Materials & Plastics Engineering
Leads the people, programs, and budgets of materials science R&D — managing scientists who research, characterize, and optimize advanced materials (metals, alloys, polymers, ceramics, composites) using techniques such as XRD, SEM/TEM, mechanical testing, thermal analysis (DSC/EGA), surface analysis (XPS, AFM, EDS, SIMS, AES), and computational modeling (pymatgen, matminer, MAST-ML, pyMKS, ASE, DAMASK). Distinct from hands-on bench/IC characterization and from plastics/process focus areas: this management track is accountable for portfolio direction, resource and instrumentation allocation, safety compliance, cross-functional integration into product development, and securing funding rather than personally executing experiments.
9 leveled profiles. Pick a level to see the full profile.
Individual contributor
Designs and develops plastic and polymer components and the processes used to manufacture them. Distinct from broader Materials Engineering (metals, ceramics, composites) and from Tooling/Mold Design specialists in that this focus centers on polymer selection, plastics processing (injection molding, extrusion, thermoforming, blow molding), and Moldflow-driven validation of plastic part and process design from concept to production.
Designs and develops plastic and polymer components and the processes used to manufacture them. Distinct from broader Materials Engineering (metals, ceramics, composites) and from Tooling/Mold Design specialists in that this focus centers on polymer selection, plastics processing (injection molding, extrusion, thermoforming, blow molding), and Moldflow-driven validation of plastic part and process design from concept to production.
Designs and develops plastic and polymer components and the processes used to manufacture them. Distinct from broader Materials Engineering (metals, ceramics, composites) and from Tooling/Mold Design specialists in that this focus centers on polymer selection, plastics processing (injection molding, extrusion, thermoforming, blow molding), and Moldflow-driven validation of plastic part and process design from concept to production.
Designs and develops plastic and polymer components and the processes used to manufacture them. Distinct from broader Materials Engineering (metals, ceramics, composites) and from Tooling/Mold Design specialists in that this focus centers on polymer selection, plastics processing (injection molding, extrusion, thermoforming, blow molding), and Moldflow-driven validation of plastic part and process design from concept to production.
Designs and develops plastic and polymer components and the processes used to manufacture them. Distinct from broader Materials Engineering (metals, ceramics, composites) and from Tooling/Mold Design specialists in that this focus centers on polymer selection, plastics processing (injection molding, extrusion, thermoforming, blow molding), and Moldflow-driven validation of plastic part and process design from concept to production.
Management
Leads the people, programs, and budgets of materials science R&D — managing scientists who research, characterize, and optimize advanced materials (metals, alloys, polymers, ceramics, composites) using techniques such as XRD, SEM/TEM, mechanical testing, thermal analysis (DSC/EGA), surface analysis (XPS, AFM, EDS, SIMS, AES), and computational modeling (pymatgen, matminer, MAST-ML, pyMKS, ASE, DAMASK). Distinct from hands-on bench/IC characterization and from plastics/process focus areas: this management track is accountable for portfolio direction, resource and instrumentation allocation, safety compliance, cross-functional integration into product development, and securing funding rather than personally executing experiments.
Leads the people, programs, and budgets of materials science R&D — managing scientists who research, characterize, and optimize advanced materials (metals, alloys, polymers, ceramics, composites) using techniques such as XRD, SEM/TEM, mechanical testing, thermal analysis (DSC/EGA), surface analysis (XPS, AFM, EDS, SIMS, AES), and computational modeling (pymatgen, matminer, MAST-ML, pyMKS, ASE, DAMASK). Distinct from hands-on bench/IC characterization and from plastics/process focus areas: this management track is accountable for portfolio direction, resource and instrumentation allocation, safety compliance, cross-functional integration into product development, and securing funding rather than personally executing experiments.
Leads the people, programs, and budgets of materials science R&D — managing scientists who research, characterize, and optimize advanced materials (metals, alloys, polymers, ceramics, composites) using techniques such as XRD, SEM/TEM, mechanical testing, thermal analysis (DSC/EGA), surface analysis (XPS, AFM, EDS, SIMS, AES), and computational modeling (pymatgen, matminer, MAST-ML, pyMKS, ASE, DAMASK). Distinct from hands-on bench/IC characterization and from plastics/process focus areas: this management track is accountable for portfolio direction, resource and instrumentation allocation, safety compliance, cross-functional integration into product development, and securing funding rather than personally executing experiments.
Leads the people, programs, and budgets of materials science R&D — managing scientists who research, characterize, and optimize advanced materials (metals, alloys, polymers, ceramics, composites) using techniques such as XRD, SEM/TEM, mechanical testing, thermal analysis (DSC/EGA), surface analysis (XPS, AFM, EDS, SIMS, AES), and computational modeling (pymatgen, matminer, MAST-ML, pyMKS, ASE, DAMASK). Distinct from hands-on bench/IC characterization and from plastics/process focus areas: this management track is accountable for portfolio direction, resource and instrumentation allocation, safety compliance, cross-functional integration into product development, and securing funding rather than personally executing experiments.