基于灰关联的三维表征参数与耐磨性相关性分析
|
摘要
从微观几何特征方面分析了三维表面表征参数中影响耐磨性的5种主要指标参数,并以此作为反映零件表面耐磨性性能的主要评价指标;根据灰色关联理论分析方法,构建了评价零件表面耐磨性指标的灰关联分析模型.通过对5种不同三维表面表征参数对耐磨性影响程度的定量分析,得出三维表征参数与耐磨性的内在相关性,并计算出三维表面表征参数对耐磨性的影响权重,从而得出影响耐磨性的主要敏感参数,为建立三维表面功能表征参数体系提供了理论依据.
As evaluation index of wear resistance,five index parameters which affect in three-dimensional surface-characterization parameters have been analyzed from the aspect of microcosmic geometrical characteristic.Base on the theory of grey relation method,an analysis model for the evaluation index of parts-surface wear resistance is developed. According to the quantitative analysis of the influence of the five different three-dimensional surface-characterization and parameters on the wear resistance,the internal correlation of the three-dimensional characterization parameters and the wear resistance are concluded,and the effects of the weight of the three-dimensional surface-characterization and parameters are calculated on the wear resistance,and the main sensitive parameters affecting the abrasion resistance are concluded. The conclusion provides a theoretical foundation for building a three-dimensional surface-characterization-parameters system.
As evaluation index of wear resistance,five index parameters which affect in three-dimensional surface-characterization parameters have been analyzed from the aspect of microcosmic geometrical characteristic.Base on the theory of grey relation method,an analysis model for the evaluation index of parts-surface wear resistance is developed. According to the quantitative analysis of the influence of the five different three-dimensional surface-characterization and parameters on the wear resistance,the internal correlation of the three-dimensional characterization parameters and the wear resistance are concluded,and the effects of the weight of the three-dimensional surface-characterization and parameters are calculated on the wear resistance,and the main sensitive parameters affecting the abrasion resistance are concluded. The conclusion provides a theoretical foundation for building a three-dimensional surface-characterization-parameters system.
引文
[1]李志强.表面微观形貌的测量及其表征[D].重庆:重庆大学,2006.
[2]朱健军.表面三维微观形貌测量及其参数评定的研究[D].哈尔滨:哈尔滨理工大学,2008.
[3]李成贵,董申.三维表面微观形貌的表征参数和方法[J].宇航计测技术,1999,19(6):33-43.
[4]李成贵,董申.三维表面微观形貌的表征趋势[J].中国机械工程,2000,11(5):488-492.
[5]李惠芬,蒋向前,李柱.三维表面功能评定技术发展综述[J].工具技术,2002,36(2):8-11.
[6]董云开,刘莹,温诗铸.微观摩擦与表面形貌相关性的试验研究[J].中国机械工程,2005,16(6):542-545.
[7]朱华,葛世荣,陈国安.磨合表面形貌变化的分形表征[J].机械工程学报,2001,37(5):68-71.
[8]朱双霞.磨削表面纹理表征及其摩擦特性研究[D].南昌:南昌大学,2007.
[9]李振宗,夏勤.表面形貌的功能及其评定参数的研讨[J].上海计量测试,1994,21(4):22-23,14.
[10]李永东,张男.确定机械零件表面粗糙度的灰色关联方法[J].机械设计,2004,21(1):32-33,55.
[11]徐雁.用峰结构函数表征磨损表面形貌的变化过程[J].摩擦学学报,1998,18(1):53-59
[12]刘小君,丁曙光,赵小勇.表面形貌摩擦学功能表征参数的研究[J].合肥工业大学学报:自然科学版,1998,12(6):68-71.
[13]杨印生,谢鹏扬,李洪伟.基于DEA的加权灰色关联分析方法[J].吉林大学学报:工学版,2003,33(1):98-101.
[14]吕锋.灰色系统关联度之分辨系数的研究[J].系统工程理论与实践,1997,17(6):67-69.
[2]朱健军.表面三维微观形貌测量及其参数评定的研究[D].哈尔滨:哈尔滨理工大学,2008.
[3]李成贵,董申.三维表面微观形貌的表征参数和方法[J].宇航计测技术,1999,19(6):33-43.
[4]李成贵,董申.三维表面微观形貌的表征趋势[J].中国机械工程,2000,11(5):488-492.
[5]李惠芬,蒋向前,李柱.三维表面功能评定技术发展综述[J].工具技术,2002,36(2):8-11.
[6]董云开,刘莹,温诗铸.微观摩擦与表面形貌相关性的试验研究[J].中国机械工程,2005,16(6):542-545.
[7]朱华,葛世荣,陈国安.磨合表面形貌变化的分形表征[J].机械工程学报,2001,37(5):68-71.
[8]朱双霞.磨削表面纹理表征及其摩擦特性研究[D].南昌:南昌大学,2007.
[9]李振宗,夏勤.表面形貌的功能及其评定参数的研讨[J].上海计量测试,1994,21(4):22-23,14.
[10]李永东,张男.确定机械零件表面粗糙度的灰色关联方法[J].机械设计,2004,21(1):32-33,55.
[11]徐雁.用峰结构函数表征磨损表面形貌的变化过程[J].摩擦学学报,1998,18(1):53-59
[12]刘小君,丁曙光,赵小勇.表面形貌摩擦学功能表征参数的研究[J].合肥工业大学学报:自然科学版,1998,12(6):68-71.
[13]杨印生,谢鹏扬,李洪伟.基于DEA的加权灰色关联分析方法[J].吉林大学学报:工学版,2003,33(1):98-101.
[14]吕锋.灰色系统关联度之分辨系数的研究[J].系统工程理论与实践,1997,17(6):67-69.