端面摩擦磨损试验在线检测系统的研究
|
摘要
摩擦磨损现象广泛存在于我们的日常生活中,所以摩擦学研究对国民经济具有十分重要的意义。在理论知识的指导下,进行摩擦学试验是摩擦学研究的一个基本途径。随着计算机技术的飞速发展,自动化测试技术也日趋成熟,将其应用于摩擦磨损试验系统已成为摩擦学试验技术研究的一个重要内容。本文正是在应用计算机辅助摩擦磨损试验的基础上,结合智能仪器对端面摩擦磨损试验在线检测技术进行研究。并利用VC++6.0编制的软件以及相应的硬件设备实现了试验数据的实时采集、分析处理、输出等功能,可方便地对试验作出实时、量化的评估。本研究从根本上改变了传统摩擦学试验不能体现摩擦学的系统性和时变性的缺点,由于其良好频率响应性能,满足了摩擦学试验的实时要求,保证了试验结果的准确性。摩擦磨损试验在线检测技术的应用将使摩擦学试验朝着效率提高、功能完善、费用降低、技术成熟的方向发展。
Friction &Wear phenomena widely exist on our day-to-day life,so the tribology research has great meaning to the National Economy. With the direction of the theory,it is a basic means of tribology research to process tribology experiment. With the great development of computer technique,automatization testing technique is being mature little by little,so it is a very important content of tribology experiment technique to use automatization testing technique to friction & wear experiment system. We just use computer in tribology experiment system to assistant friction & wear experiment,at the same time,combine the intellectualized instrument to study end-face friction & wear experiment online testing technique. And use the software made with VC ++6.0 and corresponding hardware,to implement experiment datum's real-time collection,analysis processing and export function ect,then,to have a real-time and right estimate to tribology experiment. This research radically change the traditional tribology experiment sys
tem's shortcoming that it can not represent tribology systematize and timeliness,because of it's good frequency capability,it can satisfy tribology experiment's real-time require,assure experiment result's veracity. Using of Friction & wear experiment online testing technique makes tribology experiment develop with the aspect of efficient-advanced,function-perfected,cost-reduced,technique-matured.
Friction &Wear phenomena widely exist on our day-to-day life,so the tribology research has great meaning to the National Economy. With the direction of the theory,it is a basic means of tribology research to process tribology experiment. With the great development of computer technique,automatization testing technique is being mature little by little,so it is a very important content of tribology experiment technique to use automatization testing technique to friction & wear experiment system. We just use computer in tribology experiment system to assistant friction & wear experiment,at the same time,combine the intellectualized instrument to study end-face friction & wear experiment online testing technique. And use the software made with VC ++6.0 and corresponding hardware,to implement experiment datum's real-time collection,analysis processing and export function ect,then,to have a real-time and right estimate to tribology experiment. This research radically change the traditional tribology experiment sys
tem's shortcoming that it can not represent tribology systematize and timeliness,because of it's good frequency capability,it can satisfy tribology experiment's real-time require,assure experiment result's veracity. Using of Friction & wear experiment online testing technique makes tribology experiment develop with the aspect of efficient-advanced,function-perfected,cost-reduced,technique-matured.
