Engineering Structures Jobs in Ft Mitchell Ky Flexible

JOB SUMMARY

ESSENTIAL DUTIES AND RESPONSIBILITIES

· Supports the Test Engineer in the development and commission of test solutions executing the test qualification of the fixture and program as per the specific system qualification process.
· Responsibility for providing the deliverables to support the solution in production to both the Test Support Function and Manufacturing Operations.
· Assists in the build and manufacture of testers, fixtures and environmental tooling as required to meet the customer expectations.
· The Technician Engineer provides the interface to the Test Support function providing comprehensive documentation and training for all test solutions implemented.
· Provides the interface to the Manufacturing function providing comprehensive documentation and coordinating training and education for all test operations implemented.
· Through working with the Test Support function monitor and contribute to the improvement of Test Yields, Efficiency, Intermittencies and Uptime providing accurate reporting and clear targets for improvement.
· In conjunction with the Test Engineer strives to consistently upgrade the test process balancing cost, coverage with the goal of providing an optimized and cost efficient test process.
· Works closely with manufacturing and test support to ensure prioritization of support activities. He/ She will be responsible for coordinating the timetable for test readiness based on the weekly production schedule through the appropriate Test Support staff.
· May perform other duties and responsibilities as assigned.
JOB QUALIFICATIONS
KNOWLEDGE REQUIREMENTS

· Ability to effectively present information and respond to questions from groups of managers, clients, customers, and the general public.
· Ability to define problems, collect data, establish facts, and draw valid conclusions.
· Ability to operate a personal computer including using a Windows based operating system and related software.
· Advanced PC skills, including training and knowledge of Jabil’s software packages.
· Ability to write simple correspondence. Read and understand visual aid.
· Ability to apply common sense understanding to carry out simple one- or two-step instructions.
· Ability to deal with standardized situations with only occasional or no variables.
· Ability to read and comprehend simple instructions, short correspondence, and memos.
· Ability to add, subtract, multiply, and divide in all units of measure, using whole numbers, common fractions, and decimals.
· Ability to compute rate, ratio, and percent and to draw and interpret graphs.
Remote working/work at home options are available for this role.

JOB SUMMARY

ESSENTIAL DUTIES AND RESPONSIBILITIES

· Supports the Test Engineer in the development and commission of test solutions executing the test qualification of the fixture and program as per the specific system qualification process.
· Responsibility for providing the deliverables to support the solution in production to both the Test Support Function and Manufacturing Operations.
· Assists in the build and manufacture of testers, fixtures and environmental tooling as required to meet the customer expectations.
· The Technician Engineer provides the interface to the Test Support function providing comprehensive documentation and training for all test solutions implemented.
· Provides the interface to the Manufacturing function providing comprehensive documentation and coordinating training and education for all test operations implemented.
· Through working with the Test Support function monitor and contribute to the improvement of Test Yields, Efficiency, Intermittencies and Uptime providing accurate reporting and clear targets for improvement.
· In conjunction with the Test Engineer strives to consistently upgrade the test process balancing cost, coverage with the goal of providing an optimized and cost efficient test process.
· Works closely with manufacturing and test support to ensure prioritization of support activities. He/ She will be responsible for coordinating the timetable for test readiness based on the weekly production schedule through the appropriate Test Support staff.
· May perform other duties and responsibilities as assigned.
JOB QUALIFICATIONS
KNOWLEDGE REQUIREMENTS

· Ability to effectively present information and respond to questions from groups of managers, clients, customers, and the general public.
· Ability to define problems, collect data, establish facts, and draw valid conclusions.
· Ability to operate a personal computer including using a Windows based operating system and related software.
· Advanced PC skills, including training and knowledge of Jabil’s software packages.
· Ability to write simple correspondence. Read and understand visual aid.
· Ability to apply common sense understanding to carry out simple one- or two-step instructions.
· Ability to deal with standardized situations with only occasional or no variables.
· Ability to read and comprehend simple instructions, short correspondence, and memos.
· Ability to add, subtract, multiply, and divide in all units of measure, using whole numbers, common fractions, and decimals.
· Ability to compute rate, ratio, and percent and to draw and interpret graphs.

