Prosthetics Design engineering jobs with Skilleon

The prosthetics design project involves the development and manufacture of prosthetic limbs for individuals with amputations. The project aims to provide customizable and affordable prosthetic solutions to improve the quality of life for those in need. The project will involve the use of advanced design and manufacturing techniques, such as 3D printing and computer-aided design (CAD), to create prosthetics that are both functional and aesthetically pleasing.

The prosthetics design project aims to improve the lives of people with disabilities by designing and developing innovative prosthetic devices. The project will involve a team of experts from various fields, who will collaborate to create prosthetics that are both functional and comfortable for patients. By using advanced design and manufacturing techniques, the team will strive to create prosthetics that are affordable and accessible to a wide range of patients.

Project size

The prosthetics design project is a medium-sized project, with an estimated budget of $5 million. The project will involve a team of 30 professionals, including engineers, designers, and medical professionals, who will work together to design and develop prosthetic devices. The project will be carried out over a period of 3 years, with several milestones to be achieved during this time.

The project will involve collaborations with various companies and organizations in the medical industry, including hospitals, clinics, and prosthetics manufacturers. These collaborations will provide the project team with access to the latest technologies and materials, as well as valuable feedback from medical professionals and patients.

Professionals and companies

The prosthetics design project will involve a diverse range of professionals and companies from the medical and engineering industries. The project team will include engineers, designers, and medical professionals, who will work together to design and develop prosthetic devices that meet the needs of patients. The project will also involve collaborations with various hospitals, clinics, and prosthetics manufacturers, who will provide valuable feedback and support throughout the project.

The project team will be led by a project manager, who will oversee the project and ensure that all milestones are achieved on time and within budget. The team will include mechanical and electrical engineers, industrial designers, materials engineers, and biomedical engineers, who will work together to design and develop the prosthetics. The team will also include prosthetists, who will provide valuable insight into the needs and preferences of patients.

CAD software

Computer-aided design (CAD) software is used to create a virtual model of the prosthetic socket based on the 3D scan of the patient's residual limb.

CNC milling machine

A computer-controlled cutting machine that uses various tools to remove material from a block of material, such as foam or wood, to create a physical model of the prosthetic socket.

Vacuum forming machine

A machine that heats a sheet of thermoplastic material and then uses a vacuum to form it around a positive model of the prosthetic socket, creating a shell for the final prosthetic device.

3D printers

A machine that builds up a physical model of the prosthetic socket layer by layer, using a variety of materials including plastics, metals, and ceramics.

3D scanners

A device that uses lasers or structured light to create a digital 3D model of the patient's residual limb, which is used as a basis for designing the prosthetic socket.

Phase 1

Initiative & feasibility

During this phase, the project team will assess the feasibility of developing a new prosthetic device, identify customer needs, and define project requirements.

Phase 1

Phase 2

Design & planning

In this phase, the team will develop conceptual designs, define specifications, and finalize the design plan.

Phase 2

Phase 3

Engineering & tendering

During this phase, detailed engineering designs will be developed, prototypes will be built, and tenders will be solicited from suppliers.

Phase 3

Phase 4

Construction

This phase involves the construction of the prosthetic devices in accordance with the design specifications and quality requirements.

Phase 4

Phase 5

Commissioning

During commissioning, the devices will be tested to ensure they meet the required standards and specifications.

Phase 5

Phase 6

Operations & maintenance

This phase includes ongoing maintenance and support for the devices throughout their lifecycle.

Phase 6

Government

The government has a significant role in regulating the medical device industry, including prosthetics design. They set standards and guidelines for safety, efficacy, and quality of prosthetics products, and review and approve new devices before they can be marketed. In addition, the government provides funding for research and development in the field, and collaborates with industry partners to improve patient outcomes.

Client

The client in this project is typically a healthcare provider, such as a hospital or clinic, or an individual patient seeking a custom prosthetic device. The client works closely with the design team to provide feedback on their specific needs and preferences, and may also be involved in clinical trials or pilot testing of new products. They are responsible for ensuring the device meets their functional and aesthetic requirements, and providing ongoing feedback to improve the design.

Consultant

A consultant in prosthetics design may specialize in various areas, such as materials science, biomechanics, or user experience design. They bring expertise and knowledge to the project team, and may assist in research and development, product design and testing, or manufacturing and distribution. Consultants also play a critical role in ensuring compliance with regulatory standards and best practices, and may provide training or education to the design team or end-users.

Contractor

The contractor in this project is responsible for manufacturing and delivering the prosthetics devices to the client. They work closely with the design team to ensure that the product meets the client's requirements and complies with regulatory standards. Contractors may also be involved in logistics and distribution, and provide ongoing support and maintenance for the devices after they have been delivered.

Supplier

Suppliers provide the raw materials, components, and equipment necessary for the prosthetics design project. They may specialize in various areas, such as plastics, metals, or electronics, and provide high-quality, reliable products that meet the design team's specifications. Suppliers also play a critical role in ensuring the safety and quality of the final product, and may provide ongoing support and service for their products.

Prosthetics Design engineering jobs

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