Simplified Beam Element Model of Badminton Batting Process Based on Motion Differential Equation

Badminton is not only a traditional sport in China, but also an advantage sport in China. It has good entertainment, appreciation, and exercise, as well as a very broad mass base in China. Badminton racket as the key equipment of badminton, its production and design has a very critical impact on the development of the sport; the current existing research lacks the analysis of badminton batting moment. In order to more intuitively and clearly understand the force and displacement relationship of the racket net at the moment of badminton hitting, this study is based on the differential equation of motion, combined with the finite element analysis method to build a simplified beam element model. In order to verify the reliability of the model, the displacement of the beam element and the rod element of the badminton racket under the same load is constructed. +rough the research results, it can be seen that the beam element model is more reliable for the numerical calculation of badminton batting moment. +e indepth analysis of badminton batting process has a certain reference significance for the production and design of badminton racket.


Introduction
Badminton first appeared more than 2000 years ago. It was called shuttlecock, Pune, shuttlecock cricket, and so on. Later, it gradually became peopleʼs recreational activities and competitive events. Badminton racket was originally made of wood. Modern badminton was first born in England; it was introduced to China in the early nineteenth century. At present, it has become a popular sport among Chinese people. Since the 1980s, China has made a lot of outstanding achievements in international badminton events, and Chinaʼs badminton level has reached the worldʼs advanced level. From badminton events into the Olympic Games, a total of 18 times it won the championship [1]. Badminton racket as the key equipment of badminton, its performance directly affects the process of badminton hitting. Badminton racket developed from the initial wood materials gradually to bamboo wood mixture, titanium alloy, nanotube materials, etc. e development of badminton racket used in the mesh from the initial sheep intestine gradually developed into nylon, beef tendon, chemical fiber sheep intestine, etc. At present, the badminton racket string used by professional athletes is synthetic string made of chemical fiber sheep intestines. is material not only has very good elasticity, but also is very firm and reliable. However, due to the relatively complex production process of this material, the final cost is high, so it is more used in the use of professional athletes. In this case, there is less research on the racket of nonprofessional athletes, which may cause half the result with half the effort in badminton and even sports injury in serious cases. To know more about the performance of badminton racket and analyze the properties of its materials is conducive to the athletes to better play their own advantages in competitive sports and the popularization and development of the sport [2].
Finite element analysis is a process of solving the essence of a simple problem after it is complicated. It can simulate the load conditions of a real physical system and so on. It is a practical application of mathematical methods. Applying it to the finite element analysis of badminton racket and badminton, it can accurately simulate the working condition, mechanics, displacement changes of the moment when badminton ball slaps badminton racket, especially for the analysis of the complex process of hitting badminton, which has the characteristics of high accuracy and wide applicability. As the process of badminton hitting mainly involves displacement and force, the mathematical expression of the relationship between force and displacement can be accurately carried out by using the equation of motion [3]. By combining the finite element analysis method with the differential equation of motion, the mechanical analysis of badminton batting process can clearly show the relationship between the load and displacement in the process of badminton batting [4].
e main contributions of this paper are as follows: firstly, the finite element model of string and beam elements of badminton racket is constructed, which can be used to analyze the micromechanics and displacement of badminton batting process. Secondly, based on the established finite element model, the static numerical calculation of badminton racket net surface is carried out, and the net tension of badminton beam element is simulated. e innovation of this research mainly has three points: the first is to construct the dynamic differential equation of badminton and carry out the mechanical analysis of the badminton batting process using badminton racket; the second is to construct the badminton net model and verify the correctness and feasibility of the net model through the simulation calculation of beam element and rod element; the third is to analyze the different badminton characteristics and the influence of the tension on the return speed of badminton.
is research can let people from a more professional point of view analyze the new badminton batting moment; also it provides a certain theoretical basis for the production of badminton racket. At the same time, it is feasible to apply the finite element analysis method to the process analysis of badminton racket hitting, which also provides a reference for the process analysis of similar sports. From the perspective of theoretical analysis, this paper provides ideas for the finite element analysis of sports equipment. It can be seen that the finite element analysis method can achieve good results in the design and optimization of sports equipment.

