Stability analysis on scale factor of accelerometer based on fuzzy theory
-
摘要: 运用模糊理论描述了影响加速度计标度因数稳定性诸多因素的不确定性问题,针对其中的磁钢磁感应强度和石英摆片热膨胀系数两类稳定性影响因素,给出了其三角模糊数区间,并通过该型加速度计的磁-结构耦合ANSYS分析求出了在模糊参数不同组合下的仿真输出,根据仿真输出结果获得了标度因数模糊稳定区间,给出了加速度计标度因数稳定性分析流程及实例.分析说明了基于模糊理论的稳定性分析方法可以为加速度计加速稳定试验截止条件提供依据,对提高加速度计标度因数长期稳定性水平具有重要意义.Abstract: Fuzzy theory was used to analyze the scale factor stability of accelerometer, since many affected factors of scale factor of accelerometer emerged some uncertainty nature, which can be describe by fuzzy theory. Specifically, triangular fuzzy numbers was used to derive the changing interval of magnetic flux density and thermal expansion coefficient of quartz material, which is the dominant affected factors for scale factor stability, according to the different combination of triangular fuzzy numbers results, ANSYS magnetic-structure coupling simulation was introduced to get the different accelerometer simulation output, and then obtained the scale factor fuzzy stability interval, which was applied to the analysis of scale factor stable condition in the accelerometer accelerated stability test and the conclusion was properly. The conclusion illustrate that fuzzy theory analysis of scale factor stability can provide appropriately condition in the accelerometer accelerated stability test, for neither waste the cost of the test nor inadequate for the result, the conclusion also have great significance to the improvement of accuracy level for the long-term stability of accelerometer scale factor.
-
[1] Biezad D J.Integrated navigation and guidance system[M].America:the Aerospace Press,2006:48-100 [2] 孙玉声,戴莲瑾,于奎,等.石英挠性加速度计参数计算与误差项分析[J].振动与动态测试,1984(3):13-22 Sun Yunsheng,Dai Lianjin Yu Kui,et al.Quartz accelerometers calculation and analysis of the error [J].Vibration and Dynamic Testing,1984(3):13-22(in Chinese) [3] GJB1037A-2004 单轴摆式伺服线加速度计试验方法[S] GJB1037A-2004 Test methods for single-axis pendulous servo linear accelerometers[S](in Chinese) [4] 张洪才,陈举华,黄克正,等.基于模糊理论的不精确可靠性数据的使用[J].机械设计,2003,20(11):28-30 Zhang Hongcai,Chen Juhua,Huang Kezheng,et al.Imprecise reliability based on fuzzy theory the use of data[J].Mechanical Design,2003,20(11):28-30(in Chinese) [5] 王瑜,董鹏斌,张百成.NdFeB磁体热稳定性及磁通不可逆损失的评估[J].金属功能材料,2006,13(5):26-30 Wang Yu,Dong Pengbin,Zhang Baicheng.Assessment of NdFeB magnet thermal stability and irreversible loss of flux [J].Metallic Functional Materials,2006,13(5):26-30(in Chinese) [6] 刘国征,夏宁,赵明静,等.永磁材料长期稳定性研究进展[J].稀土,2010,31(2):40-44 Liu Guozheng,Xia Ning,Zhao Mingjing,et al.Advances in long-term stability of permanent magnetic materials[J].Rare Earths,2010,31(2):40-44(in Chinese) [7] Liu Jinfang,Walmer M.Designing with high performance rare earth permanent magnets //Proc of the 18th Int.Workshop on High Performance Magnets and Their Applications.France:Annecy,2004:630-636 [8] 王玉芬,刘连城.石英玻璃SiO2[M].北京:化学工业出版社,2007:126-127 Wang Yufen,Liu Liancheng.Quartz glass SiO2 [M].Beijing:Chemical Industry Press,2007:126-127 (in Chinese) [9] 陈锦杜,于永泰.液浮摆式加速度计的精密离心机试验 //加速度计文集.北京:航空工业出版社,2005:335-356 Chen Jindu,Yu Yongtai.Liquid floated accelerometer precision centrifuge tests //Corpus of Accelerometer.Beijing:Aviation Industrial Press,2005:335-356(in Chinese) [10] 厉章钦.高精度加速度计试验中的输入误差和输出测量误差 //加速度计文集.北京:航空工业出版社,2005:227-234 Li Zhangqin.High-precision accelerometer test input error and output measurement errors //Corpus of Accelerometer.Beijing:Aviation Industrial Press,2005:227-234(in Chinese) [11] 陈俊东.NJ2挠性加速度计10G离心试验数据处理 //上海仪表厂.加速度计文集.北京:航空工业出版社,2005:235-253 Chen Jundong.NJ2 10G accelerometer centrifuge test data //Shanghai Instrument Factory.Corpus of Accelerometer.Beijing:Aviation Industrial Press,2005:235-253(in Chinese) [12] 张公绪.新编质量管理学[M].北京:高等教育出版社,1997:85-100 Zhang Gongxu.New quality management[M].Beijing:Higher Education Press,1997:85-100(in Chinese)
点击查看大图
计量
- 文章访问数: 3214
- HTML全文浏览量: 100
- PDF下载量: 718
- 被引次数: 0