CN1687740A - Wear test method of twisting jiggle of generating micro iamplitude of vibration, and testing machine - Google Patents

Abstract

The invention is the twist abrasion testing method with small swing and the tester, and is suitable for the research of the abrasion state of between the solid materials. The invention adopts the cantilever swing device composed of the cam, the cantilever elastic board, the mini sheet and the swinging rod and the loading parallel device with the sensor. Set the eccentric distance of the cam, the length of the cantilever elastic board and the fixing position of the mini sheet of the swinging rod. Use the direct driving method to make the cantilever elastic board produce drive the bracket to produce small swing under the cam pushing, in order to wear the twist between the samples. The tester has few moving processes, big driving force, stable swing, small error and simple structure.

Description

Produce the twisting fretting wear test method and the testing machine of small amplitude

Technical field

The present invention relates to produce the twisting fretting wear test method and the testing machine of small amplitude, be particularly useful for studying at the rubbing wear state between the solid material under the twisting or micro-moving situation.

Background technology

Fretting wear is a kind of damage mode that is present in the mechanical component of approximate " static " cooperation, and the harm that causes thus is also very big.The fretting wear definition is: two are in contact with one another the surface under certain normal load effect, if having small size relative oscillating movement, the damage phenomenon that is occurred on the surface in contact between the surface.

The direction of relative movement different according to fretting wear, fine motion have 4 kinds of basic operational modes, that is: (1) tangential fine motion, or claim the parallel-moving type fine motion, be the fine motion mode of the most generally studying; (2) radially fine motion; (3) rolling fine motion; (4) twisting or micro-moving.Though back 3 class fine motion forms also often occur in industry, the research report is few.

Research for fretting wear at present also is only limited to the laboratory, mostly the testing machine of research fretting wear is at first kind of operational mode, produce little amplitude and slide relatively between two surface of contact, the method that produces little amplitude slip mainly includes: Mechanical Driven, fluid drives and three kinds of modes of Electromagnetic Drive.Mechanical Driven is elastic telescopic that utilizes one of cam, lever, non-equilibrium rotation or fine motion pair etc.Lever, cam etc. can worked than under the large amplitude, and load also can change in any range, but frequency generally is no more than 50Hz.The elastic telescopic mode of sample can only be worked under lower amplitude owing to limited by elastic limit of material, and its frequency range then depends on drive source.Electromagnetic Drive generally adopts electric and magnetic oscillation or utilizes functional material to produce vibration, can work under high-frequency, but this kind equipment can only be worked under little load.Adopt the Servo Drive method, it is big that it has driving force, and amplitude, frequency variation scope are wide, be easy to utilize advantages such as computer program control and measurement, but technology are complicated, and expense is higher, and equipment volume is also bigger.

Also have radially fine motion and in conjunction with the Compound Fretting Wear testing machine with tangential fine motion of fine motion radially of a kind of research, its principle of work is to adopt high-precision hydraulic-driven form.But, also do not study the report of twisting fretting wear and the twisting fretting wear testing machine of being correlated with at present.And all have the fretting wear of twisting form in approximate " static " cooperation places such as fixing, close-fitting axle sleeve of joint prosthesis.

Summary of the invention

The twisting fretting wear test method and the testing machine that the purpose of this invention is to provide the small amplitude of generation that a kind of method is easy, simple in structure, precision is high, effective.

The present invention produces the twisting fretting wear test method of small amplitude, cantilever pendular device that employing is made up of cam, cantilever elastic sheet, little thin plate and fork and the loading balancing device that is provided with torque sensor, the eccentric throw of setting cam is e, the length of cantilever elastic plate from point of fixity to the cam center distance is that the length of L, the little thin plate centre distance of fixed distance is l, and small amplitude is satisfied: $v=\frac{e\·l^2}{L^3}(3L-l);$ Adopt the rotating speed of inverter control motor, driving cam rotates, cam promotes the vibration of cantilever elastic sheet, by little thin plate small amplitude is passed to fork, fork drives sample support frame motion down, make between sample and the following sample and form twisting fretting wear, be located at torque sensor on the load balance beam and be used to measure friction force between sample and the following sample, regulate the equilibrant of load balance beam with counterpoise, making original upload load is 0, and the weight of increase counterweight is applied with the contact load between sample and the following sample.