引文
[1] 刘维民,薛群基.摩擦学研究及发展趋势.中国机械工程,2000,11(1/2):77~81
[2] 张嗣中.摩擦学的进展与展望.摩擦学学报,1994,14(1):84~88
[3] 周受钦,谢友柏.摩擦学现代设计虚拟研发系统.中国机械工程,1999,10(8):932~934
[4] 陈卓君,徐宝信,杨文通等.摩擦学试验方法的研究及发展.机械制造及设计,1999,(6):62~63
[5] 于海玲,费业泰.动态测试实时误差的灰度预测及其精度估计.宇航计测技术,1999,19(2):49~52
[6] 费业泰.误差处理与数据处理.北京:机械工业出版社,1998
[7] 胡大海,严华,贺波等.动态信号采集分析系统软件设计与实现.现代科学仪器,1997,(2):24~25
[8] 徐杜.基于实时测量系统的误差离散值修正方法.实用测试技术,1995,(2):24~26
[9] 朱铮涛。计算机实时测量软件开发.机械工艺师,2001,(6):39~40
[10] 王黎钦,刘明霞,古乐.计算机在摩擦学试验测试技术中的应用.哈尔滨工程技术大学学报,2000,21(2):81~84
[11] 岳瑞华,许化龙,周凤刚.计量中A/D板的编程和标定.宇航计测技术,1999,19(1):19~21
[12] John R Vig.Quartz crystal resonators and oscillators for frequency control and timing applications.A tutorial,1993,IEEE frequency control symposium,1993
[13] Edward Jackson.The microcomputer compensated crystal oscillator—A progress report.Proceedings of the 1996 IEEE international frequency control symposium,1996,687~692
[14] 陆永耕.摩擦磨损参数在线测试仪.焦作工学院院报(自然科学版),2000,19(6):441~442
[15] 徐爱均,彭秀华.单片机高级语言C51应用程序设计.北京:电子工业出版社,1999
[16] 杨秀杰.你的测试数据真实吗?,宇航计测技术,1999,19(2):62~63
[17] 张双杰,朱清香,赵军.万能试验机计算机数据采集处理系统.河北工业科技,2000,17(2):5~7
[18] 邵荷生,曲敬信.摩擦与磨损.北京:煤炭工业出版社,1982
[19] 黄长艺,严普强.机械工程测量技术基础.北京:机械工业出版社,1996
[20] 张捍东,尹柯.微机控制系统的屏蔽措施.电测与仪表,1998,35(2):14~15
[21] 张捍东.微机控制系统接地的实际考虑.电气传动与自动化,1996,(4)
[22] 翁来,杨皓,杨炜.微机在摩擦磨损试验机中的应用.试验室研究与探索,1997,(4):95~96
[23] 腾召胜,罗隆福,童调生.职能检测系统与数据融合.北京:机械工业出版社,1999
[24] Morris S. B. Automated Manufacturing System. U. S. A.: GLENCOE, 1994
[25] R. S. Beebe. Tribology—condition monitoring's contribution. International tribology conference, 1987, 236~239
[26] Ernest C. Bernhardt. Using CAE systems for successful design. SME—MS90—731, 1990, 8
[27] S. Jahamir. A computerized tribology information system. Engineered materials for advanced friction and wear applications. ASM, 1989, 243~247
[28] Liu Jin—Song. Several problems in development and design of low—cost PC—based testing instruments and systems. China Instrument Society, 1988, 223~228
[29] Miyoshi. K. Measuring adhesion and friction of forces. Tech. Notes. 1991, (5): 442
[30] Kenneth C. Lvedna. Seventy years of research on wear. ASMETRIB—Vol. 1, 1990, 111~128
[31] Narduzzi, C. A time—domain method for the accurate characterization of liner systems. IEEE Trans. Instrument Measurement, 1991, 40 (2): 415~419
[32] 刘文彦,周学平,刘辉.现代测试系统.长沙:国防科技大学出版社,1995
[33] 孙家琪. 自动测试系统.北京:机械工业出版社,1990
