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Ceramic Process Engineer Jobs in Texas (NOW HIRING)

Senior CNC Programmer

Midland, TX · On-site

$26 - $35.50/hr

Troubleshoot process issues and implement permanent, data-driven solutions * Drive cycle-time ... Proven and demonstrated experience in machining with ceramic cutting tools, e.g., alumina, silicon ...

Senior Data Analyst

Houston, TX · On-site

$82K - $103K/yr

CARBO is a 45-year-old advanced materials company engineering high-performance ceramic and ... Automate recurring reporting and analytics processes to improve close cadence, accuracy, and ...

Senior Data Analyst

Houston, TX · On-site

$82K - $103K/yr

CARBO is a 45-year-old advanced materials company engineering high-performance ceramic and ... Automate recurring reporting and analytics processes to improve close cadence, accuracy, and ...

Senior Data Analyst

Houston, TX · On-site

$82K - $103K/yr

CARBO is a 45-year-old advanced materials company engineering high-performance ceramic and ... Automate recurring reporting and analytics processes to improve close cadence, accuracy, and ...

Senior Data Analyst

Houston, TX · On-site

$82K - $103K/yr

CARBO is a 45-year-old advanced materials company engineering high-performance ceramic and ... Automate recurring reporting and analytics processes to improve close cadence, accuracy, and ...

Be Seen First

... coat ceramic membrane products used in advanced filtration systems. This position is ideal for ... Monitor the coating process to ensure consistent product quality * Inspect finished products for ...

New

Project engineering to perform design, installation and start-up of new equipment. Initiate and ... Ensure processes remain current and effective while working with accuracy, speed, and urgency to ...

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Ceramic Process Engineer information

What does a Ceramic Process Engineer do?

A Ceramic Process Engineer specializes in designing, optimizing, and overseeing the manufacturing processes for ceramic materials and products. They work with raw materials, develop processing techniques, and ensure product quality by controlling variables like temperature, pressure, and composition. Their responsibilities often include troubleshooting production issues, improving efficiency, and collaborating with other engineers or scientists to develop new ceramic products. Ceramic Process Engineers are employed in industries such as electronics, aerospace, automotive, and construction, where ceramics are used for their unique properties like heat resistance and electrical insulation.

What are some typical challenges a Ceramic Process Engineer faces when scaling up from laboratory to full-scale production?

Ceramic Process Engineers often encounter challenges such as maintaining material consistency, controlling firing conditions, and ensuring product quality when transitioning from lab-scale experiments to industrial production. Variability in raw materials, differences in equipment, and the need for precise temperature control can affect the final product's properties. Close collaboration with production teams, quality assurance, and R&D is essential to troubleshoot issues and optimize processes for efficiency and reliability at scale.

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

To excel as a Ceramic Process Engineer, a strong background in materials science, ceramics engineering, and process optimization—often supported by a relevant engineering degree—is essential. Familiarity with tools like CAD software, thermal analysis instruments, and quality control systems is typically required. Analytical thinking, attention to detail, and effective communication are crucial soft skills for solving complex problems and collaborating with multidisciplinary teams. These competencies are vital to ensure efficient production, high product quality, and innovation in ceramic manufacturing processes.

What is the difference between Ceramic Process Engineer vs Materials Engineer?

AspectCeramic Process EngineerMaterials Engineer
Required CredentialsBachelor's in Ceramic Engineering, Materials Science, or related fieldBachelor's or higher in Materials Science, Metallurgy, or related field
Work EnvironmentManufacturing plants, R&D labs focused on ceramicsResearch labs, manufacturing, product development across various materials
Industry UsageSpecialized in ceramic materials for electronics, aerospace, and industrial applicationsBroader industry applications including metals, polymers, composites, and ceramics

The main difference is that Ceramic Process Engineers focus specifically on the manufacturing and processing of ceramic materials, while Materials Engineers work with a wider range of materials, including metals, polymers, and composites. Both roles require similar educational backgrounds and may work in overlapping environments, but their specialization areas differ significantly.

What job categories do people searching Ceramic Process Engineer jobs in Texas look for? The top searched job categories for Ceramic Process Engineer jobs in Texas are:
What cities in Texas are hiring for Ceramic Process Engineer jobs? Cities in Texas with the most Ceramic Process Engineer job openings:
Infographic showing various Ceramic Process Engineer job openings in Texas as of July 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution.
Sr. Automation Engineer, Blades and Vanes Foundry