JOB SUMMARY

ESSENTIAL DUTIES AND RESPONSIBILITIES · Supports the Test Engineer in the development and commission of test solutions executing the test qualification of the fixture and program as per the specific system qualification process.
· Responsibility for providing the deliverables to support the solution in production to both the Test Support Function and Manufacturing Operations.
· Assists in the build and manufacture of testers, fixtures and environmental tooling as required to meet the customer expectations.
· The Technician Engineer provides the interface to the Test Support function providing comprehensive documentation and training for all test solutions implemented.
· Provides the interface to the Manufacturing function providing comprehensive documentation and coordinating training and education for all test operations implemented.
· Through working with the Test Support function monitor and contribute to the improvement of Test Yields, Efficiency, Intermittencies and Uptime providing accurate reporting and clear targets for improvement.
· In conjunction with the Test Engineer strives to consistently upgrade the test process balancing cost, coverage with the goal of providing an optimized and cost efficient test process.
· Works closely with manufacturing and test support to ensure prioritization of support activities. He/ She will be responsible for coordinating the timetable for test readiness based on the weekly production schedule through the appropriate Test Support staff.
· May perform other duties and responsibilities as assigned.
JOB QUALIFICATIONS
KNOWLEDGE REQUIREMENTS · Ability to effectively present information and respond to questions from groups of managers, clients, customers, and the general public.
· Ability to define problems, collect data, establish facts, and draw valid conclusions.
· Ability to operate a personal computer including using a Windows based operating system and related software.
· Advanced PC skills, including training and knowledge of Jabil’s software packages.
· Ability to write simple correspondence. Read and understand visual aid.
· Ability to apply common sense understanding to carry out simple one- or two-step instructions.
· Ability to deal with standardized situations with only occasional or no variables.
· Ability to read and comprehend simple instructions, short correspondence, and memos.
· Ability to add, subtract, multiply, and divide in all units of measure, using whole numbers, common fractions, and decimals.
· Ability to compute rate, ratio, and percent and to draw and interpret graphs.

JOB SUMMARY

The Industrial Engineer supports manufacturing sustainment operations and new product introductions (NPI) for advanced AI/ML and GPU-accelerated server rack platforms. This role is responsible for optimizing production systems to ensure safety, quality, delivery, cost, and scalability objectives are achieved. The position plays a critical role in production ramp readiness, time standard integrity, capacity modeling, layout optimization, and continuous improvement execution within a high-complexity, fast-paced manufacturing environment.

This position is part of the core team launching new manufacturing technologies at our production facility in Florence, KY. It is a fully on-site role, and relocation assistance may be available for candidates who reside more than 50 miles from the Florence area. The ideal candidate has experience supporting the assembly, testing, and integration of complex electronic hardware systems in a manufacturing environment. This is a junior individual contributor position requiring strong cross-functional collaboration in a high-constraint environment to deliver data-driven process improvements.

SHIFT / SCHEDULE:

The Industrial Engineer is required to work 12-hour shifts, on the following schedule:

- Shift 404: (nights) 6:00PM to 6:00AM, Thursday through Saturday every week and Wednesday through Saturday every other week.
- For example: 36 hours on week 1 (Thursday - Saturday), 48 hours on week 2 (Wednesday - Saturday), 36 hours week 3, etc.
- Occasional overtime may be required, depending on business needs.

ESSENTIAL DUTIES AND RESPONSIBILITIES

- Partner cross-functionally with Manufacturing Engineering, Quality, Operations, Supply Chain, and Test Engineering to accelerate new product introductions (NPI) and ensure manufacturing readiness.
- Develop and validate time standards, labor models, and capacity plans to support production ramp and long-term scalability.
- Define workstation requirements, material flow strategies, tooling needs, and shop-floor system configuration (MES/iFactory).
- Support NPI builds, identify bottlenecks, and implement structured corrective actions to improve yield and throughput.
- Conduct time studies and work measurement analysis; maintain accurate and sustainable time standard databases.
- Monitor and improve key operational metrics, including UPH, WIP, lead time, FPY, rework rates, and labor efficiency.
- Lead layout improvements, line balancing efforts, and material handling optimization initiatives.
- Develop and maintain standard work, process documentation, and visual management systems.
- Perform root cause analysis and drive sustainable corrective actions using Lean methodologies (DMAIC, 5-Why, Kaizen).
- Ensure data alignment and configuration accuracy across ERP and manufacturing execution systems (SAP, MES, iFactory).
- Build analytical tools (Excel models, dashboards, and simulations) to support data-driven decision-making.
- Assist in scoping capital equipment needs, developing business justifications, and supporting vendor engagement through implementation.
- Support layout modeling and infrastructure planning for new production lines or facility expansions.