[34] 施文康,余晓芬,检测技术.北京:机械工业出版社,2000
[35] 施文康,徐锡林。测试技术.上海:上海交通大学出版社,1996
[36] 王江.现代测量测试技术.北京:中国计量书半社,1990
[37] 常健生,检测与转换技术.北京:机械工业出版社,1981
[38] 杨惠连,张涛.误差理论与数据处理.天津:天津大学出版社,1992
[39] 高晓康,Walter Stuetz,Juergen Zech,Karlheihz Scholer.计算机辅助测试技术及其应用.计算机自动测量与控制,2001,9(5):4~5
[40] 刘海.在流量测量中估算真值数字滤波器设计.电子测量技术,2001
[41] 宋启敏,陆明刚.四球试验机的微机控制.机电工程,1998,(1):21~22
[42] Helmut Kremer,Roland Fischer.模数一体化传感器信号处理方法。传感器世界,2001,(4):32~35
[43] 龚瑞昆.改善传感器特性的软件处理方法.传感器世界,2001,(2):43~47
[44] 王峰,夏龙.压力传感器的二线制传输电路应用设计及分析.传感器世界,2001,(5):25~28
[45] 胡在华,彭楚武,夏一翔.测控系统中智能式温湿度传感器的实现.传感器世界,2001,(2):39~42
[46] 孙以材,孟庆浩,孙冰.外加电压和桥电压对压力传感器零点和灵敏度影响理论分析,2001,(3):30~34
[47] 温诗铸.磨擦学原理.北京:清华大学出版社,1990
[48] 王浩.面向对象程序设计.合肥:安徽大学出版社,1999
[49] David J.Kruglinski,Scot Wingo,George Shephered,希望图书创作室译.Visual C++6.0 技术内幕.北京:北京希望电子出版社,1999
[50] 官章全,唐晓卫.Visual C++6.0编程实例详解.北京:电子工业出版社,1999
[51] 于春凡.C语言及其高级编程技术.天津:南开大学出版社,1995
[52] 李键,韦习成,赵源等.计算机辅助摩擦磨损测试技术初探.第六界全国摩擦学学术会议论文集,1995,7~9
[53] Waltz EL, Bvede DE. Data Fusion and Decision Support for Command and Control. Proc. IEEE Trans. System, Man and Cybernetics, 1986, 16 (16): 865~879
[54] Mohanty N. Random Signals Estimation and Identifications, Analysis and Application. Van Nostrand Reinhold Co. 1986
[55] Petensen K. From microsensors to microinstruments. Sensor & Actuators, 1996 A56, 143~149
[56] Fraser C.Milne J.Electro—Mechanical Engineering.IEEE press,1994
[57] 吴正毅.测试技术与测试信号处理.北京:清华大学出版社,1991
[58] 单成祥.传感器的理论与设计基础及其应用.北京:国防工业出版社,1999
[59] Giesecke,Huething Verlat,Heidelberg.Industrial Measurement.1999
[60] 傅庭和.力学计量技术.北京:机械工业出版社,1988
[61] 戴梅萼,史嘉权.微型计算机技术及应用.北京:清华大学出版社,1996
[62] Jeffrey Richer,郑全战,阿夏译.The Developer's Guide to Win32 API for Windows95 and NT.北京:清华大学出版社,1996
[63] Waltz E, Llinas J. Mutisensor Data Fusion. New York: Artech House, INC, 1990
[64] D.Luttenbacher, S.Roth, M.Robert. Application of object-oriented technology to intelligent sensor development. Measurement, 1996, 17(3): 201~216
[65] A. Fischer. Construction of a new wear tester for elevated temperatures and first results of sliding abrasion test. Wear of material, ASME, 1989, Vol. 2
[66] B. V. Protopopov. Some features of tribosystem standardization. Wear of material, AMSE, 1991, 659~660
[67] Achievements in tribology:ASME TRIB—Vol. 1, ASME, 1990, 173
[68] International Tribology Conference. 1987
[69] 史福元.微机接口与输入输出过程通道.北京:科学技术文献出版社,1995
