CONSTITUTIVE EQUATION OF A NEW AVIATION LUBRICATING OIL

1、constitutive equation of a new aviation lubricating oilabstract: the traction of a new aviation lubricating oil was measured on a self-made test rig. the calculating formulae of the rheological parameters of the oil such as erying stress, limiting shear stress and shear elastic modulus were obtained

2、 under the condition of the high shear strain rate in elastohydrodynamic lubrication(erl). the constitutive equation of this oil was determined and verified by test. the results of experiments show that the behavior of the new aviation lubricating oil behaves as visco-elastic fluid and the theoretic

3、al value agrees fairly well with the measured data, which implies that the constitutive equation of this oil is correct and feasible. key words: lubricating oil constitutive equation rheological parameters traction0introductionfor the high speed rolling bearings, the traction force exerted on the ro

4、lling element interfaces makes the rolling elements accelerate, decelerate, skid or skew. thus cage instabilities and the longevity of a rolling bearing are associated with the traction behavior of the lubricant. under the working condition of elastohydrodynamic lubrication (ehl), the selection of t

5、he constitutive equation affects the traction of the lubricant directly. dyson, et al131, proposed several kinds of rheological models to compute the traction coefficient of the lubricant. however, these rheological models are practically inapplicable because some parameters of the rheological model

6、s are hard to determine. barlow, et al471, researched the rheological characteristics of the lubricants under static state and low shear using rheological instrument. but the rheological parameters of the lubricant under the condition of high pressure and high shear rate can not be determined by usi

7、ng rheological instrument at present. for these reasons, the traction experiments of a new aviation lubricating oil under various velocities, temperatures and loads were carried out on the self-made traction test rig. the rheological parameters of the new aviation lubricating oil under the condition

8、 of high pressure and high shear strain rate were obtained from the traction experiments and the constitutive equation of this aviation oil was established and verified by experiments.1traction experimentthe traction experiment rig is shown in fig. 1. the specimens of the test rig are a steel disk a

9、nd a steel ball. the structure of the test rig and the measuring method of the traction can be seen in ref. 8. the traction experiment is to measure the traction force f at different slide-to-roll ratio s=ivi-v2)/v when pressure p, rolling velocity v=(vi+v2)/2 and inlet oil temperature t0 are kept a

10、nd thus the experimental curve of the traction coefficient n (jt=f/fv, where w is the normal load) against slide-to-roll ratio 5 can be obtained.the main characteristic parameters of the new aviation lubricating oil are as follows. ambient temperature is 27 c, dynamic viscosity in ambient temperatur

11、e r$ = 0.027(pa s), viscosity- pressure coefficient a=1.55xlo*(l/pa), viscosity-temperature coefficient p= 0.029 (l/c), thermal conductivity k = 0.096 6(n/(s v).the working condition is as follows. rolling velocity 10, 20, 30, 40 m/s respectively, inlet oil temperature 27, 60, 90, 125 c, maximum her

12、tz pressure 0.8, 1.0, 1.1, 1.2, 1.35, 1.5 gpa.in the experiment, the slide-to-roll ratio s is in the range of 0 to 0.2, thus 96 curves described in the form of traction coefficient fj against the slide-to-roll ratio s can be obtained in a state of full ehl.2 constitutive equation of the new aviation

13、 lubricating oilnon-newtonian effects become significant when the mean shear stress is higher than l%-5% of the mean pressure in elastohydrodynamic lubrication. at low shear strain rates the lubricant behaves as linear viscous or elastic fluid, and with a subsequent increase in the shear strain rate

14、 the lubricant undergoes the transition from viscoelasticity to plasticity until the shear stress arrives at the limiting shear strength91. at the present time, the constitutive model that can describe the above property well is evans-johnson model1121, in which not only the influence of q, ge, to i

15、s considered but the influence of limiting shear stress rl is also considered. in the traction experiment of this paper, the shear stress is where g n, r0 and rl are shear elastic modulus, viscosity, eyring stress and limiting shear stress respectively.when the rheological parameters ge, q, t0 and r

16、l are determined, the constitutive equation of the new aviation lubricating oil can be determined. the value of shear stress x at a given operating condition can be obtained from the solution of eq. (1)3 rheological parameters of the new aviation lubricating oil3.1 erying stress r0 and viscosity t/w

