CN104309056A - Preparation method of metal-resin composite, and metal-resin composite - Google Patents

Abstract

The invention discloses a preparation method of a metal-resin composite. The method comprises the steps of (1) carrying out electrochemical corrosion on a metal substrate in an acid solution containing ferric trichloride; and (2) carrying out injection molding on the electrochemically corroded metal substrate by using a thermoplastic resin composition to form an integrated metal-resin composite. The invention also provides the metal-resin composite prepared by the above method. With the above technical solution, a binding force between the metal substrate and the resin can be significantly enhanced. A fluoride-free technology is adopted by the method provided by the invention; a waste solution can be treated easily; the acid solution is in no need of heating; and volatility of the solution is low. The method has small pollution to environment and is energy-saving and environment-friendly.

Description

The manufacture method of metal-resin composite and metal-resin composite

Technical field

The present invention relates to a kind of manufacture method of metal-resin composite, and the metal-resin composite utilizing the method to manufacture.

Background technology

At present, the method that metal (being generally Titanium or titanium alloy) and resin-phase combine is mainly contained three kinds, and one utilizes adhesive, by chemical adhesive respectively with titanium alloy and molded resin effect, thus both to be combined; Another kind carries out chemical etching at titanium alloy surface, produces superminiature male and fomale(M&F), then carry out injection moulding combination; The third is by anodised mode or electrochemical cathode process, produces nano level hole, be combined by this hole with plastics injection moulding at titanium alloy surface.

But adopt the method for adhesive, adhesion is poor, not acid and alkali-resistance, and adhesive has certain thickness, affects the size of final products; Adopt the mode of chemical etching, for ensureing adhesion, need with concentrated acid heating or adopt fluorine-containing corrosive liquid, mode length consuming time, the energy consumption of concentrated acid heating are high, and acid solution evaporative emission environment, adopt fluorine-containing corrosive liquid, because the toxicity of fluorine is large, require high to production environment, belong to the high-risk material of high pollution; Adopt the mode of anodic oxidation or electrochemical cathode process, gained nano aperture is little, and oxide-film is very thin, and cause the nano aperture degree of depth inadequate, gained injecting products adhesion is low, and practicality is not high.

Therefore, a kind of preparation method simultaneously taken into account in conjunction with dynamics, environment and the metal-resin composite of time of exploitation is needed badly.

Summary of the invention

The object of the invention is in order to provide realize adhesion excellent, the preparation method of practicality is high and environmental pollution is little metal-resin composite.

To achieve these goals, on the one hand, the invention provides a kind of manufacture method of metal-resin composite, the method comprises:

(1) in containing the acid solution of ferric trichloride, electrochemical corrosion is carried out to metallic matrix;

(2) with thermoplastic resin composition, injection moulding is carried out to the metallic matrix through electrochemical corrosion, form the metal-resin composite of integration.

On the other hand, the invention provides a kind of metal-resin composite prepared by above method.

By adopting technique scheme; metallic matrix is carried out electrochemical corrosion in containing the acid solution of ferric trichloride; the hole of 1-200 micron can be formed in the injection-molding surfaces of metallic matrix; and the part not forming hole can thicken the nano-alumina film of formation; make to divide non-hole portion in corrosion process well to protect, and the metallic matrix making surface have this structure and size is conducive to being combined with thermoplastic resin composition.Therefore, when carrying out follow-up injection moulding to the metallic matrix after the process of employing said method, the adhesion of metallic matrix and resin can significantly be strengthened.And method of the present invention adopts floride-free technique, easily carry out liquid waste processing, and described acid solution is without the need to heating, the volatility of solution is low, little to the pollution of environment, energy-conserving and environment-protective.

Other features and advantages of the present invention are described in detail in detailed description of the invention part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for description, is used from explanation the present invention, but is not construed as limiting the invention with detailed description of the invention one below.In the accompanying drawings:

Fig. 1 is the metallographic microscope picture of the titanium resin composite body prepared according to the method for embodiment 1.

Fig. 2 is the metallographic microscope picture of the titanium resin composite body prepared according to the method for comparative example 1.

Fig. 3 is the metallographic microscope picture of the titanium resin composite body prepared according to the method for comparative example 2.

Detailed description of the invention

Below the specific embodiment of the present invention is described in detail.Should be understood that, detailed description of the invention described herein, only for instruction and explanation of the present invention, is not limited to the present invention.

