Personal Information
Entreprise/Lieu de travail
Okemos, MI United States
Profession
Professor Emeritus
Secteur d’activité
Education
Site Web
www.parvizsoroushian.wordpress.com/
À propos
A Professor Emeritus, Dr. Parviz Soroushian has spent 40 years on research and teaching undergraduate and graduate courses in the field of Civil Engineering. Dr. Parviz Soroushian has served as the primary investigator for more than 100 research projects, and has been active in technical consulting and transfer of technologies that have emerged out of his research activities.
A pioneer in the field of civil engineering materials, Dr. Soroushian holds more than 20 patents for products and systems related to cement and concrete materials, sustainability, nanotechnology, and functional materials.
Mots-clés
infrastructure
biomimetics
safety
self-healing materials
structures
gecko
sustainability
concrete
sustainable
environmentally friendly
ease of removal
strong adhesion
fly
bio-inspired
adhesives
hot structures
joining
nano-engineered joints
engineering
thermal conductivity
fatigue life
strength
nanomaterials
structural joints
life-cycle economy
longevity
smart materials
composites
biomedical
reliability
economy
mechanism
spider
adhesion
pavements
microwave
replacement
repair
Tout plus
Présentations
(5)Personal Information
Entreprise/Lieu de travail
Okemos, MI United States
Profession
Professor Emeritus
Secteur d’activité
Education
Site Web
www.parvizsoroushian.wordpress.com/
À propos
A Professor Emeritus, Dr. Parviz Soroushian has spent 40 years on research and teaching undergraduate and graduate courses in the field of Civil Engineering. Dr. Parviz Soroushian has served as the primary investigator for more than 100 research projects, and has been active in technical consulting and transfer of technologies that have emerged out of his research activities.
A pioneer in the field of civil engineering materials, Dr. Soroushian holds more than 20 patents for products and systems related to cement and concrete materials, sustainability, nanotechnology, and functional materials.
Mots-clés
infrastructure
biomimetics
safety
self-healing materials
structures
gecko
sustainability
concrete
sustainable
environmentally friendly
ease of removal
strong adhesion
fly
bio-inspired
adhesives
hot structures
joining
nano-engineered joints
engineering
thermal conductivity
fatigue life
strength
nanomaterials
structural joints
life-cycle economy
longevity
smart materials
composites
biomedical
reliability
economy
mechanism
spider
adhesion
pavements
microwave
replacement
repair
Tout plus