17、hen the product of the pressure-viscosity coefficient and the mean hertzian pressure dp is between 13 and 25, the oil behavior within the oil film is viscoelastic . in this paper, the new aviation lubricating oil behaves as viscoelastic fluid due to dp r0 should be taken for the regression analysis

18、with eq. (6) in this case. according to above method, 96 groups of the values of erying stress can be obtained at various pressures, rolling velocities and inlet oil temperatures.for the convenience in engineering applications, the 96 group values of erying stress ro can be curve fitted to the follo

19、wing formula where p0 = p0 / e is dimensionless parameter of hertz peakpressure, v=tj0v/er is dimensionless parameter of velocity,and t0 = t0jk/t0/(er) is dimensionless parameter of temperature. the coefficient of correlation is 0.997 5, and average relative error is 1.95% by adopting eq. (7) for fi

20、t.3.2 shear elastic modulus gt and limiting shear stress tlthe measurement of shear elastic modulus must be based on the condition that the lubricant is a mixed response of both elastic and viscous behavior to the imposed small shear strain rate in the linear region. under the experimental condition

21、 of this paper, deborah number is larger than 1, so the lub bating oil behaves as linear viscoelastic fluid when the shear strain is small. thus the relationship of shear stress xii shea,- strain rate in the linear region cai: be expressed with iineai max;vel! model.even though the traction test doe

22、s not differentiate between elastic aod visco-elastic responses to the shear in the linear region, with eq. (8) it is possible to extract the effective shear modulus from the linear part of the traction curves. if the fluid flows through the contact with a steady velocity v parallel to the rolling d

23、irection, due to the rolling motion, the convective derivative reduces to eq. (8) is then integrated and further rearranged as so, the average shear strain in the contact region can be expressed as where a is the half-width of the contact region along the rolling direction. since where a is the area

24、 of contact circle, a is the radius of contact circle. substitute eqs. (12) and (14) into eq. (11), then the mean shear modulus takes the form of method. it should be noted that eq. (4) is applicable only when the non-linear region of a traction curve is clearly distinguished. sowhere m=/s is the sl

25、ope of the traction curve in the linear region. under the operating condition of high pressure, when the sliding velocity increases to a certain degree, the lubricating oil becomes plastic, which causes the shear stress to approach a limit value, and the traction force f to approach a constant value

26、 f,the maximum traction coefficient of the lubricating oil is where w=2npyotrs is the normal load, and /, can be obtained from experimental data.average shear elastic modulus ge and average limiting shear stress rl in the contact region under the given experimental conditions can be obtained by eqs.

27、 (is) and (18). for the convenience in engineering applications, the shear modulus gc and limiting shear stress fl can be related to the dimensionless parameters p0, v and t0. suppose local limiting shear stress rl and shear elastic modulus ge at all points are assumed to be constant at their averag

28、e value rl and gc respectively over the contact, then the following equations can be obtained the correlation coefficient is 0.979 1 for rl and 0.982 5 for ge, and the average relative error is less than 4%.4 comparative analysis between theoretical computation and experimental resultsto illustrate

29、the reasonableness of the constitutive equation of the new aviation lubricating oil, three testing conditions were selected to carry out the comparison between model prediction and experimental observation. these three testing conditions are 0.8, 1.2 and 1.5 gpa maximum hertzian pressure respectivel

30、y at 25 m/s rolling velocity and 90 v inlet oil temperature. fig. 2 shows the results of the comparison including the experimental traction curves obtained with the new aviation lubricating oil and the corresponding theoretical curves calculated with eq. (1) in the form of traction coefficients ft v

31、ersus slide-to-roll ratio s. table shows the results of comparison between the experimental values and calculating values of traction coefficient at rolling velocity v=25 m/s, inlet oil temperature 7*0=90 v, maximum hertz pressure p0=l-5 gpa. it can be demonstrated from fig. 2 and table that there e

32、xists a good agreement in the overall range. the relative errors between theoretical computing values and experimental measuring values are less than 11% and the errors at low shear strain rates are larger. so the constitutive equation of the new aviation lubricating oil is correct and feasible, which can be used for the theoretical analysis of the dynamics of rolling bearings.5 conclusionsthe new aviation lub