On the one hand, the invention provides a kind of manufacture method of metal-resin composite, the method comprises:

(1) in containing the acid solution of ferric trichloride, electrochemical corrosion is carried out to metallic matrix;

(2) with thermoplastic resin composition, injection moulding is carried out to the metallic matrix through electrochemical corrosion, form the metal-resin composite of integration.

According to the present invention, in step (1), in containing the acid solution of ferric trichloride, electrochemical corrosion is carried out to metallic matrix, surface can be formed in the injection-molding surfaces of metallic matrix and there is the metallic matrix that aperture is micron order (such as, 1-200 micron) hole; And described hole is in substrate surface dense distribution, does not form the nano-alumina film that hole portion branch generates one deck thickening simultaneously, can effectively prevent non-hole part to be corroded, thus product size is stablized.In the present invention, the aperture of hole metallic matrix formed refers to the size of the maximum gauge of this hole.

In addition, in step (1), under preferable case, in order to the adhesion of further reinforcement metal matrix and resin, with the gross weight of described acid solution for benchmark, the content of ferric trichloride is 1-20 % by weight, is more preferably 5-15 % by weight.

The present inventor finds, when also containing non-oxidizing acid in described acid solution, can further realize object of the present invention.Wherein, having no particular limits the kind of described non-oxidizing acid, such as, can be one or more in hydrochloric acid, oxalic acid, phosphoric acid and acetic acid.

In addition, as long as the content of described non-oxidizing acid ensures that in described acid solution, hydrionic concentration is in above-mentioned scope, such as, the content of described non-oxidizing acid can be 0.1-20 % by weight, is preferably 1-15 % by weight.One of the present invention preferred embodiment in, described non-oxidizing acid is hydrochloric acid.

According to one of the present invention preferred embodiment, in the electrochemical corrosion course described in step (1), using described metallic matrix as anode, what make metallic matrix treats that injection moulding region is towards negative electrode.Described negative electrode can be various negative electrodes conventional in electrochemical corrosion course, and in the present invention, negative electrode is preferably graphite.

According to the present invention, the operating condition of electrochemical corrosion course can be the condition for the preparation of metal-resin composite of this area routine, such as, the operating condition of described electrochemical corrosion course can comprise: voltage is 2-18V, be preferably 8-12V, the time is 2-24min, is preferably 10-12min.

According to the present invention, being not particularly limited described metallic matrix, can be the various metallic matrix for resin injection moulding well known in the art and alloy substrate thereof.But the present inventor finds, method of the present invention is particularly useful for making the resin composite body of titanium or titanium alloy metal.Therefore, preferably, described metallic matrix is titanium matrix or titanium alloy substrate.

In addition, according to the present invention, under preferable case, after step (1) and before step (2), the method also comprises the step that the metallic matrix after by electrochemical corrosion contacts with alkali, to strengthen the adhesion of metallic matrix and resin further.Simply, described alkali exists in form of an aqueous solutions, and the metallic matrix obtained after step (1) being processed is immersed in alkaline solution, the metallic matrix obtained after making alkaline solution cover step (1) process completely.Described alkali can be one or more in sour hydrogen sodium, saleratus, sodium carbonate, potash, NaOH and potassium hydroxide.Under preferable case, described alkali is sodium carbonate.The described surface-treated time can be 1-30min; Be preferably 5-20min.The concentration of described alkaline solution can be 1-10 % by weight.

According to the present invention, in step (2), described thermoplastic resin composition can contain the thermoplastic resin of 50-100 % by weight and the fibrous material of 0-50 % by weight.Under preferable case, described thermoplastic resin composition contains the thermoplastic resin of 70-95 % by weight and the fibrous material of 5-30 % by weight.

According to the present invention, described thermoplastic resin and fibrous material can be various thermoplastic resin well known in the art and fibrous material, such as, described thermoplastic resin can be one or more in polyphenylene sulfide, polybutylene terephthalate (PBT) resin, polyamide, polycarbonate and polyolefin; Described fibrous material can be one or more in ceramic fibre, glass fibre, aluminium silicate fiber peacekeeping polyester fiber.

According to the present invention, in step (2), the consumption of described thermoplastic resin composition can carry out accommodation according to the character of product with the volume ratio of the consumption of the metallic matrix obtained after step (1) processes.The method of this adjustment is conventionally known to one of skill in the art, does not repeat them here.