MINIMUM SKILLS, EXPERIENCE, AND QUALIFICATIONS

- Bachelor’s degree in Industrial, Mechanical, Electrical Engineering, or a related engineering discipline.
- 1-2 years of Industrial Engineering experience in a manufacturing environment.
- Experience performing time studies, capacity modeling, and production flow optimization.
- Strong analytical and problem-solving skills with proficiency in Microsoft Excel.
- Experience working in cross-functional production environments.
- Strong written and verbal communication skills with the ability to influence stakeholders.

PREFERRED

- Experience supporting the assembly, testing, and integration of complex electronic hardware infrastructure.
- Experience in high-volume or high-complexity NPI ramp environments.
- Familiarity with MES systems and ERP platforms (SAP preferred).
- Experience with manufacturing simulation tools or advanced data modeling.
- Lean Six Sigma certification (Green Belt preferred).
- AutoCAD or layout modeling experience.

PHYSICAL DEMANDS

The physical demands described here are representative of those required to successfully perform the essential functions of this job. The employee is frequently required to walk and may lift or carry PCs and test equipment weighing up to 50 lbs. Specific vision abilities required include close vision and extended use of computer monitor screens.

WORK ENVIRONMENT

The work environment characteristics described here are representative of those encountered while performing the essential functions of this job. The primary workstation is located on the manufacturing floor, with some time spent in an office setting. The noise level ranges from low to moderate. Required PPE in the manufacturing area includes: composite-toe shoes, hearing protection, protective eyewear, and an ESD vest. The manufacturing floor is modern, climate-controlled, and well-lit.

COMPANY BENEFITS

- Medical, Dental, Prescription Drug, and Vision Insurance with HRA and HSA options
- 401K match
- Employee Stock Purchase Plan
- Paid Time Off
- Tuition Reimbursement
- Life, AD&D, and Disability Insurance
- Commuter Benefits
- Employee Assistance Program
- Pet Insurance
- Adoption Assistance
- Annual Merit Increases
- Community Volunteer Opportunities

JOB SUMMARY

The Industrial Engineer supports manufacturing sustainment operations and new product introductions (NPI) for advanced AI/ML and GPU-accelerated server rack platforms. This role is responsible for optimizing production systems to ensure safety, quality, delivery, cost, and scalability objectives are achieved. The position plays a critical role in production ramp readiness, time standard integrity, capacity modeling, layout optimization, and continuous improvement execution within a high-complexity, fast-paced manufacturing environment.

This position is part of the core team launching new manufacturing technologies at our production facility in Florence, KY. It is a fully on-site role, and relocation assistance may be available for candidates who reside more than 50 miles from the Florence area. The ideal candidate has experience supporting the assembly, testing, and integration of complex electronic hardware systems in a manufacturing environment. This is a junior individual contributor position requiring strong cross-functional collaboration in a high-constraint environment to deliver data-driven process improvements.

SHIFT / SCHEDULE:

The Industrial Engineer is required to work 12-hour shifts, on the following schedule:

- Shift 404: (nights) 6:00PM to 6:00AM, Thursday through Saturday every week and Wednesday through Saturday every other week.
- For example: 36 hours on week 1 (Thursday - Saturday), 48 hours on week 2 (Wednesday - Saturday), 36 hours week 3, etc.
- Occasional overtime may be required, depending on business needs.

ESSENTIAL DUTIES AND RESPONSIBILITIES

- Partner cross-functionally with Manufacturing Engineering, Quality, Operations, Supply Chain, and Test Engineering to accelerate new product introductions (NPI) and ensure manufacturing readiness.
- Develop and validate time standards, labor models, and capacity plans to support production ramp and long-term scalability.
- Define workstation requirements, material flow strategies, tooling needs, and shop-floor system configuration (MES/iFactory).
- Support NPI builds, identify bottlenecks, and implement structured corrective actions to improve yield and throughput.
- Conduct time studies and work measurement analysis; maintain accurate and sustainable time standard databases.
- Monitor and improve key operational metrics, including UPH, WIP, lead time, FPY, rework rates, and labor efficiency.
- Lead layout improvements, line balancing efforts, and material handling optimization initiatives.
- Develop and maintain standard work, process documentation, and visual management systems.
- Perform root cause analysis and drive sustainable corrective actions using Lean methodologies (DMAIC, 5-Why, Kaizen).
- Ensure data alignment and configuration accuracy across ERP and manufacturing execution systems (SAP, MES, iFactory).
- Build analytical tools (Excel models, dashboards, and simulations) to support data-driven decision-making.
- Assist in scoping capital equipment needs, developing business justifications, and supporting vendor engagement through implementation.
- Support layout modeling and infrastructure planning for new production lines or facility expansions.

