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Robodk information

What types of projects can a robotics engineer expect to work on when using RoboDK in an industrial automation team?

As a robotics engineer utilizing RoboDK, you can expect to work on a variety of projects ranging from robot simulation and offline programming to optimizing manufacturing processes. Typical responsibilities include creating and testing robot programs, simulating cell layouts, and integrating robotic arms with other automation equipment. Collaborating closely with mechanical, electrical, and software engineers is common, as is troubleshooting real-world deployment issues. This role offers opportunities to develop advanced automation solutions and gain experience with multiple robot brands, furthering your career in robotics and industrial automation.

What is a RoboDK programmer?

A RoboDK programmer is a professional who uses RoboDK, a powerful simulation and offline programming software for industrial robots. They create, simulate, and optimize robot programs for tasks such as welding, painting, assembly, and pick-and-place operations. By using RoboDK, programmers can validate robot paths, reduce downtime, and improve manufacturing efficiency without needing to program robots directly on the shop floor. This role often requires knowledge of robotics, automation, and CAD/CAM integration.

What is the difference between Robodk vs Robot Programmer?

AspectRobodkRobot Programmer
Primary RoleSoftware platform for robot simulation, offline programming, and automationDevelops, tests, and implements robot code and programs
Required SkillsProgramming, robot simulation, CAD integrationRobot-specific programming languages, troubleshooting
Work EnvironmentSoftware-focused, often in engineering or automation settingsOn-site with robotic systems, manufacturing or industrial facilities
CertificationsOften includes certifications in robotics software or automationRobot programming certifications, technical degrees

Robodk is a software platform used for robot simulation and offline programming, enabling automation design without physical robots. In contrast, a Robot Programmer directly writes and tests code on actual robotic systems. While Robodk focuses on simulation and planning, Robot Programmers work hands-on with real robots to ensure proper operation and task execution.

What are the key skills and qualifications needed to thrive as a Robodk Application Engineer, and why are they important?

To excel as a Robodk Application Engineer, you need a background in robotics, automation, and programming, often supported by an engineering degree or relevant certifications. Familiarity with Robodk software, industrial robots, and programming languages such as Python or C++ is typically required. Strong problem-solving, communication, and project management skills help professionals effectively support clients and optimize robotic processes. These abilities ensure accurate automation solutions, successful project delivery, and strong client relationships in industrial automation environments.
More about Robodk jobs
What cities are hiring for Robodk jobs? Cities with the most Robodk job openings:
What states have the most Robodk jobs? States with the most job openings for Robodk jobs include:
Infographic showing various Robodk job openings in the United States as of June 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution.
Mechanical Engineer III - (E3)

Mechanical Engineer III - (E3)

Applied Materials

Austin, TX • On-site

$108K - $148K/yr

Full-time

Posted 22 days ago


Applied Materials rating

8.6

Company rating: 8.6 out of 10

Based on 55 frontline employees who took The Breakroom Quiz

26th of 527 rated manufacturers


Job description

Who We Are
Applied Materials is a global leader in materials engineering solutions used to produce virtually every new chip and advanced display in the world. We design, build and service cutting-edge equipment that helps our customers manufacture display and semiconductor chips - the brains of devices we use every day. As the foundation of the global electronics industry, Applied enables the exciting technologies that literally connect our world - like AI and IoT. If you want to push the boundaries of materials science and engineering to create next generation technology, join us to deliver material innovation that changes the world.
What We Offer
Salary:
$108,000.00 - $148,500.00
Location:
Austin,TX
You'll benefit from a supportive work culture that encourages you to learn, develop, and grow your career as you take on challenges and drive innovative solutions for our customers. We empower our team to push the boundaries of what is possible-while learning every day in a supportive leading global company. Visit our Careers website to learn more.
At Applied Materials, we care about the health and wellbeing of our employees. We're committed to providing programs and support that encourage personal and professional growth and care for you at work, at home, or wherever you may go. Learn more about our benefits.
As a Mechanical Engineer, you'll leverage your strong foundation in physics, mathematics, and materials science to process and resolve mechanical problems, design and implement custom mechanical tooling and associated processes, and enable the handling, assembly, and disassembly of parts, components, sub-assemblies, and final assemblies throughout the product life cycle. You'll be responsible for designing, developing, and modifying mechanical engineering layouts, schematics, and specifications. You will oversee manufacturing and installation processes, ensuring adherence to industry standards and regulations-- and you'll coordinate the procurement and assembly of mechanical components and equipment for design projects, identifying sources of critical parts and subsystems to resolve technical issues.
Job Description: Mechanical Engineer - Robotics & End-of-Arm Tooling
Position Summary
We are seeking a highly motivated Mechanical Engineer with expertise in robotics and end-of-arm tooling (EOAT) design to support the development of advanced automation systems. This role involves designing, developing, and integrating robotic tooling solutions, along with hands-on involvement in testing, programming, and system validation.
The ideal candidate combines strong mechanical design fundamentals with practical robotics experience and basic programming skills to deliver scalable, high-performance automation solutions.
Key Responsibilities
1. Robotics & EOAT Design
  • Automation system architecture development including robot selection and validation and End of arm tooling design
  • Design and develop end-of-arm tooling (grippers, torque tools, inspection tools, etc.) for robotic applications
  • Optimize EOAT for performance, precision, accessibility, and manufacturability
  • Define mechanical interfaces between robot, tooling, and process components
  • Develop concepts for automated handling of complex parts and assemblies
  • Interface with critical OEM suppliers delivering state-of-the-art automation technologies

