescription is except iron, other atom and per-cent thereof are respectively boron (B) 3-5%, nickel (Ni) 27-43%, silicon (Si) 0.1-5%, carbon (C) 0.2-1.5%, manganese (Mn) 0.1-2% and about 10% chromium (Cr), it utilizes boride and carbide to separate out increases stiff dough intensity, but must utilize its alloy formula powder of plasma treatment in its stiff dough welding rod manufacturing processed in a vacuum, so its welding rod volume production production process complexity is difficult to effective extensive application.

It is main component that U.S. Pat 6793878 belongs to the cobalt base alloy, possesses the wear-resisting and anti-oxidation characteristics of high-temperature stable.It is main component that U.S. Pat 4331741 then belongs to the nickel-base alloy, possesses the high-temperature stable antiwear characteristic, its system component is except nickel, other atom and per-cent thereof are respectively chromium (Cr) 27-30%, molybdenum (Mo) 7-9.5%, tungsten (W) 4-6%, manganese (Mn) 0.75-1.3%, titanium (Ti) 0.05-0.5%, columbium (Cb) 0.2-0.75%, carbon (C) 1.2-1.8%, silicon (Si) 1-1.75%, iron (Fe)＜5%, it utilizes carbide to separate out with the formation of wolfram varbide increases stiff dough intensity, but in its welding rod manufacturing processed, need be used the alloy formula powder of specific size, and need utilize the plasma processing operation in a vacuum, so low a large amount of commercial uses of the easily manufactured property of its welding rod there is its difficulty.

And for example TaiWan, China patent TW567230 discloses the notion that the high-irregularity multi-element alloy material uses, but it does not do the guarantee of its interest field at stiff dough weldering purposes.

The moiety of stiff dough wlding material can fully overcome its residing severe environment, also is that its moiety is allocated at specific environment, and expectation can reach specific functions such as preventing corrosion, oxidation.

Therefore, if the weldering cover material material of stiff dough weldering selects improper meeting to cause weldering to cover shortcomings such as bad, weldering coating and base material associativity be bad, so the selection of welding the cover material material has its importance.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of hard-surface welding alloy containing multi-component, covers bad, weldering coating and the bad problem of base material associativity to solve the disclosed weldering of prior art.

Another technical problem to be solved by this invention is to provide a kind of hard-surface welding alloy containing multi-component, and the notion allotment stiff dough wlding material component prescription of utilization multi-component can have the function of maximum wide usage under various environment.

To achieve these goals, the invention provides a kind of hard-surface welding alloy containing multi-component, its characteristics are, include: ferro element, its atomic percent are the total a% that forms of alloy, 5%≤a%≤35%; Nickel element, its atomic percent are the total b% that forms of alloy, 5%≤b%≤35%; Chromium element, its atomic percent are the total c% that forms of alloy, 5%≤c%≤35%; And manganese element, its atomic percent is the total d% that forms of alloy, 5%≤d%≤35%; Wherein, a%+b%+c%+d%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component, its characteristics are, also comprise aluminium element, and its atomic percent is the total e% that forms of alloy, 2%≤e%≤12%, and a%+b%+c%+d%+e%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component, its characteristics are, also comprise cobalt element, and its atomic percent is the total f% that forms of alloy, 17%≤f%≤21%, and a%+b%+c%+d%+f%≤100%.

The present invention also provides a kind of hard-surface welding alloy containing multi-component, and its characteristics are, include:

Ferro element, its atomic percent are the total a% that forms of alloy, 5%≤a%≤35%;

Nickel element, its atomic percent are the total b% that forms of alloy, 5%≤b%≤35%;

Chromium element, its atomic percent are the total c% that forms of alloy, 5%≤c%≤35%; And

Molybdenum element, its atomic percent are the total d% that forms of alloy, 5%≤d%≤35%;

Wherein, a%+b%+c%+d%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component, its characteristics are, comprise aluminium element, its atomic percent is the total e% that forms of alloy, 2%≤e%≤12%, and a%+b%+c%+d%+e%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component, its characteristics are, also comprise cobalt element, and its atomic percent is the total f% that forms of alloy, 17%≤f%≤21%, and a%+b%+c%+d%+f%≤100%.