MINIMUM SKILLS, EXPERIENCE, AND QUALIFICATIONS

- Bachelor’s degree in Industrial, Mechanical, Electrical Engineering, or a related engineering discipline.
- 1-2 years of Industrial Engineering experience in a manufacturing environment.
- Experience performing time studies, capacity modeling, and production flow optimization.
- Strong analytical and problem-solving skills with proficiency in Microsoft Excel.
- Experience working in cross-functional production environments.
- Strong written and verbal communication skills with the ability to influence stakeholders.

PREFERRED

- Experience supporting the assembly, testing, and integration of complex electronic hardware infrastructure.
- Experience in high-volume or high-complexity NPI ramp environments.
- Familiarity with MES systems and ERP platforms (SAP preferred).
- Experience with manufacturing simulation tools or advanced data modeling.
- Lean Six Sigma certification (Green Belt preferred).
- AutoCAD or layout modeling experience.

PHYSICAL DEMANDS

The physical demands described here are representative of those required to successfully perform the essential functions of this job. The employee is frequently required to walk and may lift or carry PCs and test equipment weighing up to 50 lbs. Specific vision abilities required include close vision and extended use of computer monitor screens.

WORK ENVIRONMENT

The work environment characteristics described here are representative of those encountered while performing the essential functions of this job. The primary workstation is located on the manufacturing floor, with some time spent in an office setting. The noise level ranges from low to moderate. Required PPE in the manufacturing area includes: composite-toe shoes, hearing protection, protective eyewear, and an ESD vest. The manufacturing floor is modern, climate-controlled, and well-lit.

COMPANY BENEFITS

- Medical, Dental, Prescription Drug, and Vision Insurance with HRA and HSA options
- 401K match
- Employee Stock Purchase Plan
- Paid Time Off
- Tuition Reimbursement
- Life, AD&D, and Disability Insurance
- Commuter Benefits
- Employee Assistance Program
- Pet Insurance
- Adoption Assistance
- Annual Merit Increases
- Community Volunteer Opportunities

Job Title: Principal Mechanical Integration Engineer

Job Family: Mechanical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact? 

The Principal Mechanical Design Engineer (Data Center Infrastructure) is a technical leader responsible for the architecture, integration, and validation of advanced mechanical systems supporting hyperscale data center environments. This role requires deep expertise in liquid cooling technologies (single-phase and two-phase), hydronic system design, structural integration, and manufacturable rack-level infrastructure solutions.

This role is responsible for defining system performance requirements, developing technical specifications, selection and integration of critical components, and leading mechanical design from concept through production release. Responsibilities include wetted material selection, thermal and structural analysis, fastening strategies, component layout, and design for manufacturability. Partners cross-functionally to deliver reliable, scalable, and cost-effective Data Center Infrastructure solutions while advancing innovation in liquid cooling performance.

What will you do?

- Lead the end-to-end mechanical design and engineering of hyperscale Data Center Infrastructure (DCI) systems, including liquid-cooled rack assemblies, CDUs, manifolds, enclosures, structural frames, and associated hydronic piping systems.

- Serve as the technical authority for single-phase and two-phase liquid cooling architectures, including primary and secondary loop design, in-rack distribution, and system integration within hyperscale data center environments.

- Define and validate operational performance requirements for liquid-cooled infrastructure, including pressure ratings, hydrostatic limits, temperature ranges, flow rates and uniformity, thermal expansion, durability, and serviceability.

- Design, analyze, and validate machined components, welded fabrications, manifolds, and structural systems using advanced engineering principles, including stress analysis, finite element analysis (FEA), flow modeling, and structural load calculations to ensure mechanical integrity and code compliance.

- Lead wetted material selection and compatibility analysis for liquid cooling systems, including corrosion mitigation strategies, surface treatments, cleanliness standards, and long-term durability considerations.

- Develop and review CAD models and complete technical data packages using CREO, SolidWorks, or equivalent tools; ensure design accuracy, manufacturability, and system-level integration.

- Author and approve technical specifications for piping systems, rack-level cooling infrastructure, and hydronic components, including installation guidelines, maintenance procedures, testing requirements, and compliance with applicable standards (ASME, ISO).

- Establish and oversee validation protocols including hydrostatic pressure testing, leak detection and mitigation, flow resistance analysis, and corrosion verification to ensure regulatory compliance and operational reliability.

- Evaluate customer design proposals and technical specifications to assess feasibility, manufacturability, cost, and risk; provide recommendations to optimize performance and total cost of ownership.

