哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2015年
4期
539-543
,共5页
张健%姜继海%白云峰%李艳杰
張健%薑繼海%白雲峰%李豔傑
장건%강계해%백운봉%리염걸
液压系统%气穴%气泡半径%液压油温度%Rayleigh-Plesset方程%多变指数
液壓繫統%氣穴%氣泡半徑%液壓油溫度%Rayleigh-Plesset方程%多變指數
액압계통%기혈%기포반경%액압유온도%Rayleigh-Plesset방정%다변지수
hydraulic system%cavitation%bubble radius%hydraulic oil temperature%Rayleigh-Plesset equation%pol-ytropic exponent
针对液压系统中气穴的产生及其发展过程常伴随着液压油温度变化的现象,研究了液压系统中气穴产生及其发展过程与液压油温度变化的关系。结合液压系统中气穴产生及其发展过程的特点,对气穴中气泡产生、发展过程中的热力学条件进行适当假设,应用热力学原理推导了气穴产生时气泡膨胀阶段气泡半径变化与液压油温度变化之间的关系式,改进了Rayleigh-Plesset方程。应用数值计算方法对气泡半径与液压油温度的关系进行了数值模拟研究,并通过试验进行了验证,得出气穴产生后,在气泡膨胀的整个过程中,多变指数k取1~1.24更符合实际规律。
針對液壓繫統中氣穴的產生及其髮展過程常伴隨著液壓油溫度變化的現象,研究瞭液壓繫統中氣穴產生及其髮展過程與液壓油溫度變化的關繫。結閤液壓繫統中氣穴產生及其髮展過程的特點,對氣穴中氣泡產生、髮展過程中的熱力學條件進行適噹假設,應用熱力學原理推導瞭氣穴產生時氣泡膨脹階段氣泡半徑變化與液壓油溫度變化之間的關繫式,改進瞭Rayleigh-Plesset方程。應用數值計算方法對氣泡半徑與液壓油溫度的關繫進行瞭數值模擬研究,併通過試驗進行瞭驗證,得齣氣穴產生後,在氣泡膨脹的整箇過程中,多變指數k取1~1.24更符閤實際規律。
침대액압계통중기혈적산생급기발전과정상반수착액압유온도변화적현상,연구료액압계통중기혈산생급기발전과정여액압유온도변화적관계。결합액압계통중기혈산생급기발전과정적특점,대기혈중기포산생、발전과정중적열역학조건진행괄당가설,응용열역학원리추도료기혈산생시기포팽창계단기포반경변화여액압유온도변화지간적관계식,개진료Rayleigh-Plesset방정。응용수치계산방법대기포반경여액압유온도적관계진행료수치모의연구,병통과시험진행료험증,득출기혈산생후,재기포팽창적정개과정중,다변지수k취1~1.24경부합실제규률。
Aiming at the phenomenon that the formation and development process of cavitation accompany the tem-perature variation of hydraulic oil in hydraulic system, the relationship between the formation and development process of cavitation and the temperature variation of hydraulic oil was discussed in this paper.By combining the characteristics of the generation and the development process of cavitation, and making proper presumption on ther-modynamic condition of the generation and development process of cavitation, the relationship between the variation of bubble radius and the temperature change of hydraulic oil in the bubble expansion stage when a cavitation ap-pears was derived by thermodynamic principle and the Rayleigh-Plesset equation was improved.Subsequently, a numerical calculation method is applied to carry out numerical simulation research on the relationship between the bubble radius and the temperature of hydraulic oil.In addition, a test was applied for verification.The results show that after cavitation has appeared, in the entire process of bubble expansion, it will conform to practical law better if the polytropic exponent takes 1~1.24.