Product development can be taxing for businesses. The rigors of design and testing are near impossible to manage for a team unequipped to handle these challenges, making a qualified precision fabrication and product development team invaluable. Here at Excell Solutions our team members all have years of experience in design and development for our clients, especially when it comes to creating detailed CAD models for clients.
These CAD models are extremely useful when pertaining to 3D profiling. Customers often are unable to create detailed drawings of complex 3D designs, so we work directly from the model file to create products to exact specifications, even those with complex curves or dimensions. While Excell Solutions is located in Billerica, MA, 3D models allow our team to produce products for clients over long distances.
Businesses seeking a machining service using CAD models for Auburn, Maine will find the additional services offered by Excell Solutions when working from 3D models useful:
- Fine-detail engineering
- Product R&D guidance and support
- Wide array of machines for unique specifications
At Excell Solutions, we believe you should be able to design your part the way you need it to be, with less manufacturing limitations. Precision requests and complex designs are common requests, and with our 4th axis machining capability and machines with spindle speeds up to 24,000 RPM we can create parts with incredibly fine detail.
This level of precision gives us the range to design what you really need and keep the tolerances you need. By leveraging these digital designs, Auburn, Maine area CAD models we will walk you through each stage of the design process, from R&D, 3D profiling, and fabrication to ensure that the final product can reach expectations and fulfill the needs of our clients. If issues arise or parts need to be redesigned to fit manufacturers limitations we can adjust as needed. Our goal is to ensure the quality and functionality of all parts created for our clients, regardless of the design or distance.