Sr. Automation Engineer, Blades and Vanes Foundry

SpaceX

Bastrop, TX • On-site

$103K - $135K/yr

Full-time

Re-posted 6 days ago


SpaceX rating

8.8

Company rating: 8.8 out of 10

Based on 146 frontline employees who took The Breakroom Quiz

7th of 61 rated aerospace companies


Job description

SpaceX was founded under the belief that a future where humanity is out exploring the stars is fundamentally more exciting than one where we are not. Today SpaceX is actively developing the technologies to make this possible, with the ultimate goal of enabling human life on Mars.
SR. AUTOMATION ENGINEER, BLADES AND VANES FOUNDRY
Power generation poses one of the key challenges that could slow the worldwide adoption of AI. The Blades and Vanes Investment Casting Manufacturing Team produces components for power generation using investment casting to create equiaxed, directionally solidified, and single-crystal components that excel under the most demanding operating conditions. As an automation engineer at SpaceX, you will apply first principles thinking to design, develop, and maintain core control systems at the cutting edge of investment casting and other manufacturing processes. This includes integrating PLC/SCADA with advanced manufacturing and energy systems for physics-driven optimization of production processes, as well as developing scalable systems for functionality enhancements, quality inspection, and real-time process optimization.
RESPONSIBILITIES:
  • Integrate electromechanical and mechatronic systems with critical investment casting equipment, including wax injectors, ceramic injectors, preheating, melting, and controlled solidification furnaces
  • Design and develop manufacturing data systems from concept to production, analyzing equipment KPI trends, conducting reliability analysis to create scalable systems for production output, quality inspection, real-time process optimization, and maintenance strategies to enhance equipment uptime and reliability
  • Implement solutions for data collection/storage, using Python/SQL to interface with MES and production databases, while incorporating sensor data for real-time condition monitoring and fault prediction
  • Create and optimize HMI/SCADA/MES interfaces; conduct in-house technology exploration; and integrate predictive analytics for equipment health monitoring
  • Participate in initial equipment conceptual development and carefully balance product specifications, process requirements, layout complexity, cost, and lead-time limits
  • Lay out new industrial electrical control panels that are NFPA79/NEC/UL508A compliant and create electrical, pneumatic, and fluid schematics
  • Architect, write, and debug PLC code, emphasizing generating organized, structured, documented, maintainable, and reusable code for manufacturing applications
  • Implement (ANSI/RIA15.06/OSHA compliant) control reliable safety systems for safeguarding robots, gantries, conveyors, and other manufacturing equipment
  • Select and size electrical and electromechanical components such as servo motors and controllers
  • Manage electrical cabinet builds, field wiring, pneumatic and fluid plumbing

BASIC QUALIFICATIONS:
  • Bachelor's degree in an engineering, physics, or computer science discipline
  • 5+ years experience in the design and commissioning of automation and controls systems for industrial applications

PREFERRED SKILLS AND EXPERIENCE:
  • Proficiency in industrial systems, including configuring control networks (Ethernet/IP, PROFINET, BACnet, Serial Communication)
  • Experience with multiple PLC systems (Siemens, Allen-Bradley, Beckhoff, etc.)
  • Experience with programming ABB mechatronic systems
  • Experience with electrical schematics using ePLAN for circuits and power distribution
  • Exposure to a wide variety of production machinery, industrial sensors, and equipment (vision systems, dispense systems, temperature controllers, laser distance sensors, Nut-Runners, etc.)
  • Hands-on experience in manufacturing settings, solving complex problems using data and customized solutions. Proven results that have improved equipment reliability and reduced downtime
  • Proficiency in Python and SQL, with experience applying these to analyze sensor data for equipment reliability analysis and predictive modeling
  • Hands-on experience troubleshooting and fixing electro-mechanical devices, using hand tools, diagnostic tools (e.g., multimeters, vibration analyzers), and techniques for condition-based monitoring
  • Proven interpersonal skills and ability to objectively resolve conflict within a large group
  • Ability to work flexible hours and schedules as required, with a passion for tackling challenging engineering problems and a drive to innovate and grow in a dynamic, high-impact environment
  • Excellent communication skills, both written and verbal
  • Experience in fast-paced iterative design and manufacturing environments
  • Experience solving complex problems with little to no supervision on schedule as an individual or as a member of an integrated team

ADDITIONAL REQUIREMENTS:
  • Ability to work extended hours and weekends as needed to support critical milestones
  • Must be willing to travel (up to 10%)

ITAR REQUIREMENTS:
  • To conform to U.S. Government export regulations, applicant must be a (i) U.S. citizen or national, (ii) U.S. lawful, permanent resident (aka green card holder), (iii) Refugee under 8 U.S.C. § 1157, or (iv) Asylee under 8 U.S.C. § 1158, or be eligible to obtain the required authorizations from the U.S. Department of State. Learn more about the ITAR here.

SpaceX is an Equal Opportunity Employer; employment with SpaceX is governed on the basis of merit, competence and qualifications and will not be influenced in any manner by race, color, religion, gender, national origin/ethnicity, veteran status, disability status, age, sexual orientation, gender identity, marital status, mental or physical disability or any other legally protected status.
Applicants wishing to view a copy of SpaceX's Affirmative Action Plan for veterans and individuals with disabilities, or applicants requiring reasonable accommodation to the application/interview process should reach out to EEOCompliance@spacex.com.

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