According to the present invention, in step (1), before electrochemical corrosion is carried out to metallic matrix, pre-treatment can also be carried out to metallic matrix; This pretreatment process comprises rectangle sheet metallic matrix being cut into 15mm × 80mm, more respectively this metallic matrix is put into polishing machine sanding and polishing, then, then carries out the processes such as oil removing, washing and oven dry successively.In the present invention, described polishing machine is not particularly limited, the polishing machine often can known for those skilled in the art, and carry out polishing, oil removing, washing and dry all being not particularly limited to metal-resin composite prepared by preparation method of the present invention, the technology that can be well known to those skilled in the art.

On the other hand, present invention also offers the metal-resin composite prepared by above method.

According to the present invention, the thermoplastic resin composition that described metal-resin composite comprises metallic matrix and is combined as a whole with metallic matrix.

According to the present invention, the surface of described metallic matrix has the micron order hole that aperture is 1-200 micron, is filled with thermoplastic resin composition in described micron order hole.

According to the present invention, described metallic matrix is preferably titanium matrix or titanium alloy substrate.

Below will be described in detail the present invention by embodiment.

In following examples,

Universal testing machine (purchased from Ying Site, model is 3369) is used to characterize the shearing force of metallic matrix prepared by the present invention;

Polishing machine is safe purchased from perseverance, model 883;

Polyphenylene sulfide, polybutylene terephthalate (PBT) resin, polyamide, glass fibre and ceramic fibre are purchased from all purchased from Qi get engineering plastics Co., Ltd;

Metallic titanium plate and titanium alloy sheet belong to Materials Co., Ltd purchased from port ancient sacrificial bronze ware, and model is TA1 and TA2.

Preparation example 1

Get TA1 titanium plate and each one piece of TA2 titanium alloy sheet that thickness is 0.8mm, be cut into the rectangle sheet of 15mm × 80mm, respectively this TA1 titanium plate and TA2 titanium alloy sheet are put into polishing machine sanding and polishing again, then, carry out the pretreatment process such as oil removing, washing and oven dry successively again, finally, TA1 Titanium base and TA2 titanium alloy substrate is prepared.

Embodiment 1

The present embodiment is used for illustrating the preparation method of metal-resin composite of the present invention

(1) electrochemical corrosion

It is 10 % by weight that the TA1 Titanium base prepared in preparation example 1 is placed in ferric trichloride content, and the content of hydrochloric acid is in the acid solution of 10 % by weight, using TA1 Titanium base as anode, using graphite as negative electrode, and makes the injection moulding region of Titanium base towards minus plate.Be energized 12min under 10V voltage, and subsequently, take out Titanium base, clean and dry up, the sodium carbonate liquor putting into 5 % by weight afterwards soaks 10min; Again Titanium base is taken out, clean up and dry up.The aperture of described Titanium base is 1-150 micron.Its metallographic microscope picture as shown in Figure 1.

(2) injection moulding

The above-mentioned Titanium base obtained after electrochemical corrosion course is put into mould, injection moulding is carried out with the thermoplastic resin composition of the polyphenylene sulfide (PPS) containing 20 % by weight glass fibres and 80 % by weight, and the volume ratio of the consumption of the consumption of described thermoplastic resin composition and described Titanium base is 1:1, obtain the Titanium base resin composite body S1 of integration.

Embodiment 2

The present embodiment is used for illustrating the preparation method of metal-resin composite of the present invention

(1) electrochemical corrosion

It is 5 % by weight that the TA1 Titanium base prepared in preparation example 1 is placed in ferric trichloride content, and the content of phosphoric acid is in the acid solution of 15 % by weight, using TA1 Titanium base as anode, using graphite as negative electrode, and makes the injection moulding region of Titanium base towards minus plate.Be energized 10min under 8V voltage.Subsequently, take out Titanium base, clean and dry up, the sodium carbonate liquor putting into 10 % by weight afterwards soaks 5min; Again Titanium base is taken out, clean up and dry up.The aperture of described Titanium base is 1-100 micron.

(2) injection moulding

The above-mentioned Titanium base obtained after electrochemical corrosion course is put into mould, injection moulding is carried out with the thermoplastic resin composition of the polybutylene terephthalate (PBT) resin containing 5 % by weight ceramic fibres and 95 % by weight, and the volume ratio of the consumption of the consumption of described thermoplastic resin composition and described Titanium base is 1:1, obtain the Titanium base resin composite body S2 of integration.