The present invention produces the testing machine of the twisting fretting wear test of small amplitude, it is made of the cantilever pendular device and the loading balancing device that are located on the testing machine stand, cantilever pendular device lateral arrangement, loading balancing device vertically are arranged in the side of cantilever pendular device; The following sample support frame that is connected with cantilever pendular device is corresponding with the last sample support frame upper-lower position that is connected with loading balancing device, and on same axis, the below of following sample support frame is provided with the hinged cylinder body that is fixed on the test-bed.Described cantilever pendular device is located at the cantilever elastic sheet of flank of cam by the cam that links to each other with motor, the little thin plate that links to each other with the cantilever elastic sheet, and the anchor post of cantilever mounted elastic sheet is formed with the fork that is connected with following sample support frame; The fork and the cantilever elastic sheet that are connected with following sample support frame be arranged in parallel, are provided with little thin plate between fork and the elastic sheet; Loading balancing device is located at counterweight and counterpoise on the load balance girder cantilever by the load balance beam that is located on the balance beam support post, forms with coaxial torque sensor that links to each other of counterweight and last sample support frame; Load balance beam and balance beam support post junction are provided with accurate swivel pin; Be provided with piston rod in the described hinged cylinder body, piston rod is connected down on the sample support frame.

The present invention produces the twisting fretting wear test method and the testing machine of small amplitude, is best suited for research at the rubbing wear state between the solid material under the twisting or micro-moving situation.Adopt the mechanical type exciting mode of cantilever pendular device and loading balancing device, the eccentric distance e of setting cantilever pendular device cam, the length L of cantilever elastic sheet semi-girder are connected the length l of little thin plate with fixed distance, have following advantage:

1. the cantilever elastic sheet directly makes the twisting fretting wear that produces small amplitude between sample under the promotion of cam, and amplitude constant, and error is little;

2. the mechanical type type of drive that directly drives cam with motor produces small amplitude, and driving force is big;

3. by the precision sample support frame that is articulated and connected down, make down the sample support frame produce the reciprocally swinging of small amplitude, error is little;

4. testing machine motion link is few, and except accurate hinge portion, remaining part is that elastic plate connects, and can reduce kinematic error, and is simple in structure, is easy to processing;

5. give upper and lower sample imposed load by sample in the accurate hinged girder clamping, and with counterweight, can keep the load between upper and lower sample constant.

Description of drawings

Fig. 1 is the twisting fretting wear test method schematic diagram that the present invention produces small amplitude.

Fig. 2 is the testing machine structure front view that the present invention produces the twisting fretting wear test of small amplitude.

Fig. 3 is the testing machine structure vertical view that the present invention produces the twisting fretting wear test of small amplitude.

Fig. 4 is the testing machine structure side view that the present invention produces the twisting fretting wear test of small amplitude.

Embodiment

Below in conjunction with accompanying drawing one embodiment of the present of invention are further described:

The present invention produces the twisting fretting wear test method of small amplitude, cantilever pendular device that employing is made up of cam 1, cantilever elastic sheet 2, little thin plate 3 and fork 5 and the loading balancing device that is provided with torque sensor 11, elastic bending and lever ratio according to semi-girder are amplified the principle that obtains the small sway amplitude, as shown in Figure 1, the eccentric throw of setting cam 1 is e, the length of cantilever elastic sheet 21 centre distance from point of fixity to cam is that the length of little thin plate 3 centre distance of L, fixed distance is l, and small amplitude is satisfied: $v=\frac{e\·l^2}{L^3}(3L-l);$ It is driven by an AC motor 18, and its maximum synchronous rotational speed is 1500rpm, and AC motor 18 can change the rotating speed of motor 18 by Frequency Converter Control by the frequency of regulating frequency converter.Motor 18 drives offset cam 1 and rotates, and cam 1 promotes the vibration of cantilever elastic sheet 2 one ends, and the other end of cantilever elastic sheet 2 is fixed on the cantilever slab anchor post 4.According to the ratio amplification of lever and the elastic bending effect of cantilever elastic sheet 2, connect little thin plate 3 positions on the cantilever elastic sheet 2 and produce small amplitude; little thin plate 3 reaches fork 5 to small amplitude; sample support frame 15 was made the reciprocally swinging of little amplitude under fork 5 drove, and made between sample 13 and the following sample 14 and formed twisting fretting wear.Be located at torque sensor 11 on the load balance beam 7 and can measure friction force between sample 13 and the following sample 14.Following sample support frame 15 is installed on the piston rod of accurate hinged cylinder body 16, last sample support frame 12 is connected with the load balance beam 7 that cooperates precision through torque sensor 11, and be hinged on the balance beam support post 8 by accurate swivel pin 9, counterpoise 10 can be adjusted the balance of load balance beam 7, and making original upload load is 0.Contact load between the upper and lower sample 13,14 applies by increasing counterweight 6.At the distance stiff end is that the l place is connected with following sample support frame 15 with fork 5.When cam 1 rotates, can apply power P, make it to be produced as the amount of deflection of Δ at the free end of cantilever elastic sheet.

