Based on these Project Goals

To design a mechanical prosthetic hand that is functional and comfortable for the user to wear.

To create a lightweight and affordable prosthetic hand that can be easily 3D printed and assembled.

To incorporate features such as adjustable finger tension and grip strength for better usability.

To optimize the design for ease of use, allowing for smooth movement and manipulation of objects.

To conduct user testing and feedback to improve the design and make necessary adjustments.

To ensure the prosthetic hand is durable and long-lasting, able to withstand daily wear and tear.

To design the prosthetic hand in a way that allows for customization, such as different colors or patterns.

To create detailed assembly instructions for easy replication by other individuals or organizations.

To work towards making the prosthetic hand accessible to those who may not have access to traditional prosthetics.

To create a design that is adaptable and can be modified to fit the specific needs of individual users.

1. Research existing designs:

Research existing designs for prosthetic hands to understand the current technologies, products, and papers related to the topic. This research should provide a comprehensive overview of the current state of prosthetic hands, including the advantages and disadvantages of the existing designs.

2. Identify areas of improvement:

Identify areas of improvement in existing prosthetic hands and develop possible solutions to increase the performance of the product. Consider the design, materials, manufacturing process, and cost of the prosthetic hand in order to identify potential areas of improvement.

3. Find best materials:

Research and identify the best materials for the prosthetic hand. Consider the weight, strength, durability, and cost of the materials when making a selection.

4. Manufacturing process:

Research and identify the most efficient and cost-effective manufacturing process for 3D printing the prosthetic hand. Consider the materials, technology, and time required for the process when making a selection.

5. Price range:

Develop a pricing strategy for the prosthetic hand based on the cost of the materials, manufacturing process, and other relevant factors.

6. Timeframe:

Develop a timeline for the project, including milestones and deadlines for each stage of the process.

7. Project budget:

Develop a project budget that covers the cost of materials, manufacturing process, timeline, and other expenses.

8. Key stakeholders:

Identify key stakeholders involved in the project, including potential partners, funding sources, and other relevant parties.

9. Evaluation of progress:

Develop a plan to evaluate the progress of the project throughout and at the end of the project. This should include metrics such as time, cost, and quality of the prosthetic hand.

10. Potential future applications:

Research and identify potential future applications of the prosthetic hand. Consider the potential for new markets, customers, and uses for the product.