- Lead cross-functional design reviews with electrical, thermal, manufacturing, quality, and supply chain teams to ensure full system integration and compliance with product specifications and applicable plumbing and hydronic codes.

- Optimize rack manifold design and manufacturing processes, including machining, welding, surface finishing, connection interfaces, venting and draining strategies, and flow path optimization to enhance performance and manufacturability.

- Drive continuous improvement in manufacturing assembly methods and tooling in collaboration with production teams and equipment vendors to improve quality, scalability, and cost efficiency.

- Lead root cause investigations for complex mechanical failures identified during validation or field deployment and implement corrective design improvements.

- Provide technical leadership in vendor qualification and management for mechanical components and liquid cooling subsystems.

- Identify and mitigate technical risks impacting performance, schedule, or cost, and contribute to R&D initiatives advancing liquid cooling technologies and system innovation.

MINIMUM QUALIFICATIONS

Education: 

- Bachelor’s degree in Mechanical Engineering, Systems Engineering, or a related engineering discipline from an accredited university.

Experience: 

- 8 years' experience in mechanical design and integration of mission-critical systems.

- Proven track record of successful system designs and implementations in a relevant industry

- Strong understanding of mechanical systems, integration strategy, and system coordination

- Familiarity with industry standards and regulations related to Energy Storage Systems and Data Center Infrastructure is preferred.

- Excellent problem-solving skills and attention to detail

- Strong communication and teamwork abilities

PREFERRED QUALIFICATIONS

- Master’s Degree in Mechanical Engineering

- Professional Engineer (PE) License
Remote working/work at home options are available for this role.

Job Title: Principal Mechanical Design Engineer

Job Family: Mechanical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 30% domestic and/or international travel (rare)

How will you make an impact?

We are seeking a highly skilled, technically proficient and detail-oriented Principal Mechanical Engineer with expertise in metal structures, frame design, pipes and fabrication to support the development of power and cooling infrastructure for data centers. This role is critical in designing robust mechanical systems that house and support electrical and thermal management equipment, ensuring structural integrity, manufacturability, and compliance with industry standards.

What will you do?

- Experience designing and integrating hydronic systems including pumps, piping networks, valves, and heat exchangers for data center cooling applications.

- Knowledge of fluid dynamics, pressure drop calculations, and pipe sizing for chilled water and glycol-based systems.

- Understanding of installation constraints, maintenance access, and serviceability in large-scale mechanical infrastructure.

- Design and develop mechanical frames, enclosures, and support structures for data center power and cooling products (UPS systems, battery racks, CRAC units, containment systems, LVS, MVS).

- Perform advanced structural analysis using FEA tools to validate mechanical integrity under static, dynamic, seismic, and thermal loads.

- Analyze load paths, stress concentrations, and fatigue life of structural components to ensure long-term reliability.

- Design metal enclosures with considerations for airflow, thermal containment, EMI shielding, and environmental protection.

- Evaluate and implement new materials, coatings, and fabrication technologies to enhance product performance and reliability.

- Participate in customer engagements and site visits to understand deployment constraints and gather feedback for design improvements.

- Create detailed CAD models and fabrication drawings, including weldments, sheet metal, and machined parts

- Select appropriate materials and fabrication methods to optimize cost, performance, and reliability

- Collaborate with electrical, thermal, and systems engineering teams to integrate mechanical designs with functional components.

- Lead mechanical design reviews and contribute to cross-functional design validation efforts.

- Develop and maintain design documentation including BOMs, specifications, test plans, and engineering change orders (ECOs).

- Drive continuous improvement in mechanical design for manufacturability (DFM), cost reduction, and performance optimization.

- Interface with suppliers and customers to resolve fabrication issues and ensure quality standards are met.

- Support lifecycle management of mechanical components, including obsolescence planning and alternate sourcing.

- Conduct root cause analysis and corrective actions for mechanical failures or field issues.

- Ensure mechanical designs support airflow management, thermal containment, and integration with cooling systems (in-row cooling, rear door heat exchangers).

- Collaborate with compliance and certification teams to ensure mechanical designs meet global regulatory requirements (UL, CE, RoHS, REACH)

- May perform other duties and responsibilities as assigned

How will you get here?

Education:

- Bachelor’s Degree in Mechanical Engineering or related engineering discipline.

Experience:

- 8+ years of experience in mechanical design and fabrication, preferably in data center, industrial, or power systems environment.

