Cutting edge topics: Nanotechnology, Biomechanics, and Medical robotics and robotics surgery
3 views | +0 today
Follow
Your new post is loading...
Your new post is loading...
Scooped by Mark DeAngellis
Scoop.it!

Mechanical Engineering--UC Berkeley

more...
Mark DeAngellis's comment, April 4, 2014 1:22 PM
Mechanical engineering is at the center of most technological and environmental advancements as of now. The application areas range from critical medical devices, analytical tools and mobility assistance in healthcare, alternate fuel and energy supplies in transportation, and many more. Advanced sensors and control in the building are also researched frequently.
Mark DeAngellis's comment, April 4, 2014 1:24 PM
At the beginning of the 20th century, mechanical engineers designed and worked with large rotating machines. Today, our work spans all areas of energy production and transfer. The works also includes the vast area of system design and control.
Mark DeAngellis's comment, April 4, 2014 1:28 PM
With the turn of the century, the field of mechanical engineering enters a particularly vital era. The information age, born in the last century, has already affected every aspect of our discipline The information age also revolutionized the field of mechanical engineeering.
Scooped by Mark DeAngellis
Scoop.it!

Biomechanical Engineering - Mechanical Engineering - UMBC

more...
Mark DeAngellis's comment, April 4, 2014 8:45 AM
Researching the mechanical behavior or deformable particles, which are living cells, is a main focus area. The influence of hydrodynamic forces and applied external forces on their behavior are also key focus points.
Mark DeAngellis's comment, April 4, 2014 8:50 AM
Investigating the heat and mass transfer in magnetic nanoparticle hyperthermia and photothermal therapy using gold nanoshells or nanorods in cancer therapy is a high focus point. Targeted brain cooling uses an interstitial cooling device. Bacterial disinfection in endodontics using laser or heating catheters is equally important.<br>
Mark DeAngellis's comment, April 4, 2014 8:56 AM
Surface modifications to biomaterials to prevent wear and corrosion. Structural modifications such as macro and nano modifications are used to increase fatigue and fracture resistance. Understanding the structure changes in human arteries that occur as a result of aging or disease is a main factor.
Scooped by Mark DeAngellis
Scoop.it!

U of M: Department of Mechanical Engineering: Research:Nanotechnology

U of M: Department of Mechanical Engineering: Research:Nanotechnology | Cutting edge topics: Nanotechnology, Biomechanics, and Medical robotics and robotics surgery | Scoop.it
more...
No comment yet.
Scooped by Mark DeAngellis
Scoop.it!

>ME Major Field Area--Bioengineering

>ME Major Field Area--Bioengineering | Cutting edge topics: Nanotechnology, Biomechanics, and Medical robotics and robotics surgery | Scoop.it
more...
Mark DeAngellis's comment, April 4, 2014 1:16 PM
Over the last ten years, bioengineering has grown rapidly. Uc Berkeley can be credited with many of the innovations. One major international center for bioengineering research in the Bay Area.
Scooped by Mark DeAngellis
Scoop.it!

Nanotechnology : Areas : Research - Mechanical Engineering, Purdue University

Nanotechnology : Areas : Research - Mechanical Engineering, Purdue University
more...
No comment yet.