[70] 马俊如,余翔林.高技术研究前沿展望.合肥:中国科学技术大学出版社,1995
[2] 张嗣中.摩擦学的进展与展望.摩擦学学报,1994,14(1):84~88
[3] 周受钦,谢友柏.摩擦学现代设计虚拟研发系统.中国机械工程,1999,10(8):932~934
[4] 陈卓君,徐宝信,杨文通等.摩擦学试验方法的研究及发展.机械制造及设计,1999,(6):62~63
[5] 于海玲,费业泰.动态测试实时误差的灰度预测及其精度估计.宇航计测技术,1999,19(2):49~52
[6] 费业泰.误差处理与数据处理.北京:机械工业出版社,1998
[7] 胡大海,严华,贺波等.动态信号采集分析系统软件设计与实现.现代科学仪器,1997,(2):24~25
[8] 徐杜.基于实时测量系统的误差离散值修正方法.实用测试技术,1995,(2):24~26
[9] 朱铮涛。计算机实时测量软件开发.机械工艺师,2001,(6):39~40
[10] 王黎钦,刘明霞,古乐.计算机在摩擦学试验测试技术中的应用.哈尔滨工程技术大学学报,2000,21(2):81~84
[11] 岳瑞华,许化龙,周凤刚.计量中A/D板的编程和标定.宇航计测技术,1999,19(1):19~21
[12] John R Vig.Quartz crystal resonators and oscillators for frequency control and timing applications.A tutorial,1993,IEEE frequency control symposium,1993
[13] Edward Jackson.The microcomputer compensated crystal oscillator—A progress report.Proceedings of the 1996 IEEE international frequency control symposium,1996,687~692
[14] 陆永耕.摩擦磨损参数在线测试仪.焦作工学院院报(自然科学版),2000,19(6):441~442
[15] 徐爱均,彭秀华.单片机高级语言C51应用程序设计.北京:电子工业出版社,1999
[16] 杨秀杰.你的测试数据真实吗?,宇航计测技术,1999,19(2):62~63
[17] 张双杰,朱清香,赵军.万能试验机计算机数据采集处理系统.河北工业科技,2000,17(2):5~7
[18] 邵荷生,曲敬信.摩擦与磨损.北京:煤炭工业出版社,1982
[19] 黄长艺,严普强.机械工程测量技术基础.北京:机械工业出版社,1996
[20] 张捍东,尹柯.微机控制系统的屏蔽措施.电测与仪表,1998,35(2):14~15
[21] 张捍东.微机控制系统接地的实际考虑.电气传动与自动化,1996,(4)
[22] 翁来,杨皓,杨炜.微机在摩擦磨损试验机中的应用.试验室研究与探索,1997,(4):95~96
[23] 腾召胜,罗隆福,童调生.职能检测系统与数据融合.北京:机械工业出版社,1999
[24] Morris S. B. Automated Manufacturing System. U. S. A.: GLENCOE, 1994
[25] R. S. Beebe. Tribology—condition monitoring's contribution. International tribology conference, 1987, 236~239
[26] Ernest C. Bernhardt. Using CAE systems for successful design. SME—MS90—731, 1990, 8
[27] S. Jahamir. A computerized tribology information system. Engineered materials for advanced friction and wear applications. ASM, 1989, 243~247
[28] Liu Jin—Song. Several problems in development and design of low—cost PC—based testing instruments and systems. China Instrument Society, 1988, 223~228
[29] Miyoshi. K. Measuring adhesion and friction of forces. Tech. Notes. 1991, (5): 442
[30] Kenneth C. Lvedna. Seventy years of research on wear. ASMETRIB—Vol. 1, 1990, 111~128
[31] Narduzzi, C. A time—domain method for the accurate characterization of liner systems. IEEE Trans. Instrument Measurement, 1991, 40 (2): 415~419
[32] 刘文彦,周学平,刘辉.现代测试系统.长沙:国防科技大学出版社,1995
[33] 孙家琪. 自动测试系统.北京:机械工业出版社,1990
[34] 施文康,余晓芬,检测技术.北京:机械工业出版社,2000