- Proficiency in CAD tools (SolidWorks, Creo, Inventor) and FEA software (ANSYS, Abaqus).

- Strong knowledge of metal fabrication processes including welding, sheet metal forming, and machining is a must

- Experience with structural design for heavy equipment or large assemblies, and familiarity with thermal and airflow considerations in enclosure design is required

- Excellent communication and cross-functional collaboration skills

Knowledge, Skills, Abilities:

- Excellent interpersonal and communication skills

- Creative, self-motivated, accountable, and team-oriented

- Able to work independently with minimal oversight

- Proficient in reading, analyzing, and interpreting general business publications, professional journals, technical procedures, and government regulations

- Skilled in writing reports, business correspondence, and procedural guides

- Effective at presenting information and responding to management, clients, and public queries

- Capable of influencing others and sharing best practices

- Comfortable working as part of a global team

- Capable of assessing projects, articulating risks, and developing project milestones

- Familiar with stage-gate processes in project lifecycle management (PLCM)

- Able to mentor less experienced engineers

- Ability to travel both domestically and internationally up to 30%

Preferred Qualifications: 

- Master’s Degree in Mechanical Engineering

- Experience designing mechanical systems for data centers, telecom, or industrial power/cooling products.

- Active Professional Engineer (PE) license.

- Knowledge of regulatory and safety standards applicable to data center infrastructure.

- Hands-on experience with prototype fabrication and testing; Experience working with global suppliers and contract manufacturers a plus
Remote working/work at home options are available for this role.

Job Title: Principal Mechanical Integration Engineer

Job Family: Mechanical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact? 

The Principal Mechanical Design Engineer (Data Center Infrastructure) is a technical leader responsible for the architecture, integration, and validation of advanced mechanical systems supporting hyperscale data center environments. This role requires deep expertise in liquid cooling technologies (single-phase and two-phase), hydronic system design, structural integration, and manufacturable rack-level infrastructure solutions.

This role is responsible for defining system performance requirements, developing technical specifications, selection and integration of critical components, and leading mechanical design from concept through production release. Responsibilities include wetted material selection, thermal and structural analysis, fastening strategies, component layout, and design for manufacturability. Partners cross-functionally to deliver reliable, scalable, and cost-effective Data Center Infrastructure solutions while advancing innovation in liquid cooling performance.

What will you do?

- Lead the end-to-end mechanical design and engineering of hyperscale Data Center Infrastructure (DCI) systems, including liquid-cooled rack assemblies, CDUs, manifolds, enclosures, structural frames, and associated hydronic piping systems.

- Serve as the technical authority for single-phase and two-phase liquid cooling architectures, including primary and secondary loop design, in-rack distribution, and system integration within hyperscale data center environments.

- Define and validate operational performance requirements for liquid-cooled infrastructure, including pressure ratings, hydrostatic limits, temperature ranges, flow rates and uniformity, thermal expansion, durability, and serviceability.

- Design, analyze, and validate machined components, welded fabrications, manifolds, and structural systems using advanced engineering principles, including stress analysis, finite element analysis (FEA), flow modeling, and structural load calculations to ensure mechanical integrity and code compliance.

- Lead wetted material selection and compatibility analysis for liquid cooling systems, including corrosion mitigation strategies, surface treatments, cleanliness standards, and long-term durability considerations.

- Develop and review CAD models and complete technical data packages using CREO, SolidWorks, or equivalent tools; ensure design accuracy, manufacturability, and system-level integration.

- Author and approve technical specifications for piping systems, rack-level cooling infrastructure, and hydronic components, including installation guidelines, maintenance procedures, testing requirements, and compliance with applicable standards (ASME, ISO).

- Establish and oversee validation protocols including hydrostatic pressure testing, leak detection and mitigation, flow resistance analysis, and corrosion verification to ensure regulatory compliance and operational reliability.

- Evaluate customer design proposals and technical specifications to assess feasibility, manufacturability, cost, and risk; provide recommendations to optimize performance and total cost of ownership.

- Lead cross-functional design reviews with electrical, thermal, manufacturing, quality, and supply chain teams to ensure full system integration and compliance with product specifications and applicable plumbing and hydronic codes.

- Optimize rack manifold design and manufacturing processes, including machining, welding, surface finishing, connection interfaces, venting and draining strategies, and flow path optimization to enhance performance and manufacturability.

- Drive continuous improvement in manufacturing assembly methods and tooling in collaboration with production teams and equipment vendors to improve quality, scalability, and cost efficiency.

- Lead root cause investigations for complex mechanical failures identified during validation or field deployment and implement corrective design improvements.

