Corning is the world leader in
specialty glass and ceramics, creating and manufacturing keystone
components that enable high-technology systems.
history is filled with breakthrough technologies that have played an
important role in the way the world works. We thrive on solving
difficult, commercially relevant problems through an innovative and
collaborative research and development process. Corning succeeds through
sustained investment in R&D, more than 160 years of materials
science and process engineering knowledge, and a distinctive
A world leader in industrial research and
development, Corning staunchly believes in change. We thrive on seeking
new opportunities to make a difference for mankind and bringing them to
Our dedicated scientists conduct their research with the
highest integrity, finely tuned processes and superb skill.
Breakthroughs occur when our researchers leverage existing technologies
across product lines or come as the result of a profound moment of
inspiration or even as an unexpected, experimental outcome. That is when
research is at its most exciting.
We do everything possible to
sustain our culture of innovation. We continually invest in research and
development to provide our scientists with the resources they need.
This has enabled our scientific community to develop a unique ability to
solve complex problems and maintain a keen focus on things that really
matter -- technologies that improve our lives and change our world.
is the foundation on which Corning’s history has been built, and we
have no doubt it will lead us to future technological triumphs.
To know more about Corning's Science and Technology division, please visit the R&D website at:
Scope of Position:
the mold design and 3D metrology team to deliver solutions for
optimized mold designs and measurements methods for complex 3D shapes
Interface with process team to improve tooling design to meet process requirements.
with product development and commercial team in assessment of complex
designs for formability, forming and reliability
Support improvements of current measurements and development of new measurement techniques for 3D glass shapes
Day to Day Responsibilities:
Design molds for hot glass forming, and other tooling and fixturing for glass handling as required.
Design metrology gages for shaped glass.
Work with process teams to understand problems, and improve molds and other hot glass tooling to solve the problems.
Work with modeling resources to use heat transfer principles to optimized mold thermal mass and design.
Work with new customer designs to optimize mold design
Design other process fixtures and mechanical components as needed.
Transfer mold designs to manufacturing equipment after testing in the lab.
established 3D metrology for complex shape measurements, or identify
needs for new metrology need, and coordinate resources to deliver new
complex shape measurement methods as required.
Travel Requirements: 10% international
Hours of work/work schedule/flex-time: 40 hours Mon - Fri
MS or PhD in Mechanical Engineering or related field
S in Mechanical Engineering with at least 5 years experience in related area
Experience and in depth knowledge of Solidworks, including surface modeling
Experience in 3D metrology using 3D scanning and reverse engineering
Understanding and knowledge of basic heat transfer
Committed to drive for results with minimal supervision
Experience with ATOS and Rapidform
Surface modeling in Solidworks
Soft Skills (Communication/Team/Leadership):
Scientific curiosity and inventiveness
Positive attitude, flexible and committed work ethic
Organized with good planning and management skills
Kenexa - 2 years ago