Objective:To observe the clinical therapeutic effect on atlantoaxial instability treated with the combination of ulna-tibia needling therapy and"point-to-surface"tuina manipulation.Methods:A total of 64 outp...Objective:To observe the clinical therapeutic effect on atlantoaxial instability treated with the combination of ulna-tibia needling therapy and"point-to-surface"tuina manipulation.Methods:A total of 64 outpatients diagnosed as atlantoaxial instability were collected and randomized into a control group and an observation group,32 cases in each one.In the control group,flunarizine hydrochloride capsules were used for oral administration.In the observation group,the combined treatment of ulna-tibia needling therapy and"point-to-surface"tuina manipulation was adopted.The ulnatibia needling therapy was exerted at the cutaneous region of hand taiyang meridian on the ulnar region(from carpal joint to elbow joint)on both sides.The"point-to-surface"tuina manipulation included"onepoint and two-surface"technique,"upper-to-lower pressing"method and"lifting-trembling"method.The treatment was provided once daily,consecutively for 5 times.The scores of neck symptoms and physical signs,atlantoaxial axle separation degree and clinical therapeutic results were taken as the observation indicators to evaluate the treatment effect.Results:After treatment,the curative rate and the total effective rate in the observation group were all higher significantly than the control group(all P<0.01).The scores of clinical symptoms and physical signs were statistically different in the self-comparison of each group before and after treatment(all P<0.05).After treatment,the scores of clinical symptoms and physical signs,the excellence rate of atlantoaxial axle separation and the effective rate in the observation group were all significantly better than those of the control group(all P<0.01).Conclusion:The combination of ulna-tibia needling therapy and"point-to-surface"tuina manipulation achieves the better clinical therapeutic effect as compared with flunarizine hydrochloride.展开更多
The 3-D traction field in the pressure screw-pair of a 3 500 heavy and mediumplate mill press down system is successfully calculated by applying the 3-D frictional contactmultipole-BEM and the corresponding program th...The 3-D traction field in the pressure screw-pair of a 3 500 heavy and mediumplate mill press down system is successfully calculated by applying the 3-D frictional contactmultipole-BEM and the corresponding program that has been developed. The computing results show themedium diameter orientation is unreliable, especially under the interference of an outer forcecouple. Under such working conditions, the circumferential traction distribution on the screw teethis extremely uneven, which is the main reason for the destruction and short life time ofscrew-pairs. When utilizing the same precision (the relative tolerance is 10X10^(-5)), themultipole-BEM uses almost the same CPU time as used by the FEM, but the needed computer memory sizeis only one eightieth of that needed by the FEM (10 MB vs. 800 MB). The multipole-BEM is well suitedfor computing large-scale engineering problems.展开更多
This paper presents a new mathematical model for the highly nonlinear problem of frictional con- tact. A programming model, multipole boundary element method (BEM), was developed for 3-D elastic con- tact with frict...This paper presents a new mathematical model for the highly nonlinear problem of frictional con- tact. A programming model, multipole boundary element method (BEM), was developed for 3-D elastic con- tact with friction to replace the Monte Carlo method. A numerical example shows that the optimization pro- gramming model for the point-to-surface contact with friction and the fast optimization generalized minimal residual algorithm (GMRES(m)) significantly improve the analysis of such problems relative to the conven- tional BEM.展开更多
The analysis of 3-D elasto-plastic contact with friction is a highly nonlinear problem. The ele- ments in the contact and plastic zones should be refined to obtain accurate information about the real size, displacem...The analysis of 3-D elasto-plastic contact with friction is a highly nonlinear problem. The ele- ments in the contact and plastic zones should be refined to obtain accurate information about the real size, displacement, and traction in the contact zone. However, the increase in the number of degrees of freedom is limited when traditional boundary element method (BEM) is used with the larger memory size and long CPU time required for the solution procedure. This paper describes the additional mathematical friction model to the 3-D elastic multipole BEM to develop a 3-D elasto-plastic contact multipole BEM. Numerical tests show that with this new method, the needed computer memory size is only 2% of the traditional BEM model with friction, which erases large-scale computing with refined meshes and improves the computa- tional accuracy.展开更多