Related Work
Badminton and other high-altitude sports may cause certain sports injury because of their large range of upper limb joint movement. e research on the mechanical properties of badminton batting movement has a positive significance for the in-depth understanding of the physiological analysis in the process of batting. ere are great differences in neurophysiology between athletes and nonathletes in the process of badminton batting. Athletes have a very significant functional adaptation in the brain and a very prominent performance in the visual motor response. In the process of badminton, the knee joint and ankle joint are easy to be injured. In sports training and exercise, muscle fatigue is a very common physiological phenomenon. Huang et al. constructed an equivalent multilayer nonuniform threedimensional finite element model of human arm, which can be used to analyze the changes of muscle resistance of muscle fatigue in badminton, basketball, and other sports [5]. In badminton, badminton racket is one of the key sports equipment. Che Hassan et al. developed a detailed substandard for the use of badminton racket, classified the performance, physical performance, chemical performance, and environmental performance of badminton racket, and finally determined carbon fiber as the main production material of badminton racket [6]. Badminton rackets have a very direct and important impact on the overall action and effect of players. Different badminton players also have certain differences in their love psychology for badminton. Shotaro and others proposed a new antihuman robot, which designed a four-degree-of-freedom badminton robot arm and used pneumatic energy to hit the ball skillfully. e design and research of the robot played a positive role in promoting the mature manufacture of antihuman badminton robot [7].
In modern industrial applications, the finite element analysis method is also widely used. Based on the finite element analysis software, Bhelsaikar et al. designed a new type of continuous manipulator. rough the finite element analysis software, it is helpful for the prototype manufacturing and testing of robot gripper [8]. Badia et al. proposed an enhanced finite element space technology based on cell focusing technology to solve the ill-posed problems in the traditional three kinds of nonadaptive finite element technology and obtained the optimal finite element solution by dividing different elements [9]. Hiptmair et al. proposed a finite element method that can be applied to incompressible fluid dynamics equations. e second-order semi-implicit time stepping method is used to establish the energy law.
rough numerical verification, the correctness of theoretical prediction and the effectiveness of preprocessor of the method are also illustrated [10]. Wang et al. carried out finite element analysis on the manufacturing process of dielectric materials in electromagnetic engineering. Due to the comprehensive influence of processing technology, environmental temperature, and personnel operation, there are many spatial uncertainties in the manufacturing of dielectric materials in electromagnetic engineering. After introducing the interval field model, the uncertainty of this material can be described, and the upper and lower bounds of electromagnetic response can be calculated by using the interval finite element method [11]. Spherical material is difficult in engineering design. e design of circular material plate by finite element analysis is helpful to test and measure with finite element analysis software, so as to understand the stiffness of the designed material [12]. Karthikeyan and Chandru analyzed the wave propagation of annular elliptic thin plate with different voltage materials. By compiling the computer program of finite element method, the numerical calculation of different shell elements was carried out. e model is simple and effective and is suitable for the material design problems that need to be solved accurately [13]. Andena et al. constructed a three-dimensional finite element model of track and field runway and carried out quasistatic compression test on laboratory samples through the model, so as to continuously adjust the parameters of the model, in 2 Complexity order to continuously adjust and improve the vibration reduction performance of track and field runway [14]. Yang and others have carried out risk assessment on the training process of badminton players, designed and constructed a platform of Internet of things to analyze the badminton process, and improved the badminton training skills according to the results of the study [15]. From the literature research related to badminton, racket design, and finite element analysis method, we can see that the current research on badminton is more from the analysis of movement and the physiological process of athletes; even the research on badminton is from the material design of badminton; the finite element analysis design is in the engineering design and manufacturing. It can achieve very good results. To sum up, this paper proposes to use the finite element analysis method to build the finite element model of badminton and analyze the mutual mechanics and displacement relationship between badminton and badminton racket based on the motion equation, so as to determine the relevant material parameters of badminton and carry out the relevant mechanical verification.

Simplified Finite Element Model of Badminton Based on Motion Differential Equation.
e batting moment of badminton is a very short process. e contact time between racket and ball is defined as batting time. e speed before the contact between racket and badminton is the initial speed. e speed after the contact is the return speed. e ratio of return speed and initial speed is the speed ratio of batting. In the construction of the finite element model, the stiffness of badminton, racket cable tension, and axial stiffness need to be considered. e vibration equation of the badminton can be simplified as one of the following equations: In the badminton racket model, the stiffness perpendicular to the net is assumed to be nonlinear, so the displacement along the direction perpendicular to the net is also nonlinear. Let a, b, c be three undetermined coefficients, the vertical displacement of the central point of the mesh is y, and the vertical force on the central point of the mesh is f sb ; then, the formula of vertical displacement in the mesh direction can be obtained: In order to simplify the model, the impact point of the net surface is regarded as the centroid, and the net surface of the racket is a rigid body. e simplified mechanical model of batting can be obtained from Figure 1, as shown in Figure 2. e racket can be regarded as a combined system of linear spring and mass. In the process of badminton and spherical impact, it is a process of storing the hitting energy in the racket net, which will make the ball and badminton racket vibrate.
Using Newtonʼs second law, we can transform the badminton motion differential equation: During the process of badminton catching, the impact of badminton on the racket is the resilience of the tennis surface of the racket; thus, we can get Suppose that the velocity of the badminton player is v b 0 , the displacement of the ball is y b , and the displacement of the contact point between the badminton and the racket is y j :