2. System Integration
  • Integrate EOAT with robotic systems, including mechanical, electrical, and software interfaces
  • Collaborate with controls and software engineers to ensure seamless system operation
  • Resolve integration challenges across subsystems (robot arm, sensors, actuators, fixtures)
  • Create motion models to analyse clearances using simulation tools like RoboDK or similar

3. Prototyping & Validation
  • Build and test prototypes of tooling and automation concepts
  • Develop test plans and execute validation for functionality, durability, and repeatability
  • Analyze performance data and iterate designs based on testing outcomes

4. Programming & Automation Support
  • Develop and modify robot programs (e.g., motion sequences, tool paths, process logic)
  • Support integration of sensors, vision systems, and feedback loops
  • Work with scripting/tools (Python, ROS, PLC logic, or vendor-specific robot languages) to enable automation workflows

5. Design for Automation (DfA / DfAS)
  • Drive product and system design improvements for robotic accessibility, serviceability, and repeatability
  • Define design guidelines and standards for automation-friendly hardware
  • Collaborate with cross-functional teams to enable scalable automation

6. Documentation & Communication
  • Create detailed CAD models, drawings, BOMs, and design documentation
  • Author specifications for EOAT and robotic subsystems
  • Present technical solutions and trade-offs to stakeholders

Functional Knowledge
  • Demonstrates conceptual and practical expertise in own discipline and basic knowledge of related disciplines.

Business Expertise
  • Demonstrates an understanding of best practices and how their area of expertise aligns with other departments; maintains awareness of competitors and the elements that distinguish them within the marketplace.

Leadership
  • Acts as a resource for colleagues with less experience may lead small to medium projects with manageable risks and resource requirements.
  • Works independently without supervision.

Problem Solving
  • Addresses difficult problems, evaluates existing solutions from different viewpoints, and makes decisions using information from various sources.
  • Able to provide creative automation solutions.

Impact
  • Impacts a range of customer, operational, project or service activities within own team and other related teams; works within broad guidelines and policies.

Interpersonal Skills
  • Clarifies complex or sensitive topics; fosters consensus.

Required Qualifications
  • Bachelor's or Master's degree in Mechanical Engineering, Robotics, or related field
  • 3-8+ years of experience in mechanical design with exposure to robotics or automation
  • Strong proficiency in CAD tools (e.g., NX, SolidWorks, Crea)
  • Experience designing mechanical systems, assemblies, and tooling
  • Understanding of robotic systems, kinematics, and coordinate systems
  • Hands-on experience with prototyping, testing, and troubleshooting

Preferred Qualifications
  • Experience designing end-of-arm tooling (grippers, vacuum tools, torque tools)
  • Familiarity with industrial or collaborative robots (e.g., FANUC, ABB, UR, KUKA)
  • Programming experience (Python, C++, ROS, or robot-specific languages)
  • Knowledge of sensors, vision systems, and automation controls
  • Experience in semiconductor equipment, manufacturing automation, or service robotics

Key Skills
  • Mechanical design and analysis
  • Robotics integration and system thinking
  • Problem-solving and root cause analysis
  • Cross-functional collaboration
  • Hands-on engineering and prototyping

Additional Information
Time Type:
Full time
Employee Type:
Assignee / Regular
Travel:
Yes, 10% of the Time
Relocation Eligible:
Yes
The salary offered to a selected candidate will be based on multiple factors including location, hire grade, job-related knowledge, skills, experience, and with consideration of internal equity of our current team members. In addition to a comprehensive benefits package, candidates may be eligible for other forms of compensation such as participation in a bonus and a stock award program, as applicable.
For all sales roles, the posted salary range is the Target Total Cash (TTC) range for the role, which is the sum of base salary and target bonus amount at 100% goal achievement.
Applied Materials is an Equal Opportunity Employer. Qualified applicants will receive consideration for employment without regard to race, color, national origin, citizenship, ancestry, religion, creed, sex, sexual orientation, gender identity, age, disability, veteran or military status, or any other basis prohibited by law.
In addition, Applied endeavors to make our careers site accessible to all users. If you would like to contact us regarding accessibility of our website or need assistance completing the application process, please contact us via e-mail at Accommodations_Program@amat.com, or by calling our HR Direct Help Line at 877-612-7547, option 1, and following the prompts to speak to an HR Advisor. This contact is for accommodation requests only and cannot be used to inquire about the status of applications.

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About Applied Materials

Sourced by ZipRecruiter

Applied Materials is the global leader in materials engineering solutions used to produce virtually every new chip and advanced display in the world. We're the brain (and the brawn) behind every new technology development--whether it's building semiconductor chips for smartphones and computers, or the underpinnings for robotics, AI and even smart TV display screens. With 27,000 employees in 19 countries, we offer an exciting place to grow and learn alongside some of the best people you'll ever meet. We take deep pride in our Culture of Inclusion, and we celebrate the diverse backgrounds, perspectives and experiences that help us build stronger, more resilient teams. Join us as we innovate to Make Possible a Better Future!

Industry

Manufacturing

Company size

10,000+ Employees

Headquarters location

Santa Clara, CA, US

Year founded

1967