The present invention also provides a kind of hard-surface welding alloy containing multi-component, and its characteristics are, include:

Ferro element, its atomic percent are the total a% that forms of alloy, 5%≤a%≤35%;

Nickel element, its atomic percent are the total b% that forms of alloy, 5%≤b%≤35%;

Chromium element, its atomic percent are the total c% that forms of alloy, 5%≤c%≤35%;

Manganese element, its atomic percent are the total d% that forms of alloy, 5%≤d%≤35%; And

Molybdenum element, its atomic percent are the total e% that forms of alloy, 5%≤e%≤35%;

Wherein, a%+b%+c%+d%+e%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component, its characteristics are, also comprise aluminium element, and its atomic percent is the total f% that forms of alloy, 2%≤f%≤12%, and a%+b%+c%+d%+e%+f%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component, its characteristics are, also comprise cobalt element, and its atomic percent is the total g% that forms of alloy, 17%≤g%≤21%, and a%+b%+c%+d%+e%+g%≤100%.

Effect of the present invention, be notion with multi-component, each element atomic percent is less than 35% in the alloy, the notion allotment hard-surface welding alloy containing material composition prescription of utilization multi-component, reach the function of maximum wide usage under the various environment, as the basic recipe composition of weldering cover material material, this weldering cover material material possesses lower service temperature and clogs advantages such as property with preferable physical strength resistance, resistance to acids and bases, oxidation-resistance, interface.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Description of drawings

Fig. 1 is the preferred embodiment prescription hardness data of hard-surface welding alloy containing multi-component of the present invention; And

Fig. 2 does not comprise the preferred embodiment prescription hardness data of cobalt element for hard-surface welding alloy containing multi-component of the present invention.

Embodiment

The present invention proposes a kind of hard-surface welding alloy containing multi-component, include: iron, nickel, chromium, manganese or molybdenum, wherein manganese element and molybdenum element are selected a use, and the atomic percent of ferro element is the a% (5%≤a%≤35%) of the total composition of alloy, the atomic percent of nickel element is the total b% (5%≤b%≤35%) that forms of alloy, the chromium elements atomic percentage is the total c% (5%≤c%≤35%) that forms of alloy, and the atomic percent of manganese or molybdenum element is the total d% (5%≤d%≤35%) that forms of alloy, and a%+b%+c%+d%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component comprises the interpolation aluminium element, and the atomic percent that it added is the total e% that forms of alloy, 2%≤e%≤12%, and a%+b%+c%+d%+e%≤100%; Also can add cobalt element as required, the atomic percent that it added is the total f% that forms of alloy, 17%≤f%≤21%, and a%+b%+c%+d%+f%≤100%; In addition, hard-surface welding alloy containing multi-component of the present invention does not comprise for example element-specific such as boron or carbon.

The present invention also proposes a kind of hard-surface welding alloy containing multi-component, include: iron, nickel, chromium, manganese and molybdenum, wherein the atomic percent of ferro element is the total a% (5%≤a%≤35%) that forms of alloy, the atomic percent of nickel element is the total b% (5%≤b%≤35%) that forms of alloy, the chromium elements atomic percentage is the total c% (5%≤c%≤35%) that forms of alloy, the atomic percent of manganese element is the total d% (5%≤d%≤35%) that forms of alloy, and the atomic percent of molybdenum element is the total e% (5%≤e%≤35%) that forms of alloy, and a%+b%+c%+d%+e%≤100%.

Above-mentioned hard-surface welding alloy containing multi-component comprises the interpolation aluminium element, and the atomic percent that it added is the total f% that forms of alloy, 2%≤f%≤12%, and a%+b%+c%+d%+e%+f%≤100%; Also can add cobalt element as required, the atomic percent that it added is the total g% that forms of alloy, 17%≤g%≤21%, and a%+b%+c%+d%+e%+g%≤100%; In addition, hard-surface welding alloy containing multi-component of the present invention does not for example comprise boron or carbon or the like element-specific.

Hard-surface welding alloy containing multi-component of the present invention can be used in the stiff dough welding technology, utilize various thermal source and method, desired properties or materials with function are heated to fusion, fusing or alloying state with powdery or welding rod form, deposit to the processing method of workpiece surface formation good combination coating, its notable attribute shows:

(1) coated material comprises nearly all metal (alloy) and nonmetal (pottery, sintering metal) and various matrix material.

(2) coating preparation has processing methodes such as flame method, arc process, gas protection method, plasma method, laser method, can process in factory building or maintenance construction at the scene, and is flexible.

(3) body material can be alternative with low-alloy or carbon steel as the body material of superalloy (or weldability is poor), reduces noble metal consumption and improve the stiff dough technical feature.

(4) thermospray, surfacing and built-up welding are compound or unite use, can reach more perfect technique effect.

(5) workpiece can repeatedly be repaired, repair and reuse, and further increases the service life.

