3D PRINTING AND CAD SERVICES
Why AYSQO ?
Our focus is on driving creative innovations and ensuring timely delivery, making us a trusted partner in turning your mechanical engineering ideas into reality. At AYSQO, we prioritize efficiency, precision, and innovation to provide solutions that meet your business needs and exceed your expectations.
Design & manufacturing:-
Mechanical design
3D printing & additive manufacturing
3D Scanning :-
` At AYSQO Mechanical Engineering Solutions, we are continuously expanding our expertise in cutting-edge technologies, including scanning methods, reverse engineering, CAD modeling, and design optimization. Our commitment to learning and innovation ensures that we stay ahead of industry trends, providing our clients with advanced, high-quality solutions.Mechanical design
3D printing & additive manufacturing
CAD
We are a team of budding engineers with excellent domain and technical knowledge and know how to provide cost effective solutions in engineering & design. Customer satisfaction is our moto
Wealus has experience in CAD platforms and can provide the design services in the following areas.
Conceptual Designing
Sheet Metal Component Design
Re-Engineering / Reverse Engineering
Design for Manufacturing / Assembly
Detailing, Drafting, conforming to standards such as ASME / DIN / ISO
Tool & Fixture Design
CAM
Computer Aided Manufacturing (CAM) is an application innovation that utilizes computer software and machinery to facilitate and automate manufacturing processes.
CAM decreases waste and vitality for improved assembling and creation productivity by means of expanded generation speeds, material consistency and more exact tooling accuracy.
CAM is used in connection with CAD for more enhanced and streamlined manufacturing, efficient design and superior machinery automation
3D PRINTING
CAE
Computer-aided engineering (CAE) is the process of solving engineering problems through the use of sophisticated, interactive graphical software.
CAE is one of the leading softwares employed by manufacturing organizations to mass produce products in a factory-based environment. It allows for more computations than is possible by hand, especially when it is coupled with optimization systems.
The process starts by first defining the analysis of the mathematical phenomenon. Next, the equations have to be defined. Finally, a model of physical configuration is created.This model may consist of 2-D or 3-D figures/shapes/curves/surfaces. This model is than applied to an actual production mechanism to design and develop the product.
Computer aided engineering is complemented by computer-aided design and computer-aided manufacturing.