基金Construction Project of Zhang Weihua Inheritance Studio in Shaanxi Province(2019.01 to 2021.12):2,019,022Academic School Inheritance Project of Shaanxi Provincial Administration of Traditional Chinese Medicine:Shaanxixi TCM[2018]NO.40。
文摘Objective:To observe the clinical therapeutic effect on atlantoaxial instability treated with the combination of ulna-tibia needling therapy and"point-to-surface"tuina manipulation.Methods:A total of 64 outpatients diagnosed as atlantoaxial instability were collected and randomized into a control group and an observation group,32 cases in each one.In the control group,flunarizine hydrochloride capsules were used for oral administration.In the observation group,the combined treatment of ulna-tibia needling therapy and"point-to-surface"tuina manipulation was adopted.The ulnatibia needling therapy was exerted at the cutaneous region of hand taiyang meridian on the ulnar region(from carpal joint to elbow joint)on both sides.The"point-to-surface"tuina manipulation included"onepoint and two-surface"technique,"upper-to-lower pressing"method and"lifting-trembling"method.The treatment was provided once daily,consecutively for 5 times.The scores of neck symptoms and physical signs,atlantoaxial axle separation degree and clinical therapeutic results were taken as the observation indicators to evaluate the treatment effect.Results:After treatment,the curative rate and the total effective rate in the observation group were all higher significantly than the control group(all P<0.01).The scores of clinical symptoms and physical signs were statistically different in the self-comparison of each group before and after treatment(all P<0.05).After treatment,the scores of clinical symptoms and physical signs,the excellence rate of atlantoaxial axle separation and the effective rate in the observation group were all significantly better than those of the control group(all P<0.01).Conclusion:The combination of ulna-tibia needling therapy and"point-to-surface"tuina manipulation achieves the better clinical therapeutic effect as compared with flunarizine hydrochloride.
基金This project is supported by National Natural Science Foundation of China(No.50075075) National "Ten-Five" Science and Technology Project of China(No.ZZ 01-13A-02-02-03). J
文摘The 3-D traction field in the pressure screw-pair of a 3 500 heavy and mediumplate mill press down system is successfully calculated by applying the 3-D frictional contactmultipole-BEM and the corresponding program that has been developed. The computing results show themedium diameter orientation is unreliable, especially under the interference of an outer forcecouple. Under such working conditions, the circumferential traction distribution on the screw teethis extremely uneven, which is the main reason for the destruction and short life time ofscrew-pairs. When utilizing the same precision (the relative tolerance is 10X10^(-5)), themultipole-BEM uses almost the same CPU time as used by the FEM, but the needed computer memory sizeis only one eightieth of that needed by the FEM (10 MB vs. 800 MB). The multipole-BEM is well suitedfor computing large-scale engineering problems.
基金Supported by the National Natural Science Foundation of China(No. 50075075)
文摘This paper presents a new mathematical model for the highly nonlinear problem of frictional con- tact. A programming model, multipole boundary element method (BEM), was developed for 3-D elastic con- tact with friction to replace the Monte Carlo method. A numerical example shows that the optimization pro- gramming model for the point-to-surface contact with friction and the fast optimization generalized minimal residual algorithm (GMRES(m)) significantly improve the analysis of such problems relative to the conven- tional BEM.
基金Supported by the National Natural Science Foundation of China(No. 50075075)
文摘The analysis of 3-D elasto-plastic contact with friction is a highly nonlinear problem. The ele- ments in the contact and plastic zones should be refined to obtain accurate information about the real size, displacement, and traction in the contact zone. However, the increase in the number of degrees of freedom is limited when traditional boundary element method (BEM) is used with the larger memory size and long CPU time required for the solution procedure. This paper describes the additional mathematical friction model to the 3-D elastic multipole BEM to develop a 3-D elasto-plastic contact multipole BEM. Numerical tests show that with this new method, the needed computer memory size is only 2% of the traditional BEM model with friction, which erases large-scale computing with refined meshes and improves the computa- tional accuracy.