Hard-surface welding alloy containing multi-component of the present invention can be applied to standard worker's method operation of general stiff dough weldering, but reaching 200 degree, its preheating temperature can begin operation, need not to reach more than 400 degree as the preheating temperature of existing hard-surface welding alloy containing, below at length list each experimental example and trial value thereof, so that effect of the present invention is described, but claim of the present invention is then non-by these experimental example institute representatives fully.

The system component atom of experimental example 1 and weight percent thereof are iron (Fe) 28-29%, manganese (Mn) 18-19%, nickel (Ni) 30-31%, chromium (Cr) 17-18%, aluminium (Al) 4-5%, the test piece surface is done after one to four layer stiff dough weldering handles with hard-surface welding alloy containing multi-component of the present invention, measure its surface hardness again and compare, with the stiff dough effect that proves that it reaches, from experimental data observe its through stiff dough weldering the first layer after hardness rise to 31HRC (Rockwell hardness, Rockwell hardness), rise to 32HRC through hardness behind the stiff dough weldering second layer, hardness rose to 42HRC after process stiff dough welded the 3rd layer, and hardness was kept 42HRC after process stiff dough welded the 4th layer.In same notion, the modification that also can further the prescription of hard-surface welding alloy containing multi-component of the present invention be made a little scope also can reach similar stiff dough treatment effect afterwards.

Fig. 1 is the preferred embodiment prescription hardness data of hard-surface welding alloy containing multi-component of the present invention, as shown in Figure 1, scope as experimental example 1A-1D is changed in the weight percentage ranges interval of experimental example 1 of the present invention: iron (Fe) 14-29%, manganese (Mn) 18-32%, nickel (Ni) 16-31%, chromium (Cr) 14-31%, aluminium (Al) 2-8%, the hardness of its stiff dough possesses the wide usage that uses in the different atmospheric environments between 40-51HRC.

Similarly, can further the prescription of hard-surface welding alloy containing multi-component be made the modification of a little scope, still can reach similar stiff dough treatment effect after making these modifications, experimental example 2 for example of the present invention, its weight percent is Fe (24-26%), Co (17-18%), Ni (16-18%), Cr (14-16%), Mo (13-15%), Al (8-9%), experimental example 3 its weight percents and for example of the present invention are Fe (17-20%), Co (18-21%), Ni (18-20%), Cr (17-18%), Al (4-5%), Mn (18-19%), experimental example 4 its weight percents and for example of the present invention are Fe (23-26%), Co (19-21%), Ni (19-21%), Cr (15-17%), Al (5-6%), Mo (10-12%) reaches effective raising stiff dough character to the above order ground of 40HRC.

At last in notion of the present invention, experimental example 5A-5G is with hard-surface welding alloy containing multi-component of the present invention, under at the situation that does not comprise cobalt element, use the stiff dough welding technology, Fig. 2 does not comprise the preferred embodiment prescription hardness data of cobalt element for hard-surface welding alloy containing multi-component of the present invention, as shown in Figure 2, the atom of experimental example 5A-5G and weight percent thereof are Al (6-12%), Cr (12-22%), Mn (13-23%), Fe (9-29%), Ni (8-30%), Mo (13-30%), the hardness of its stiff dough possesses the wide usage that uses in the varying environment too between 45-65HRC.The prescription of the above all experimental example proof hard-surface welding alloy containing multi-components of summation possesses the feasibility that improves stiff dough usefulness, can represent its maximum wide usage simultaneously in varying environment.

The present invention uses the notion allotment stiff dough wlding material component prescription of multi-component, the welding rod manufacturing processed of its alloy formula composition can directly melting manufacturing in atmospheric environment, the principle mechanisms of its stiff dough strength reinforcing is to follow the principle that multi-component element high-irregularity is arranged, the principle of separating out with general hard-surface welding alloy containing component prescription dependence carbide or boride is different, because carbides-free or boride do not make the more crisp problem of stiff dough wlding material so do not have because of the carbide or the existence of boride yet yet.

In addition, because multi-component of the present invention meets the high-irregularity high stability principle of thermodynamics second theorem, therefore has for example anti-oxidant and erosion-resisting characteristic, therefore can reach the function of maximum workability and wide usage under various environment, further can become the total solution of stiff dough wlding material component prescription.

In order to make hard-surface welding alloy containing prescription with maximum wide usage under the various environment, the invention provides the hard-surface welding alloy containing that a kind of multi-component combines, it has escaped traditional principal element composition hard-surface welding alloy containing formulating of recipe framework that possesses, each principal element that the hard-surface welding alloy containing multi-component prescription is comprised accounts for the total atomic percent of forming of alloy respectively below 35%, thereby represents its maximum wide usage simultaneously in varying environment.The service temperature of hard-surface welding alloy containing system component provided by the present invention is in addition compared with conventional formulation, possesses the more characteristic of low operating temperature, the hard-surface welding alloy containing preheating temperature of conventional formulation need reach more than 400 ℃ in general, preheating temperature of the present invention possesses easy to use and the easy progressive of operation as long as 200 ℃ can be welded the operation of covering.

