COST EFFECTIVE MANUFACTURING PROCESS

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At AviXéla, we aim to provide the singular services that empower our clients in their business goals. We deliver a customer-focused approach in product design and development with a dedicated team of qualified professionals and lifecycle support throughout the manufacturing process. Whether you have a feasibility study or are interested in assembling a conceptual design, AviXéla wants to provide engineering support from applied research to commercialization. Our solutions-based approach allows to optimize primary nanomaterials based on specific industrial application to enable towards commercialization path.

Our team employes collaboration and partnership in order to follow your goals and applies commercialization scalability through a phased development approach:

• Establish Proof of Concept
• Optimize the Research
• Scale-Up and Develop the Product
• Manufacture the Product 

AviXéla develops alternative solutions for nanomaterials production that will be implemented in nanomaterial sciences, nanoelectronics, and nanomedicine. Nevertheless, nanotechnology has a broad application in performance materials, developing nations are still lagging to meet their industrial progression. Using advanced nanoplasmonic technology, our team designed and implemented innovative system that relatively efficient and productive. Being concerned about the financial standing of green technologies, we think that our methods are clear, cleaner, and more affordable compared to the chemical synthesis, mass bulking, and heavy machinery. 

AviXéla embody and inspire change that is focused on producing specific products as a true engineering partner to our customers by delivering cost effective design, analysis, testing and integration services. Our team enforces the applied sciences and implies systemic approach in fundamentals by pioneering use of alternate energy sources for material processing with improved and/or combined properties in accelerated and controllable applications. We promote additional discussion of new research ideas, emerging technologies, and technology transition, and address questions from potential proposers. We engage the full spectrum of our specialized in-house team through leveraging in-house design for manufacturing (DFM) process that is critical for fostering optimal outcomes throughout the project lifecycle. While designing the nanomaterial of interest, we prepare for scale-up DFM best practices including a set of strategies, methodologies and tools to ensure that nanomaterials made in the company are seamless and cost-effective. 

Go-no-go decision making

During each phase of the process, we deliver continuous collaboration including status reports with complete analytical characterization. This approach allows to move forward into the next phase of the program and empower decisions about the project’s viability, sensibility, and product optimization.

Phase I

During the first phase of the project, client material of interest will be developed based on the preliminary project inputs during the scoping process. Our goal is to establish proof of concept in a timely manner through collaborative efforts with the top facilities, if necessary, at academic setting or private entities in order to perform analytical services and to ensure that clients project stays on a reasonable budget.

Phase II

Phase II of the project determine the nanomaterial formula and finalize the proof of the concept established by the client in their product or system. At this point the material is scaled from benchtop to pilot production, and the path toward manufacturing starts to take shape including processing, volume projections, price targets. Our team will take the lead in providing a cost simulation for the client for various volume scenarios looking forward to understanding the economies of scale and potential outcomes.

Phase III

The final phase of the formal project is to scale-up from a pilot to full production. Our team of engineers and scientists has been working side by side with the client development team during the entire project to ensure that the initial formula can scale to commercialization volumes and maintain all the desired characteristics.