Parameter Determination of Finite Element Model of Badminton and
Racket. e mechanical properties of four common badminton rackets are shown in Table 1.
In Table 1, the initial modulus of fiber refers to the linear stress-strain ratio of the initial part of the load elongation curve of the fiber used in badminton racket. In order to facilitate the calculation, four kinds of badminton racket samples are converted according to the unified diameter of 0.7 mm, from which the calculation parameters of the model can be obtained (see Table 2 for details).
irdly, the tension of badminton racket net is selected to represent the tightness of racket line. Different people have different preferences and applicability for the ball line weight.
e specific corresponding relationship and use characteristics are shown in Table 3. Among them, professional players are more suitable for medium-and highpound tension rackets. is type of racket has better ball control effect and can clearly feel the control of their own strength on the ball.
For professional badminton players, the racket they use in international competitions must meet the use requirements; that is, the circumference of the racket is not more than 68 cm, the width is within 23 cm, the chord length is 28 cm, and the width is within 22 cm. According to the requirements of badminton racket in international competitions, a finite element model of 28 cm × 22 cm elliptical badminton racket mesh beam element is defined again. Badminton is divided into feather parts and ball heads. In general, we classify badminton into two categories: plastic and cork according to the materials used in badminton heads. Badminton balls can also be divided into rigid plastics and foam plastics. Cork badminton can be divided into three categories: cork, composite cork, and regenerated cork. Recreational badminton, which takes into account the cost of operation, is usually made of rigid plastics and foam badminton heads. is study adopts composite-and corktype badminton heads. Compared with the two kinds of badminton head, the use of composite head is not easy to exercise, and the cost is relatively low, but if the use of greater strength to hit the ball, it is easy to break up the lower part of the cork and affect the hitting performance. For beginners, because the hitting power of beginners is not too big, it is not easy to cause     4 Complexity damage to badminton. At this time, the damage is more concentrated on the feather of badminton. At present, there is no unified classification and numbering standard for badminton feathers, which can be divided into four grades according to the quality of feathers, small hair, medium hair, and large hair according to the type of badminton feathers, and can also be classified according to the thickness of hair stalk and the thickness of hair piece. No matter what the type of feathers is, badminton uses 16 real feathers. e more consistent the feathers are, the better the flying quality of badminton is. High-quality badminton basically uses highquality goose feathers. According to the definition of badminton rules in badminton competition, the height of badminton is 68-78 mm, the diameter is 58-68 mm, and the weight of badminton is 4.74 g-5.5 g. e specific parameters are diameter 26 cm, Youngʼs modulus 10.9 GPa, Poissonʼs ratio 0.47, density 544 kg/m 3 , and the overall shape of tetrahedron.

Construction of Differential Equations of Motion for Beam Element and Bar Element.
In order to build the basic model of badminton racket beam element mesh, based on the previous relevant parameters of badminton, comparative experimental analysis of bar element and beam element is carried out. According to the definition of mechanics of materials, the relationship between force and displacement of a single string in a badminton racket is shown in the following equation: In equation (6), F is the load value of the middle point of the chord, and the value is 1n; A is the cross-sectional area of the chord, and the value is 3.85 * 10 −7 m 2 ; E is 1.4 GPa; l is 1/ 2 chord length, and the value is 0.1 M; and Δ is the displacement of the middle point of the badminton racket in the load displacement. e formula regards the stress of a single badminton racket as static load. On this basis, the beam element and rod element of the badminton racket can be selected for comparative analysis. e stress analysis is shown in Figure 3.  Table 4.