Embodiment 3

The present embodiment is used for illustrating the preparation method of metal-resin composite of the present invention

(1) electrochemical corrosion

It is 15 % by weight that the TA2 titanium alloy substrate prepared in preparation example 1 is placed in ferric trichloride content, and the content of acetic acid is in the acid solution of 1 % by weight, using TA2 titanium alloy substrate as anode, using graphite as negative electrode, and makes the injection moulding region of Titanium base towards minus plate.Be energized 12min under 12V voltage, and subsequently, take out titanium alloy substrate, clean and dry up, the sodium carbonate liquor putting into 1 % by weight afterwards soaks 20min; Again titanium alloy substrate is taken out, clean up and dry up.The aperture of described Titanium base is 1-100 micron.

(2) injection moulding

The above-mentioned titanium alloy substrate obtained after electrochemical corrosion course is put into mould, with the thermoplastic resin composition of polyamide containing 30 % by weight aluminium silicate fiber peacekeepings 70 % by weight carry out injection moulding with containing 70 % by weight carry out injection moulding, and the volume ratio of the consumption of described polyphenylene sulfide (PPS) and the consumption of described titanium alloy substrate is 1:1, obtain the titanium alloy substrate resin composite body S3 of integration.

Embodiment 4

Metallic matrix resin composite body S4 is prepared according to the preparation method identical with embodiment 1, unlike in electrochemical process, with the gross weight of prepared acid solution (mixed solution of ferric trichloride and hydrochloric acid) for benchmark, the content of ferric trichloride is 1 % by weight, and the content of hydrochloric acid is 20 % by weight.The hole of gained Titanium base injection-molding surfaces is 1-200 micron.

Embodiment 5

Metallic matrix resin composite body S5 is prepared according to the preparation method identical with embodiment 1, unlike in electrochemical process, with the gross weight of prepared acid solution (mixed solution of ferric trichloride and hydrochloric acid) for benchmark, the content of ferric trichloride is 20 % by weight, and the content of hydrochloric acid is 0.1 % by weight.The hole of gained Titanium base injection-molding surfaces is 1-100 micron.

Embodiment 6

Metallic matrix resin composite body S6 is prepared according to the preparation method identical with embodiment 1, unlike, not containing non-oxidizing acid in described acid solution, be only the solution of ferric trichloride.The hole of gained Titanium base injection-molding surfaces is 1-100 micron.

Embodiment 7

Metallic matrix resin composite body S7 is prepared according to the preparation method identical with embodiment 1, unlike, for a kind of non-oxidizing acid is phosphoric acid in described acid solution.The hole of gained Titanium base injection-molding surfaces is 1-100 micron.

Comparative example 1

This comparative example is for illustration of the manufacture method of the metal-resin composite of reference.

The direct injection moulding of TA1 Titanium base of preparation in preparation example 1 is contained the thermoplastic resin composition of polyphenylene sulfide (PPS) of 20 % by weight glass fibres and 80 % by weight, obtain the Titanium base resin composite body DS1 of integration.Described Titanium base injection-molding surfaces is without pore space structure.Its metallographic microscope picture as shown in Figure 2.

Comparative example 2

This comparative example is for illustration of the manufacture method of the metal-resin composite of reference.

Prepare metallic matrix resin composite body DS2 according to the preparation method identical with embodiment 1, TA1 Titanium base and the ammonium hydrogen fluoride solution containing 1 % by weight are carried out chemical attack, and chemical attack condition comprises: temperature is 25 DEG C, and the time is 12min.Gained Titanium base injection-molding surfaces is non-pore space structure, has rough matsurface.Its metallographic microscope picture as shown in Figure 3.

Comparative example 3

Metallic matrix resin composite body DS3 is prepared according to the preparation method identical with embodiment 1, unlike, contain in 10 % by weight phosphoric acid electrolyte at 500ml and anodic oxidation is carried out to TA1 Titanium base.Anodic oxidation voltage is 20V, and the time is 10min.The hole of gained Titanium base injection-molding surfaces is 10-100 nanometer.

Test case

After the metallic matrix resin composite body obtained in above-described embodiment 1-7 and comparative example 1-3 is left standstill 24 hours, be fixed on universal testing machine and carry out extension test, in test result, average shear force can regard the size of the adhesion between titanium alloy substrate and resin as.Test result is as shown in table 1.

