The selected Instant EcoVilla Model Plans are converted into Unitized Composite Structure (UCS) 3D CAD Engineering Plans. The UCS 3D CAD Engineering Plans are then engineered, optimized, and validated in ANSYS Finite Element Analysis Software, to confirm that all of the structural, sound transmission and thermal specifications are correct, as per the client requirements. All Unitized Composite Structure Components are then manufactured on our own High-Precision, CNC Equipment, in order to guarantee, that your Instant EcoVilla will be constructed, exactly as specified, in the ANSYS Finite Element Analysis Engineering Software. ANSYS is the global leader in engineering simulation and help the world’s most innovative companies deliver radically better products to their customers. ANSYS develops, markets and supports engineering simulation software used to predict how product designs will behave in real-world environments. (Visit ANYSY.com Website)
ANSYS Engineering Simulation...The Future Is Already Here
Digital prototyping enables designs to be optimized, verified and validated against requirements using structural, thermal, electromagnetic and fluidic simulation, either in isolation or in coupled multiphysics or system-level studies. You can build an accurate and comprehensive simulation model to predict the performance of your detailed designs and reduce the need for physical testing. Digital protoypes provide insight into actual product performance and enable you to rapidly innovate beyond the limits of traditional build-test-break-redesign methods. Expanding simulation from its traditional role as a validation tool empowers engineers at all levels to digitally explore the "what ifs" of your products, spurring innovation, lowering development and operational costs and improving time to market. ANSYS 18.2 gives you the tools to tackle the complexities of designing, manufacturing and maintaining products that bridge both the physical and digital worlds.(Visit ANSYS Pervasive Engineering Simulation Website) (View Engineering Simulation...The Future Is Already Here)
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ANSYS 3D Design Exploration, Modeling and Simulation Software:
The ANSYS 3-D Design products enable CAD modeling and simulation for all design engineers. Since the demands on today’s design engineer to build optimized, lighter and smarter products are greater than ever, using the appropriate design tools is more important than ever. Built on direct modeling technology, ANSYS SpaceClaim makes creating, repairing or editing geometry easy again, instead of a chore. Whether you are involved in concept modeling, reverse engineering scanned data or preparing a model for manufacturing or simulation, SpaceClaim’s tools are designed to remove geometry bottlenecks and accelerate the design process. ANSYS AIM seamlessly integrates design and simulation for all engineers, helping them to explore ideas and concepts in greater depth. AIM provides a single platform for simulation-driven product development. With guided workflows to promote best practices, you can take advantage of best-in-class ANSYS solver technology to the fullest. (Visit ANSYS 3D Design, Modeling and Simulation Website) (View ANSYS AIM Brochure)
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ANSYS Design Exploration and Optimization Software:
ANSYS DesignXplorer is an integrated ANSYS Workbench application that leverages the parametric and persistent power of Workbench for parametric analyses so you can efficiently explore, understand and optimize your design. DesignXplorer includes correlation, design of experiments, response surface creation and analysis, optimization and six sigma analysis. ANSYS offers an unparalleled breadth of engineering simulation solutions across a broad range of disciplines that can accurately model the fluid, structural, thermal and electromagnetic physics of any design. ANSYS workflow technology - including bidirectional CAD interfaces, meshing and post-processing tools - simplifies the process to help increase productivity and enable exploration. All of these tools are integrated in the Workbench environment, so you can combine them to meet your simulation needs. (Visit ANSYS DesignXplorer) (View Design Exploration Brochure)
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ANSYS Composite Structures Software:
The light, strong and versatile properties of composite materials make them attractive for many types of manufacturing. Composites provide new solutions for manufacturers looking for stronger, lighter and more cost-effective materials. At he same time, they pose new modeling and manufacturing challenges because of the nature of the materials. With the right simulation tools, designers can account for residual stresses, predict performance, analyze reliability and potential failures, optimize construction, and export accurate information to manufacturing, all before a physical prototype is built. (Visit ANSYS Composite Materials Website) (View Simulating Composite Structures)
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ANSYS Structural Analysis Software:
ANSYS structural analysis software enables you to solve complex structural engineering problems and make better, faster design decisions. With the finite element analysis (FEA) tools available in the suite, you can customize and automate solutions for your structural mechanics problems and parameterize them to analyze multiple design scenarios. You can connect easily to other physics analysis tools for even greater fidelity. ANSYS structural analysis software is used throughout the industry to enable engineers to optimize their product designs and reduce the costs of physical testing. (Visit ANSYS Structural Analysis Website) (View ANSYS Structural Analysis Brochure)
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ANSYS Strength Analysis Software:
The strength of components is a key requirement in understanding a product’s performance, lifecycle and possible failure modes. Mechanical loading, thermal stress, bolt tension, pressure conditions and rotational acceleration are just some of the factors that will dictate strength requirements for materials and designs. ANSYS Mechanical ensures your product’s viability and safety by predicting the strength required for the loads your design will experience in service. (Visit ANSYS Strength Analysis Website)
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ANSYS Durability Analysis Software:
Building durable products is key to reducing warranty costs and increasing reliability. Being able to understand how designs will behave over time as load cycles increase helps you to avoid unexpected failures and warranty costs. Fatigue analysis is a key enabler in building this knowledge about product durability. (Visit ANSYS Durability Analysis Website)
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ANSYS Impact Analysis Software:
Impact between two or more bodies is modeled by the ANSYS structural family of programs, including mechanical, explicit dynamics and rigid body dynamics. These programs calculate the forces between two or more colliding bodies and the resultant deformation or damage. Explicit Dynamics generally is used for high speed interactions or complex contact. RBD is suited for impacts with no deformation, or when deformation can be ignored. (Visit ANSYS Impact Analysis Website)
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ANSYS Thermal Analysis Software:
The effects of heat and thermal management of structures is more and more critical as performance limits are pushed further by the need to have lighter, smaller and more efficient designs. Convection, radiation and conduction loads are obvious, but the need to include the effect of power losses and thermal energy from friction and external sources such as pipe flows means that analysts need to have more tools at their disposal to simulate thermal models accurately. (Visit ANSYS Thermal Analysis Website)
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ANSYS Sound Transmission and Vibration Analysis Software:
Prediction of structure-borne noise and sound propagation can play important roles in the design of many products. Examples include noise caused by vibrating structural components, transmission of sound through thin panels and the acoustic performance of piezoelectric devices. Solving these types of acoustic wave propagation problems (and many more) can be performed in a coupled way, in which the fluid and structural domains are solved simultaneously, or in an uncoupled way, in which the structural analysis is performed first, followed by the acoustics analysis. The former is used when both structural vibrations and acoustic waves have a mutual influence: think of a thin speaker cone whose deformations will be influenced by the pressure waves. The latter can be used when the acoustic waves do not affect the vibration of the structure, as is often the case for massive parts. (Visit ANSYS Sound Transmission Analysis Website)