Senior Welding Engineer
Aalo Atomics · Austin, TX · 4 mo ago
On-siteEngineeringFull-time
Overview
Aalo Atomics is pioneering a new era in clean energy with factory-fabricated microreactors designed to deliver affordable, scalable, and reliable nuclear power. The company is based in Austin, TX and is rapidly growing as they work to deploy the world's first fleet of advanced microreactors.
About the Role
You'll be a founding member of our welding engineering function. You'll own process development and qualification, drive automation and cost reduction, and lead R&D into advanced welding modalities such as laser beam, electron beam, and others that unlock performance and throughput conventional arc welding can't. You'll also develop our zirconium welding capability from scratch, a rare technical challenge outside national labs.
Responsibilities
- Develop, qualify, and optimize GTAW, GMAW, spray MIG, and emerging processes for stainless steel pressure vessels and piping
- Own WPS/PQR documentation to ASME Section IX, AWS D1.6, or applicable codes
- Lead zirconium welding procedure development: inert atmosphere GTAW, shielding gas optimization, contamination control, and full mechanical qualification
- Develop and document PWHT cycles; interpret metallurgical outcomes
- Evaluate and qualify laser beam (LBW), electron beam (EBW), plasma arc (PAW), and hybrid laser-arc processes for vessel and pressure system applications
- Design parametric studies to characterize process windows and build qualification datasets
- Develop solutions for difficult joint configurations — dissimilar materials, thin-wall closures, complex penetrations
- Collaborate with vendors, equipment suppliers, and national lab partners to stay at the front edge of nuclear-relevant welding technology
- Build internal IP and documentation to support future procedure qualifications and regulatory submittals
- Identify and implement orbital GTAW, mechanized MIG, and robotic welding to drive consistency and reduce labor cost
- Develop parametric programs for automated systems including seam tracking, adaptive fill, and multi-pass sequencing
- Instrument in-process monitoring (voltage, travel speed, heat input) to enable closed-loop quality control
- Track weld cycle times, consumable costs, and rework rates; use data to justify capital investments
- Partner with design engineers on joint weldability — distortion control, access, inspection compatibility
- Work with NDE personnel (RT, PT, UT, PAUT) to interpret results and close nonconformances
- Drive root cause analysis on weld defects using metallography, fractography, hardness, and chemical analysis
- Build and maintain weld quality metrics; use them to focus engineering effort where it has the highest return
- Maintain documentation infrastructure: travelers, hold points, NCRs, lessons learned
- Provide real-time direction to welders on the floor; troubleshoot defects and maintain build pace
- Mentor welders on technique, procedure compliance, and quality standards
- Support welder qualification and certification as the team scales
Requirements
- BS in Materials Science, Metallurgical Engineering, Mechanical Engineering, or related field
- 5+ years of welding engineering experience including process development and qualification
- Hands-on GTAW experience on stainless steel pressure-boundary applications
- Working knowledge of ASME BPVC Section IX or equivalent pressure systems code
- Comfortable on the shop floor — able to evaluate welds in progress, not just on paper
- AWS CWE or CWI certification
- Experience with LBW or EBW process development or production support
- Experience welding zirconium, titanium, or Inconel under inert-atmosphere conditions
- Experience deploying orbital or robotic welding in production, including program development
- Background in weld process monitoring and correlating in-process signals to quality outcomes
- Familiarity with nuclear QA requirements (NQA-1, 10 CFR 50 Appendix B) or equivalent regulated-industry QA (aerospace, defense)
- Hands-on fabrication ability — picking up a torch and demonstrating technique is a plus
Qualifications
- BS in Materials Science, Metallurgical Engineering, Mechanical Engineering, or related field
- 5+ years of welding engineering experience including process development and qualification
- Hands-on GTAW experience on stainless steel pressure-boundary applications
- Working knowledge of ASME BPVC Section IX or equivalent pressure systems code
- Comfortable on the shop floor — able to evaluate welds in progress, not just on paper
- AWS CWE or CWI certification
- Experience with LBW or EBW process development or production support
- Experience welding zirconium, titanium, or Inconel under inert-atmosphere conditions
- Experience deploying orbital or robotic welding in production, including program development
- Background in weld process monitoring and correlating in-process signals to quality outcomes
- Familiarity with nuclear QA requirements (NQA-1, 10 CFR 50 Appendix B) or equivalent regulated-industry QA (aerospace, defense)
- Hands-on fabrication ability — picking up a torch and demonstrating technique is a plus
Skills
- GTAW, GMAW, spray MIG, and emerging processes for stainless steel pressure vessels and piping
- ASME Section IX or equivalent pressure systems code
- Laser beam, electron beam, and other advanced welding modalities
- Zirconium welding procedures
- Orbital and robotic welding
- Weld process monitoring and correlating in-process signals to quality outcomes
- Nuclear QA requirements (NQA-1, 10 CFR 50 Appendix B) or equivalent regulated-industry QA (aerospace, defense)
Benefits
- Opportunity to develop zirconium welding procedures few U.S. engineers have touched outside national labs
- Qualify laser and electron beam processes for nuclear vessel applications
- Build the weld program from the ground up at a company moving from prototype to production at unprecedented speed
Pay
- Competitive salary commensurate with experience
Schedule
- Full-time position