According to the mechanics of materials, the amount of deflection that produces at distance cantilever elastic sheet stiff end any distance x place is:

$v=\frac{P{x}^2}{6\mathrm{EI}}(3L-x)$

The amount of deflection (displacement) that v-cantilever elastic sheet produces at distance stiff end x place, mm;

The power that the free end of P-cantilever elastic sheet applies, N;

The elastic modulus of E-cantilever elastic sheet is taken as 2.1 * 10 ⁵N/mm ²

The moment of inertia of I-cantilever elastic sheet, mm ⁴

The length of L-cantilever elastic sheet, mm.

Can be released by formula (1), when x is littler when a lot of than L, v can be littler than Δ, can change the scale of x and L like this according to designing requirement.Equally, after x/L is certain,, also v can be changed, the required small amplitude of fretting wear experiment can be obtained thus by adjusting the size of Δ.

Eccentric throw is that the cam 1 of e rotates, and can make cantilever elasticity book plate free end produce the amount of deflection of Δ=2e, then can be got by formula:

$\mathrm{\&Delta;}=\frac{{\mathrm{<figure-callout\; id="3"\; label="PL"\; filenames="A20051003911000082.png"\; state="\{\{state\}\}">PL</figure-callout>}}^3}{3\mathrm{EI}}---\left(2\right)$

$P=\frac{3\mathrm{EI}\&CenterDot;\mathrm{\&Delta;}}{L^3}---\left(3\right)$

Set the eccentric distance e of cantilever pendular device cam, the length L of cantilever elastic sheet semi-girder is connected the length l of little thin plate with fixed distance, then can obtain being at cantilever elastic sheet small amplitude of specimen mounting generation under the stiff end l place according to formula (1):

$v=\frac{\mathrm{<figure-callout\; id="2"\; label="P\; l"\; filenames="A20051003911000081.png,A20051003911000082.png"\; state="\{\{state\}\}">P</figure-callout>}{l}^{}{}^2}{6\mathrm{EI}}(3L-l)---\left(4\right)$

The pass that (3) substitution (4) is obtained between small amplitude and the eccentric throw is:

$v=\frac{e\&CenterDot;l^2}{L^3}(3L-l)---\left(5\right)$

Eccentric throw is that the cam 1 of e promotes cantilever elastic sheet 2, connects little thin plate 3 positions on the cantilever elastic sheet 2 and produces small amplitude, and little thin plate 3 reaches fork 5 to small amplitude, and sample support frame 15 was made the reciprocally swinging of little amplitude under fork 5 drove.