[35] 施文康,徐锡林。测试技术.上海:上海交通大学出版社,1996
[36] 王江.现代测量测试技术.北京:中国计量书半社,1990
[37] 常健生,检测与转换技术.北京:机械工业出版社,1981
[38] 杨惠连,张涛.误差理论与数据处理.天津:天津大学出版社,1992
[39] 高晓康,Walter Stuetz,Juergen Zech,Karlheihz Scholer.计算机辅助测试技术及其应用.计算机自动测量与控制,2001,9(5):4~5
[40] 刘海.在流量测量中估算真值数字滤波器设计.电子测量技术,2001
[41] 宋启敏,陆明刚.四球试验机的微机控制.机电工程,1998,(1):21~22
[42] Helmut Kremer,Roland Fischer.模数一体化传感器信号处理方法。传感器世界,2001,(4):32~35
[43] 龚瑞昆.改善传感器特性的软件处理方法.传感器世界,2001,(2):43~47
[44] 王峰,夏龙.压力传感器的二线制传输电路应用设计及分析.传感器世界,2001,(5):25~28
[45] 胡在华,彭楚武,夏一翔.测控系统中智能式温湿度传感器的实现.传感器世界,2001,(2):39~42
[46] 孙以材,孟庆浩,孙冰.外加电压和桥电压对压力传感器零点和灵敏度影响理论分析,2001,(3):30~34
[47] 温诗铸.磨擦学原理.北京:清华大学出版社,1990
[48] 王浩.面向对象程序设计.合肥:安徽大学出版社,1999
[49] David J.Kruglinski,Scot Wingo,George Shephered,希望图书创作室译.Visual C++6.0 技术内幕.北京:北京希望电子出版社,1999
[50] 官章全,唐晓卫.Visual C++6.0编程实例详解.北京:电子工业出版社,1999
[51] 于春凡.C语言及其高级编程技术.天津:南开大学出版社,1995
[52] 李键,韦习成,赵源等.计算机辅助摩擦磨损测试技术初探.第六界全国摩擦学学术会议论文集,1995,7~9
[53] Waltz EL, Bvede DE. Data Fusion and Decision Support for Command and Control. Proc. IEEE Trans. System, Man and Cybernetics, 1986, 16 (16): 865~879
[54] Mohanty N. Random Signals Estimation and Identifications, Analysis and Application. Van Nostrand Reinhold Co. 1986
[55] Petensen K. From microsensors to microinstruments. Sensor & Actuators, 1996 A56, 143~149
[56] Fraser C.Milne J.Electro—Mechanical Engineering.IEEE press,1994
[57] 吴正毅.测试技术与测试信号处理.北京:清华大学出版社,1991
[58] 单成祥.传感器的理论与设计基础及其应用.北京:国防工业出版社,1999
[59] Giesecke,Huething Verlat,Heidelberg.Industrial Measurement.1999
[60] 傅庭和.力学计量技术.北京:机械工业出版社,1988
[61] 戴梅萼,史嘉权.微型计算机技术及应用.北京:清华大学出版社,1996
[62] Jeffrey Richer,郑全战,阿夏译.The Developer's Guide to Win32 API for Windows95 and NT.北京:清华大学出版社,1996
[63] Waltz E, Llinas J. Mutisensor Data Fusion. New York: Artech House, INC, 1990
[64] D.Luttenbacher, S.Roth, M.Robert. Application of object-oriented technology to intelligent sensor development. Measurement, 1996, 17(3): 201~216
[65] A. Fischer. Construction of a new wear tester for elevated temperatures and first results of sliding abrasion test. Wear of material, ASME, 1989, Vol. 2
[66] B. V. Protopopov. Some features of tribosystem standardization. Wear of material, AMSE, 1991, 659~660
[67] Achievements in tribology:ASME TRIB—Vol. 1, ASME, 1990, 173
[68] International Tribology Conference. 1987
[69] 史福元.微机接口与输入输出过程通道.北京:科学技术文献出版社,1995
[70] 马俊如,余翔林.高技术研究前沿展望.合肥:中国科学技术大学出版社,1995