Tool Design Engineer

A Composite Manufacturing Tool Designer is a professional responsible for designing and creating specialized tools molds jigs and fixtures used in composite manufacturing processes. These tools are essential for ensuring the accuracy repeatability and efficiency of manufacturing operations.

Requirements

Requirements:

1. Design and Development:

Develop detailed designs for layup tools jigs fixtures and tooling to be used in various composite manufacturing processes.

Use CAD (ComputerAided Design) software to create 3D models and 2D drawings of fixtures and tooling.

2. Process Analysis and Evaluation:

Analyze manufacturing processes to determine the requirements for jigs and fixtures.

Analyze composite manufacturing processes to determine the requirements for layup tools and molds.

Work closely with manufacturing engineers and production teams to understand specific layup process requirements.

Evaluate existing fixtures and tools for improvements in terms of efficiency and costeffectiveness.

3. Collaboration:

Collaborate with crossfunctional teams including manufacturing engineers composite technicians and quality control personnel to address design challenges and ensure compatibility with other production processes.

4. Material Selection:

Choose appropriate materials for the construction of jigs and fixtures based on factors such as durability weight and cost.

Choose appropriate materials for the construction of layup tools based on factors such as temperature resistance durability and weight.

5. Cost Estimation:

Estimate the cost of manufacturing jigs and fixtures considering materials production processes and labor.

6. Prototyping:

Create prototypes or mockups of jigs and fixtures to test and validate design concepts before fullscale production.

7. Documentation:

Prepare detailed documentation including engineering drawings specifications and bills of materials to facilitate the manufacturing and assembly processes.

8. Quality Control:

Implement quality control measures to ensure that jigs and fixtures meet design specifications and manufacturing standards.

Collaborate with quality assurance teams to address and resolve issues related to tooling and fixtures.

9. Continuous Improvement:

Identify opportunities for continuous improvement in design processes materials and manufacturing techniques to enhance efficiency and reduce costs.

10. Training:

Provide training and guidance to production personnel on the proper use and maintenance of jigs and fixtures.

11. Safety Compliance:

Ensure that designed jigs and fixtures comply with safety standards and regulations.

12. Problem Solving:

Troubleshoot and solve problems related to the performance and functionality of jigs and fixtures in the manufacturing process.

Troubleshoot and solve problems related to the performance and functionality of layup tools in the composite manufacturing process.

13. Innovation:

Stay updated on advancements in manufacturing technology and design principles to bring innovation to jig and fixture development.

Stay updated on advancements in composite manufacturing technology and design principles to bring innovation to layup tool development.

Benefits

We provide Seamless Transportation Nourishing Meals and Elevated WellBeing Because Everyone Deserves a Smooth Ride to Success!

Requirements: 1. Design and Development: - Develop detailed designs for layup tools, jigs, fixtures, and tooling to be used in various composite manufacturing processes. - Use CAD (Computer-Aided Design) software to create 3D models and 2D drawings of fixtures and tooling. 2. Process Analysis and Evaluation: - Analyze manufacturing processes to determine the requirements for jigs and fixtures. - Analyze composite manufacturing processes to determine the requirements for layup tools and molds. - Work closely with manufacturing engineers and production teams to understand specific layup process requirements. - Evaluate existing fixtures and tools for improvements in terms of efficiency and cost-effectiveness. 3. Collaboration: - Collaborate with cross-functional teams, including manufacturing engineers, composite technicians, and quality control personnel, to address design challenges and ensure compatibility with other production processes. 4. Material Selection: - Choose appropriate materials for the construction of jigs and fixtures based on factors such as durability, weight, and cost. - Choose appropriate materials for the construction of layup tools based on factors such as temperature resistance, durability, and weight. 5. Cost Estimation: - Estimate the cost of manufacturing jigs and fixtures, considering materials, production processes, and labor. 6. Prototyping: - Create prototypes or mock-ups of jigs and fixtures to test and validate design concepts before full-scale production. 7. Documentation: - Prepare detailed documentation, including engineering drawings, specifications, and bills of materials, to facilitate the manufacturing and assembly processes. 8. Quality Control: - Implement quality control measures to ensure that jigs and fixtures meet design specifications and manufacturing standards. - Collaborate with quality assurance teams to address and resolve issues related to tooling and fixtures. 9. Continuous Improvement: - Identify opportunities for continuous improvement in design processes, materials, and manufacturing techniques to enhance efficiency and reduce costs. 10. Training: - Provide training and guidance to production personnel on the proper use and maintenance of jigs and fixtures. 11. Safety Compliance: - Ensure that designed jigs and fixtures comply with safety standards and regulations. 12. Problem Solving: - Troubleshoot and solve problems related to the performance and functionality of jigs and fixtures in the manufacturing process. - Troubleshoot and solve problems related to the performance and functionality of layup tools in the composite manufacturing process. 13. Innovation: - Stay updated on advancements in manufacturing technology and design principles to bring innovation to jig and fixture development. - Stay updated on advancements in composite manufacturing technology and design principles to bring innovation to layup tool development.