Indivedual composition alloy of the present invention with iron, nickel, chromium, molybdenum and manganese as using element, wherein each element accounts for the total atomic percent of forming of alloy respectively below 35%, and prove that through actual test the hard-surface welding alloy containing multi-component prescription has excellent stiff dough character in varying environment.Multi-component alloy of the present invention provides bigger degree of freedom in the hard-surface welding alloy containing design, and its component proportions can be come in addition inching and change at required various different propertiess simultaneously.And the present invention finds out the composition combination that is suitable for being applied in the hard-surface welding alloy containing multi-component in the varying environment promptly according to the design concept of multi-component.

Hard-surface welding alloy containing multi-component of the present invention is with the notion of multi-component, each element atomic percent is less than 35% in the alloy, the notion allotment hard-surface welding alloy containing material composition prescription of utilization multi-component, reach the function of maximum wide usage under the various environment, as the basic recipe composition of weldering cover material material, this weldering cover material material possesses lower service temperature and clogs advantages such as property with preferable physical strength resistance, resistance to acids and bases, oxidation-resistance, interface.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection domain of claim of the present invention.

Claims (9)

1, a kind of hard-surface welding alloy containing multi-component is characterized in that, includes:

Ferro element, its atomic percent are the total a% that forms of alloy, 5%≤a%≤35%;

Nickel element, its atomic percent are the total b% that forms of alloy, 5%≤b%≤35%;

Chromium element, its atomic percent are the total c% that forms of alloy, 5%≤c%≤35%; And

Manganese element, its atomic percent are the total d% that forms of alloy, 5%≤d%≤35%;

Wherein, a%+b%+c%+d%≤100%.

2, hard-surface welding alloy containing multi-component according to claim 1 is characterized in that, also comprises aluminium element, and its atomic percent is the total e% that forms of alloy, 2%≤e%≤12%, and a%+b%+c%+d%+e%≤100%.

3, hard-surface welding alloy containing multi-component according to claim 1 is characterized in that, also comprises cobalt element, and its atomic percent is the total f% that forms of alloy, 17%≤f%≤21%, and a%+b%+c%+d%+f%≤100%.

4, a kind of hard-surface welding alloy containing multi-component is characterized in that, includes:

Ferro element, its atomic percent are the total a% that forms of alloy, 5%≤a%≤35%;

Nickel element, its atomic percent are the total b% that forms of alloy, 5%≤b%≤35%;

Chromium element, its atomic percent are the total c% that forms of alloy, 5%≤c%≤35%; And

Molybdenum element, its atomic percent are the total d% that forms of alloy, 5%≤d%≤35%;

Wherein, a%+b%+c%+d%≤100%.

5, hard-surface welding alloy containing multi-component according to claim 4 is characterized in that, comprises aluminium element, and its atomic percent is the total e% that forms of alloy, 2%≤e%≤12%, and a%+b%+c%+d%+e%≤100%.

6, hard-surface welding alloy containing multi-component according to claim 4 is characterized in that, also comprises cobalt element, and its atomic percent is the total f% that forms of alloy, 17%≤f%≤21%, and a%+b%+c%+d%+f%≤100%.

7, a kind of hard-surface welding alloy containing multi-component is characterized in that, includes:

Ferro element, its atomic percent are the total a% that forms of alloy, 5%≤a%≤35%;

Nickel element, its atomic percent are the total b% that forms of alloy, 5%≤b%≤35%;

Chromium element, its atomic percent are the total c% that forms of alloy, 5%≤c%≤35%;

Manganese element, its atomic percent are the total d% that forms of alloy, 5%≤d%≤35%; And

Molybdenum element, its atomic percent are the total e% that forms of alloy, 5%≤e%≤35%;

Wherein, a%+b%+c%+d%+e%≤100%.

8, hard-surface welding alloy containing multi-component according to claim 7 is characterized in that, also comprises aluminium element, and its atomic percent is the total f% that forms of alloy, 2%≤f%≤12%, and a%+b%+c%+d%+e%+f%≤100%.

9, hard-surface welding alloy containing multi-component according to claim 7 is characterized in that, also comprises cobalt element, and its atomic percent is the total g% that forms of alloy, 17%≤g%≤21%, and a%+b%+c%+d%+e%+g%≤100%.