- Provide technical leadership in vendor qualification and management for mechanical components and liquid cooling subsystems.

- Identify and mitigate technical risks impacting performance, schedule, or cost, and contribute to R&D initiatives advancing liquid cooling technologies and system innovation.

MINIMUM QUALIFICATIONS

Education: 

- Bachelor’s degree in Mechanical Engineering, Systems Engineering, or a related engineering discipline from an accredited university.

Experience: 

- 8 years' experience in mechanical design and integration of mission-critical systems.

- Proven track record of successful system designs and implementations in a relevant industry

- Strong understanding of mechanical systems, integration strategy, and system coordination

- Familiarity with industry standards and regulations related to Energy Storage Systems and Data Center Infrastructure is preferred.

- Excellent problem-solving skills and attention to detail

- Strong communication and teamwork abilities

PREFERRED QUALIFICATIONS

- Master’s Degree in Mechanical Engineering

- Professional Engineer (PE) License
Remote working/work at home options are available for this role.

Job Title: Principal Mechanical Integration Engineer

Job Family: Mechanical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact? 

The Principal Mechanical Design Engineer (Data Center Infrastructure) is a technical leader responsible for the architecture, integration, and validation of advanced mechanical systems supporting hyperscale data center environments. This role requires deep expertise in liquid cooling technologies (single-phase and two-phase), hydronic system design, structural integration, and manufacturable rack-level infrastructure solutions.

This role is responsible for defining system performance requirements, developing technical specifications, selection and integration of critical components, and leading mechanical design from concept through production release. Responsibilities include wetted material selection, thermal and structural analysis, fastening strategies, component layout, and design for manufacturability. Partners cross-functionally to deliver reliable, scalable, and cost-effective Data Center Infrastructure solutions while advancing innovation in liquid cooling performance.

What will you do?

- Lead the end-to-end mechanical design and engineering of hyperscale Data Center Infrastructure (DCI) systems, including liquid-cooled rack assemblies, CDUs, manifolds, enclosures, structural frames, and associated hydronic piping systems.

- Serve as the technical authority for single-phase and two-phase liquid cooling architectures, including primary and secondary loop design, in-rack distribution, and system integration within hyperscale data center environments.

- Define and validate operational performance requirements for liquid-cooled infrastructure, including pressure ratings, hydrostatic limits, temperature ranges, flow rates and uniformity, thermal expansion, durability, and serviceability.

- Design, analyze, and validate machined components, welded fabrications, manifolds, and structural systems using advanced engineering principles, including stress analysis, finite element analysis (FEA), flow modeling, and structural load calculations to ensure mechanical integrity and code compliance.

- Lead wetted material selection and compatibility analysis for liquid cooling systems, including corrosion mitigation strategies, surface treatments, cleanliness standards, and long-term durability considerations.

- Develop and review CAD models and complete technical data packages using CREO, SolidWorks, or equivalent tools; ensure design accuracy, manufacturability, and system-level integration.

- Author and approve technical specifications for piping systems, rack-level cooling infrastructure, and hydronic components, including installation guidelines, maintenance procedures, testing requirements, and compliance with applicable standards (ASME, ISO).

- Establish and oversee validation protocols including hydrostatic pressure testing, leak detection and mitigation, flow resistance analysis, and corrosion verification to ensure regulatory compliance and operational reliability.

- Evaluate customer design proposals and technical specifications to assess feasibility, manufacturability, cost, and risk; provide recommendations to optimize performance and total cost of ownership.

- Lead cross-functional design reviews with electrical, thermal, manufacturing, quality, and supply chain teams to ensure full system integration and compliance with product specifications and applicable plumbing and hydronic codes.

- Optimize rack manifold design and manufacturing processes, including machining, welding, surface finishing, connection interfaces, venting and draining strategies, and flow path optimization to enhance performance and manufacturability.

- Drive continuous improvement in manufacturing assembly methods and tooling in collaboration with production teams and equipment vendors to improve quality, scalability, and cost efficiency.

- Lead root cause investigations for complex mechanical failures identified during validation or field deployment and implement corrective design improvements.

- Provide technical leadership in vendor qualification and management for mechanical components and liquid cooling subsystems.

- Identify and mitigate technical risks impacting performance, schedule, or cost, and contribute to R&D initiatives advancing liquid cooling technologies and system innovation.

MINIMUM QUALIFICATIONS

Education: 

- Bachelor’s degree in Mechanical Engineering, Systems Engineering, or a related engineering discipline from an accredited university.