Table 1

Metal-resin composite	Average shear force (MPa)	Metal-resin composite	Average shear force (MPa)
				S1	14.41	S7	11.67
S2	11.27	?	?
				S3	10.85	?	?
S4	14.16	DS1	Come off
				S5	11.69	DS2	9.21
S6	10.53	DS3	7.63

As can be seen from the data of table 1, the average shear force of the Titanium base prepared in embodiment 1-7 or titanium alloy substrate resin S1-S7 significantly improves than the average shear force of the Titanium base resin DS1-DS3 prepared in comparative example 1-3, illustrate that the adhesion of Titanium base prepared by method of the present invention or titanium alloy substrate and resin is excellent, that is, the Titanium base adopting method of the present invention to prepare or the adhesion of titanium alloy substrate resin composite body excellent; And adopting in the preparation process of method of the present invention, described acid solution is without the need to heating, and described acid solution concentration is low, nontoxic, little to the pollution of environment, energy-conserving and environment-protective.

More than describe the preferred embodiment of the present invention in detail; but the present invention is not limited to the detail in above-mentioned embodiment, within the scope of technical conceive of the present invention; can carry out multiple simple variant to technical scheme of the present invention, these simple variant all belong to protection scope of the present invention.

It should be noted that in addition, each the concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, can be combined by any suitable mode.In order to avoid unnecessary repetition, the present invention illustrates no longer separately to various possible combination.

In addition, also can be combined between various different embodiment of the present invention, as long as it is without prejudice to thought of the present invention, it should be considered as content disclosed in this invention equally.

Claims (13)

1. a manufacture method for metal-resin composite, the method comprises:

(1) in containing the acid solution of ferric trichloride, electrochemical corrosion is carried out to metallic matrix;

(2) with thermoplastic resin composition, injection moulding is carried out to the metallic matrix through electrochemical corrosion, form the metal-resin composite of integration.

2. method according to claim 1, wherein, in step (1), with the gross weight of described acid solution for benchmark, the content of ferric trichloride is 1-20 % by weight.

3. method according to claim 1 and 2, wherein, in step (1), also containing non-oxidizing acid in described acid solution, with the gross weight of described acid solution for benchmark, the content of described non-oxidizing acid is 0.1-20 % by weight.

4. method according to claim 3, wherein, described non-oxidizing acid is one or more in hydrochloric acid, oxalic acid, phosphoric acid and acetic acid.

5. according to the method in claim 1-4 described in any one, wherein, in the electrochemical corrosion course described in step (1), using described metallic matrix as anode, what make metallic matrix treats that injection moulding region is towards negative electrode, and the operating condition of described electrochemical corrosion course comprises: voltage is 2-18V, the time is 2-24min.

6. method according to claim 1, wherein, after step (1) and before step (2), the method also comprises the step that the metallic matrix after by electrochemical corrosion contacts with alkali.

7. method according to claim 6, wherein, described alkali exists with the form of aqueous slkali, and the concentration of described aqueous slkali is 1-10 % by weight; The time contacted with alkali is 1-30min.

8. the method according to claim 6 or 7, wherein, described alkali is one or more in sodium acid carbonate, saleratus, sodium carbonate, potash, NaOH and potassium hydroxide.

9. method according to claim 1, wherein, in step (3), described thermoplastic resin composition contains the thermoplastic resin of 50-100 % by weight and the fibrous material of 0-50 % by weight.

10. method according to claim 9, wherein, described thermoplastic resin is one or more in polyphenylene sulfide, polybutylene terephthalate (PBT) resin, polyamide, polycarbonate and polyolefin; Described fibrous material is one or more in ceramic fibre, glass fibre, aluminium silicate fiber peacekeeping polyester fiber.

11. according to the method in claim 1-10 described in any one, and wherein, described metallic matrix is titanium matrix or titanium alloy substrate.

12. metal-resin composites prepared according to the method in claim 1-11 described in any one.

13. metal-resin composites according to claim 12, wherein,

The thermoplastic resin composition that described metal-resin composite comprises metallic matrix and is combined as a whole with metallic matrix;

The surface of described metallic matrix has the micron order hole that aperture is 1-200 micron, is filled with thermoplastic resin composition in described micron order hole;

Described metallic matrix is titanium matrix or titanium alloy substrate.