Nylon Tip Socket Set Screws
Metric Size: M1.4-M52, Inch Size: 0# - 2"
Various Drive and Point Types
Various Surface Finishes
Other Material Grades are available
Please feel free to contact us for more details
Remove most or all the rust from nuts, screws, bolts cheap and easy. I am working on cleaning up a free bike that I got. It was very dirty and rusty. A lot of the rust came off easily. Some of the screws were pretty rusty. So here is one of the tricks I use to remove the rust from them. I simply put them in a plastic bottle with some apple cider vinegar and shake them every once in a while. Very easy! You will have to remove the screws from the bike.
**If the video was useful or interesting please give it a “thumbs up” and consider subscribing.
-Website: https://www.RJTheBikeGuy.com
-Facebook: https://www.facebook.com/RJTheBikeGuy
-Subscribe Here: https://www.youtube.com/subscription_center?add_user=shyflirt1
-YouTube Channel: https://www.youtube.com/RJTheBikeGuy
Google Tech Talk (more info below)
August 2, 2011
Presented by Nina Tandon, Ph.D.
ABSTRACT
Dr. Nina Tandon, a TED Fellow and researcher in the field of tissue engineering, discusses her work on cardiac tissue engineering. Her approach involves the development of “enabling technologies” (bioreactors) that facilitate the growth of artificial cardiac cells by mimicking the cells’ natural environments. Nina begins her talk with an overview of cardiac physiology (emphasizing the electrophysiology of the heart), and uses it as a backdrop to introduce the biomimetic engineering strategies she employs in the lab.
Speaker Info:
Nina Tandon, Ph.D.
Nina is a current TED Fellow, post-doctoral researcher at Columbia University’s Lab for Stem Cells and Tissue Engineering, executive MBA student at Columbia University, and adjunct professor of Electrical Engineering at the Cooper Union, teaching a “Bioelectricity” class. A native New-Yorker, she spent her early career in telecom (Avaya Labs), transitioning to biomedical engineering via a Fulbright in Italy (working on an electronic odor detector). She completed her PhD under Gordana Vunjak-Novakovic at MIT and Columbia, researching cardiac tissue engineering. After consulting at McKinsey from 2008-10, she’s resumed her research on electrical stimulation for broader tissue engineering applications. In her spare time, she practices yoga, running, metalsmithing, playing with puppies, baking and exploring.