The present invention produces the testing machine of the twisting fretting wear test of small amplitude, it mainly is made of cantilever pendular device and loading balancing device, the cantilever pendular device lateral arrangement is on testing machine stand 17, and loading balancing device vertically is arranged in the side of cantilever pendular device.Cantilever pendular device is made up of cam 1, cantilever elastic sheet 2, little thin plate 3, anchor post 4, fork 5 and motor 18.Motor 18 is fixed on the bottom of testing machine stand 17, cam 1 above its transmission shaft passes stand 17 and is located at stand 17 is connected, cam 1 is located at the side of cantilever elastic sheet 2, one end of cantilever elastic sheet 2 is located on the anchor post 4, parallel with cantilever elastic sheet 2 and to be provided with the fork 5 that links to each other with following sample support frame 15, be connected with little thin plate 3 between cantilever elastic sheet 2 and the fork 5, little thin plate 3 links to each other with cantilever elastic sheet 2 right angles with fork 5.Loading balancing device is made up of counterweight 6, load balance beam 7, balance beam support post 8, accurate swivel pin 9, counterpoise 10, torque sensor 11 and last sample support frame 12.Load balance beam 7 is located on the balance beam support post 8, its junction is by accurate swivel pin 9 hinged securement, counterweight 6 and counterpoise 10 are located at the two ends of load balance beam 7 cantilevers, the bottom that counterweight 6 one ends are set is provided with torque sensor 11 and last sample support frame 12, last sample support frame 12 is corresponding with following sample support frame 15, on same axis, the chassis of following sample support frame 15 has and is fixed on the hinged cylinder body 16 on the test-bed 17, rotating piston rod is fixed on down on the sample support frame 15 in the cylinder body 16, and piston rod is with sample support frame 15 motions down.

Claims (7)

1. produce the twisting fretting wear test method of small amplitude, it is characterized in that: adopt cantilever pendular device of forming by cam (1), cantilever elastic sheet (2), little thin plate (3) and fork (5) and the loading balancing device that is provided with torque sensor (11), the eccentric throw of setting cam (1) is e, the length of cantilever elastic sheet (2) (1) centre distance from point of fixity to cam is that the length of L, the little thin plate of fixed distance (3) centre distance is l, and small amplitude is satisfied: $v=\frac{e\&CenterDot;l^2}{L^3}(3L-l);$ Adopt the rotating speed of inverter control motor (18), driving cam (1) rotates, cam (1) promotes cantilever elastic sheet (2) vibration, by little thin plate (3) small amplitude is passed to fork (5), fork (5) drives sample support frame (15) motion down, make between sample (13) and the following sample (14) and form twisting fretting wear, be located at torque sensor (11) on the load balance beam (7) and be used to measure friction force between sample (13) and the following sample (14), regulate the equilibrant of load balance beam (7) with counterpoise (10), making original upload load is 0, and the weight of increase counterweight 6 is applied with the contact load between sample (13) and the following sample (14).

2. produce the testing machine of the twisting fretting wear test of small amplitude, it is characterized in that: it is made of the cantilever pendular device and the loading balancing device that are located on the testing machine stand (17), cantilever pendular device lateral arrangement, loading balancing device vertically are arranged in the side of cantilever pendular device; The following sample support frame (15) that is connected with cantilever pendular device is corresponding with last sample support frame (12) upper-lower position that is connected with loading balancing device, on same axis, the below of following sample support frame (15) is provided with the hinged cylinder body (16) that is fixed on the test-bed (17).

3. the testing machine of the twisting fretting wear test of the small amplitude of generation according to claim 2, it is characterized in that: described cantilever pendular device is by the cam (1) that links to each other with motor (18), be located at the cantilever elastic sheet (2) of cam (1) side, the little thin plate (3) that links to each other with cantilever elastic sheet (2), the anchor post (4) of cantilever mounted elastic sheet (2) is formed with the fork (5) that is connected with following sample support frame (15).

4. according to the testing machine of the twisting fretting wear of claim 2 or the small amplitude of 3 described generations test, it is characterized in that: the fork (5) that described and following sample support frame (15) is connected be arranged in parallel with cantilever elastic sheet (2), is provided with little thin plate (3) between fork (5) and the cantilever elastic sheet (2).

5. the testing machine of the twisting fretting wear test of the small amplitude of generation according to claim 2, it is characterized in that: described loading balancing device is by the load balance beam (7) that is located on the balance beam support post (8), be located at counterweight (6) and counterpoise (10) on load balance beam (7) cantilever, form with coaxial torque sensor that links to each other of counterweight (6) (11) and last sample support frame (12).

6. the testing machine of the twisting fretting wear test of the small amplitude of generation according to claim 5, it is characterized in that: described load balance beam (7) is provided with accurate swivel pin (9) with balance beam support post (8) junction.

7. the testing machine of the twisting fretting wear test of the small amplitude of generation according to claim 2, it is characterized in that: be provided with piston rod in the described hinged cylinder body (16), piston rod is connected down on the sample support frame (15).

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