Experience: 

- 8 years' experience in mechanical design and integration of mission-critical systems.

- Proven track record of successful system designs and implementations in a relevant industry

- Strong understanding of mechanical systems, integration strategy, and system coordination

- Familiarity with industry standards and regulations related to Energy Storage Systems and Data Center Infrastructure is preferred.

- Excellent problem-solving skills and attention to detail

- Strong communication and teamwork abilities

PREFERRED QUALIFICATIONS

- Master’s Degree in Mechanical Engineering

- Professional Engineer (PE) License
Remote working/work at home options are available for this role.

Principal Mechanical Integration Engineer
Mechanical Design Engineering 
Data Center Infrastructure Team
Location: Remote* OR Austin, TX
*Requires up to 20% domestic and/or international travel (rare)

The Principal Mechanical Design Engineer (Data Center Infrastructure) is a technical leader responsible for the architecture, integration, and validation of advanced mechanical systems supporting hyperscale data center environments. This role requires deep expertise in liquid cooling technologies (single-phase and two-phase), hydronic system design, structural integration, and manufacturable rack-level infrastructure solutions.

This role is responsible for defining system performance requirements, developing technical specifications, selection and integration of critical components, and leading mechanical design from concept through production release. Responsibilities include wetted material selection, thermal and structural analysis, fastening strategies, component layout, and design for manufacturability. Partners cross-functionally to deliver reliable, scalable, and cost-effective Data Center Infrastructure solutions while advancing innovation in liquid cooling performance.

Lead the end-to-end mechanical design and engineering of hyperscale Data Center Infrastructure (DCI) systems, including liquid-cooled rack assemblies, CDUs, manifolds, enclosures, structural frames, and associated hydronic piping systems.
Serve as the technical authority for single-phase and two-phase liquid cooling architectures, including primary and secondary loop design, in-rack distribution, and system integration within hyperscale data center environments.
Define and validate operational performance requirements for liquid-cooled infrastructure, including pressure ratings, hydrostatic limits, temperature ranges, flow rates and uniformity, thermal expansion, durability, and serviceability.
Design, analyze, and validate machined components, welded fabrications, manifolds, and structural systems using advanced engineering principles, including stress analysis, finite element analysis (FEA), flow modeling, and structural load calculations to ensure mechanical integrity and code compliance.
Lead wetted material selection and compatibility analysis for liquid cooling systems, including corrosion mitigation strategies, surface treatments, cleanliness standards, and long-term durability considerations.
Develop and review CAD models and complete technical data packages using CREO, SolidWorks, or equivalent tools; ensure design accuracy, manufacturability, and system-level integration.
Author and approve technical specifications for piping systems, rack-level cooling infrastructure, and hydronic components, including installation guidelines, maintenance procedures, testing requirements, and compliance with applicable standards (ASME, ISO).
Establish and oversee validation protocols including hydrostatic pressure testing, leak detection and mitigation, flow resistance analysis, and corrosion verification to ensure regulatory compliance and operational reliability.
Evaluate customer design proposals and technical specifications to assess feasibility, manufacturability, cost, and risk; provide recommendations to optimize performance and total cost of ownership.
Lead cross-functional design reviews with electrical, thermal, manufacturing, quality, and supply chain teams to ensure full system integration and compliance with product specifications and applicable plumbing and hydronic codes.
Optimize rack manifold design and manufacturing processes, including machining, welding, surface finishing, connection interfaces, venting and draining strategies, and flow path optimization to enhance performance and manufacturability.
Drive continuous improvement in manufacturing assembly methods and tooling in collaboration with production teams and equipment vendors to improve quality, scalability, and cost efficiency.
Lead root cause investigations for complex mechanical failures identified during validation or field deployment and implement corrective design improvements.
Provide technical leadership in vendor qualification and management for mechanical components and liquid cooling subsystems.
Identify and mitigate technical risks impacting performance, schedule, or cost, and contribute to R&D initiatives advancing liquid cooling technologies and system innovation.

Bachelor’s degree in Mechanical Engineering, Systems Engineering, or a related engineering discipline from an accredited university.

8 years' experience in mechanical design and integration of mission-critical systems.
~ Proven track record of successful system designs and implementations in a relevant industry
~ Strong understanding of mechanical systems, integration strategy, and system coordination
~ Familiarity with industry standards and regulations related to Energy Storage Systems and Data Center Infrastructure is preferred.
~ Master’s Degree in Mechanical Engineering
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Remote working/work at home options are available for this role.