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Solidworks is a CAD & CAE software for solid modelling & engineering. The software is owned by the French technology and aviation company Dassault Systemes, and is one of the most popular software for mechanical, electronic, electrical and robotics engineers. At the time of writing this article, the latest stable version of the software was Solidworks 2020 SP2.0 which was released in March, 2020. The program is written in the geometric modeling kernel called Parasolid.
Since the first version which was released in 1995, Solidworks has utilized a range of parametric features especially designed for solid modeling that can be applied across product design and manufacturing industries. The features are highly productive in creating solid models and assemblies of extensive mechatronics systems from start to end. Mechatronics refer to the combination of electronics, control systems, computers and robotics. At the beginning of the project, Solidworks is used for planning, generating ideas and visualizations, feasibility assessment, modeling, creating prototypes and project management. It is then used to design and build electrical, mechanical and software components of the model.
In the final stage, Solidworks is used in activities such as device management, data automation, analytics and cloud services. Inbuilt software solutions are used by engineers from different disciplines to integrate their work with others to complete the design. A vast suite of programs helps all engineers in a project to maintain communication and to respond to change or modification requirements. User feedbacks are also incorporated in the suite to adapt to new demands and enhance capabilities of the program. Improved and accelerated performance, streamlined workflows and integration of the cloud-based 3D experience platform are the latest enhancements in the 2020 version of Solidworks.
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- Solidworks Stress Analysis Assignment Help
Stress analysis is an important aspect of engineering where diverse methods are used to study the stress experienced by various structures and materials when they are subjected to force. SolidWorks can be a great tool for conducting accurate stress analysis. All versions of SolidWorks include SimulationXpress, which is a software wizard capable of performing stress analysis on diverse parts of a model one is working with. Significant loads, materials, and fixtures are identified by SolidWorks following which it creates a mesh and runs a simulation to convey reports related to stress, safety factors, displacement, and deformation with respect to the model analyzed. Thus, a stress analysis conducted using SolidWorks helps to understand which parts of the model need to be improved and optimized.
- Solidworks Stress Strain Curve Assignment Help
Stress strain curves are used by engineers to analyze the relationship between stress and strain graphically, where load or stress is gradually increased to observe the strain created and deformation caused. SolidWorks stress strain curves are available with three different material models which are Plasticity – Von Mises, Plasticity – Tresca, and Nonlinear Elastic. SolidWorks Nonlinear Analysis is a tool largely used by engineers and architects, where stress and strain defined by the users are applied on the graph to derive information about the yield point, formability, ductility, material strength, elastic modulus, and others. The nature of stress-strain can also be defined by the user for optimized results, and in doing so the stress-strain can be specified as Nominal Stress, Cauchy Stress, Nominal Strain, and Logarithmic Strain.
- Solidworks Stress Probe Assignment Help
SolidWorks probe tool makes it possible to enquire a plot and zooms in on the numerical values plotted at different points known as nodes or centers of elements. Once SolidWorks has created a stress plot, it becomes easy to identify the areas that are experiencing high levels of stress thereby requiring improvement. A user might feel the need to assess the maximum stress exerted on an area which is not evident from the maximum stress model, they might need to locate a singular stress point which is affecting the maximum stress and having fixed the maximum stress area they might need to evaluate other areas of concern. In all these cases, the SolidWorks stress probe tool can aid them, enabling them to optimize the model.
- Solidworks Stress Singularity Assignment Help
SolidWorks simulation can be used to assess the performance of virtual product models during the engineering phase, and users commonly perform stress analysis on their models to make sure the designs are optimized. However, at times it becomes difficult to note the high stress values at certain points in the mesh. Such behavior, observable in SolidWorks simulation, is called stress singularity. Stress singularity is a point where the stress does not show a specific value. When the mesh is refreshed, the stress at this point goes on increasing and in theory, the stress at the point of the singularity can be infinite. Stress singularities are commonly found in simulation models at specific locations such as point fixtures, corners of figures which are in contact, and sharp corners.
- Solidworks Stress Test Assignment Help
While building simulations for machines using SolidWorks, it becomes important to perform stress tests to estimate the performance of the machines because when in use, they are likely to be subjected to certain loads, which create stress on specific parts of the model. With the help of SolidWorks stress test, it becomes possible to identify weak hinges, weak bolts, thin walls, or steel frames which are not sufficiently sturdy. SolidWorks stress test thus helps to identify the shortcomings of the model before the physical models are manufactured, and in doing so it helps to save time and financial resources while enhancing the safety quotient of the models. SolidWorks stress test can be conducted for static objects as well as for bodies in motion.
