Job Description:
Job Description: 3D Metal Printing Process Developer – Engineering & Manufacturing Job Industry, Melbourne
The 3D Metal Printing Process Developer in Melbourne is responsible for creating and optimizing additive manufacturing processes involving metal materials. This role focuses on developing new production capabilities using 3D printing technologies such as selective laser melting (SLM), electron beam melting (EBM), and direct metal laser sintering (DMLS). The developer plays a crucial role in advancing manufacturing innovation, improving product customization, and reducing lead times and material waste.
Core duties include defining process parameters, designing build strategies, and testing various metal powders to ensure mechanical performance and quality outcomes. The developer collaborates closely with design engineers, material scientists, and manufacturing teams to integrate additive manufacturing into product development pipelines. They lead the process validation stages, performing extensive testing to ensure repeatability, durability, and structural integrity of printed parts.
The role also involves troubleshooting build failures, monitoring equipment performance, and maintaining detailed records of test results and process iterations. The developer continually explores advancements in printer hardware, build materials, and post-processing techniques to enhance production efficiency and product quality. Coordination with suppliers and vendors may be necessary to evaluate new technologies or material solutions.
Documentation of processes, material parameters, and quality control protocols forms a vital part of the position. The developer ensures alignment with internal quality standards and external compliance requirements for printed metal components. Contributions to continuous improvement initiatives and R&D projects are common.
Job Requirement:
Job Requirements: 3D Metal Printing Process Developer – Engineering & Manufacturing Job Industry, Melbourne
Applicants for this role must demonstrate a deep understanding of metal additive manufacturing technologies and the associated process parameters that influence print quality, mechanical strength, and material behavior. Proficiency in handling 3D printing software, including slicing and simulation tools, is crucial for designing efficient and defect-free builds.
Strong analytical and problem-solving skills are necessary for optimizing parameters such as laser power, scan speed, hatch spacing, and layer thickness. The ability to identify causes of print anomalies and implement corrective actions ensures consistency and high performance in printed components. Familiarity with various metal powders like titanium, stainless steel, aluminum, or Inconel is important for evaluating their printability and application-specific properties.
The role requires excellent documentation and reporting abilities to track process improvements, part qualification tests, and quality assurance results. Candidates should be capable of preparing technical documentation and standard operating procedures to support manufacturing consistency and compliance with industry standards.
Effective communication and collaboration skills are essential for working across engineering, R&D, and production teams. The developer must be able to translate complex process information into actionable steps for machine operators and technicians, and contribute to team knowledge through regular updates and training sessions.
A continuous learning mindset is key to success in this evolving field. Candidates should stay informed about emerging trends, materials, and technologies in metal additive manufacturing, and apply these insights to refine production strategies. The ability to drive innovation while maintaining process reliability positions the developer as a central contributor to modern manufacturing evolution.