e Finite Element Model Construction of the Net Beam
Further analysis from Figure 4 shows that when the load value is 1n, the error between the analytical solution and the numerical solution is the smallest, which is 1.06%. e beam element does not change completely in the process of force, which shows that it is feasible to analyze the beam element when the chord line of badminton racket is thin. e displacement of nodes at both ends of badminton chord is limited, and 1n load is applied at the midpoint of chord. Referring to the previous parameters, let F be 1n, E be 1.4 GPa, A be 3.85 × 10 −7 m −2 , and L be 0.1 m. When using the finite element method for analysis, considering the lack of a load balance force in the y-direction, a constraint with minimal stiffness can be selected, and the error comparison of springs with different stiffness can be carried out according to the spring stiffness values of 0.1, 1, 2, 3, and 10.
e results are shown in Figure 5. It can be seen from Figure 5 that when the stiffness value is 2, the midpoint displacement value is close to the value of the analytical solution. It can be seen that the construction of the model can be applied to the numerical calculation of badminton net. erefore, the finite element software is used to carry out the comparative analysis between the load displacement of the badminton club element and the analytical solution. e calculation results are shown in Table 5.
It can be seen from Figure 6 that the displacement numerical solution and analytical numerical solution of the badminton racket bar element are similar to the simulation results of the beam element. When the load value is 1n, the error value is the smallest.
From the simulation analysis of beam element and bar element, it can be seen that the error values of single-chord simulation results of badminton are in a small level, so it is necessary to compare and analyze the numerical calculation of badminton racket net surface of beam element and bar element.

Static Numerical Calculation of Badminton Racket
Net. e racket line of badminton is a state of overlapping. In the moment of hitting, some net lines on badminton racket will be separated, which makes the net line no longer interact effectively. In order to make the process analysis more close to the real situation, it is necessary to consider releasing some node constraints when building the finite element model. An elliptic finite element model with long axis and short axis of 28 cm and 22 cm is constructed. 430 intersections are set up. A position near the middle of racket is selected as the hitting point, then 19 nodes will be constrained to release, and the rest 411 intersections will have Complexity the force effect. In order to compare the energy value of beam element and rod element, some nodes are deleted to compare the displacement of badminton mesh. e maximum 50 N load is applied to the mesh surface. e displacement comparison of badminton net surface is shown in Table 6:     Complexity e displacement curve of beam element and rod element with some nodes deleted and nodes not deleted are drawn respectively, as shown in Figure 7.
In Figure 7, A and B, respectively, represent the displacement curves of some nodes not deleted or deleted in the beam element; C and D, respectively, represent the       8 Complexity midpoint displacement of the beam element and the bar element is 0.28%, and the difference between the midpoint displacement after deleting the node is 0.43%.

Simulation Results of Net Tension of Badminton Beam
Element. e string tension F c is added to the net surface of badminton racket, so we can get the formula of analytical solution as follows: In the finite element model analysis, the applied load at the middle point is 1n, the chord length is 0.2 m, and the value of EA in equation (7) is 539n. After fixing the two ends of the chord, observe the displacement curve of the beam element and the bar element model under different tension of the stay wire. e results are shown in Table 7.
e curve of the simulation calculation results of the pull wire tension of badminton beam element is shown in Figure 8. A is the analytical solution of displacement, B and C are the displacement value and error value of beam element, respectively, and D and E are, respectively, the displacement value and error value of the rod element. According to the displacement curve of the pull tension, it can be seen that with the increasing tension of the cable applied, the displacement value of the midpoint of the chord line on the badminton racquet net surface decreases gradually, which indicates that the displacement of the action point of the mesh surface will be reduced gradually under the same position and the same load. at is, when a constant force is applied to the chord, the completeness near the midpoint position is the lowest. e error of beam element is the smallest under different tension, so it is more reasonable to use beam element for numerical simulation.

Conclusion
Applying the finite element analysis method to the simulation of badminton racket net line, the tetrahedral element of badminton can be simulated by combining the differential equation of motion and beam element, so as to deduce the dynamic balance equation in the process of badminton hitting. In order to verify the availability of the model, this study carried out the finite element simulation analysis on the beam element and rod element of badminton racket, respectively. rough the analysis and comparative analysis with the mechanics of materials, it can be seen that the error generated by the beam element and rod element model is small, so it can be applied to the simulation of badminton racket. Based on the simulation model and related parameters, the pull tension is introduced into the string of badminton racket. rough the comparative analysis of the results of static numerical calculation and material mechanics analysis, it can be seen that the error of using beam element is smaller. e final analysis can be seen that with the increasing tension of the stay wire, the midpoint displacement of the badminton racket net model is gradually decreasing. e purpose of this study is to build a usable finite element model of badminton racket hitting and to analyze the mechanics and displacement of badminton hitting process based on this model, which can provide a theoretical basis for the theoretical research of badminton hitting process and the manufacturing of badminton racket and badminton. However, this research is limited to comparative analysis, only limited to the results of finite element analysis and analytical calculation based on mechanics of materials. e follow-up research can be based on the actual operation of professional athletes for comparative analysis.

Data Availability
e data used to support the findings of this study are available from the corresponding author upon request.

Conflicts of Interest
e author declares that there are no conflicts of interest regarding the publication of this paper.