- Solidworks Stress Analysis Assembly Assignment Help
Solidworks stress analysis on assemblies helps users to evaluate the performance and safety level of the models they are designing. While stress analysis can be performed on the entire model, it can also be performed on individual assemblies – made of a number of parts – which combine together to form the complete model. When performing stress analysis on an assembly, the user must specify the diverse forms of connectors used in the assembly such as bolts, bearing, spring, pin, and others. At the same time, users can select the forces or loads they would like to apply on the assembly to perform a stress analysis. The forces and loads might include pressures, torques, centrifugal force, gravity, and others. On running the simulation, the user becomes aware of any deformation which might result from the exertion of the selected forces–and the fault which causes such deformation can then be rectified.
- Solidworks Finite Element Analysis Assignment Help
Finite Element Analysis (FEA) is a process in which virtual simulations are used to study how the model of a product responds to various physical factors such as heat, fluid flow, vibration, bending, and so on. SolidWorks’ Finite Element Analysis (FEA) tools are capable of accurately predicting the physical behavior of the models when in real use. These tools are available to users in three different packages, with each package offering a set of the FEA tools. Simulation Standard can be used for performing structural analysis, fatigue analysis, and motion analysis of assemblies and individual parts. With Simulation Profession, users can conduct thermal analysis, drop test, frequency analysis, and other optimization studies. Simulation Premium has tools which can perform analysis on composite materials, rubber and plastic components, while also being capable of assessing dynamic loads related to vibrating or oscillating structures. Three broad categories of analysis which fall within the FEA are linear analysis, non-linear static analysis, and dynamic analysis.
- Solidworks Thermal Analysis Assignent Help
SolidWorks thermal analysis helps users to study the properties of their models when they are subjected to changing temperatures. A product might experience a wide range of thermal issues such as overheating, extreme thermal stress, absence of dimensional stability, problems with heat flow, and so on. Thermal problems are rather common when designing electronic appliances, and it becomes necessary to perform thermal analysis on the models when they are being developed. SolidWorks thermal analysis is commonly used by engineers to study heat dissipation, temperature-related responses, and thermal stresses with respect to engines, electric motors, hydraulic cylinders, and other similar machines. Machines such as air conditioner, refrigerator, mixer grinder, stove, and iron can be effectively optimized in terms of safety and performance with the help of SolidWorks thermal analysis.
- Solidworks Vibration Analysis Assignment Help
SolidWorks is commonly used by engineers to design machines, and when a part or an assembly of such a machine is subjected to dynamic load, they are likely to vibrate under the stress. Such vibration can be mild, or it can be potentially dangerous. SolidWorks vibration analysis is used to find out whether the dynamic load being exerted on the model leads to an unacceptable response, that is, a degree of vibration which might compromise the safety of the model, cause failure of its parts, or cause immense discomfort to the users of the machine. SolidWorks can be used to conduct different types of vibration analysis including static and dynamic analysis, general modal analysis, time-based analysis, frequency response analysis, and random vibration analysis.
- Solidworks Force Analysis Assignment Help
SolidWorks force analysis is used by users to study how the model they are working on might respond when subjected to different kinds of forces. SolidWorks force analysis allows the users to apply multiple forces to one or more faces of the model, thereby noting the responses. While conducting a force analysis, one can choose the nature of the force, the specific value of the force, the face of the model on which it is to be applied, and the direction in which the force is supposed to act. Users have the choice to continuously edit and change the nature, value, and direction of the force to assess the model’s performance under different circumstances. Notably, SolidWorks’ SimulationXpress plays a significant role in force analysis, and such studies are used by engineers to minimize faults in the physical prototypes of the model.
- Solidworks Static Simulation Assignment Help
SolidWorks static simulation is a simulation on which Finite Element Analysis (FEA) is applied to find out how different parts and assemblies of the model being simulated responds to load, and these responses may be estimated in terms of stress, strain, or deformation. SolidWorks static simulation can work with a wide variety of loads including gravity, pressure, force, centrifugal force, temperature, and forces imported from other simulations. SolidWorks static simulation works based on a number of assumptions. The first assumption is that the loads are applied slowly to not have an impact and they do not change over time, thus being static and not dynamic. The second assumption is that any small deformation caused by the load is not to be considered in the stress plot. Thirdly, stress vs strain remains linear only up to yield stress, and as such linear static simulation is only capable of gauging values lower than the yield stress.
- Solidworks Fatigue Simulation
Performing fatigue analysis on models of machines is necessary to prevent catastrophes. Solidworks Fatigue Analysis provides engineers with an idea about the life-cycle of the models on which cyclic loads are to be applied. Stress fatigue can cause such models to collapse without warning, but SolidWorks fatigue analysis can help to estimate and optimize a model’s fatigue resistance. SolidWorks simulations have an integrated fatigue analysis feature and they can draw data from other studies (such as linear static analysis) to conduct fatigue analysis, making the process rather easy for users. SolidWorks fatigue analysis makes use of multiple snapshots of the model’s response to different load combinations which have been tried on it during other analysis. Fatigue analysis can be performed repeatedly using SolidWorks simulation while one goes on making changes to the model, implying that the users can keep performing the study throughout the entire designing stage to continuously improve the performance.
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