Shane Wighton - His Most Fascinating Projects In YouTube
Shane Wighton is a well-known and popular engineer and YouTuber. Shane Wighton was born in the United States and started his career as a Youtuber in March 2021. He is one of the famous YouTubers of that age group.
Shane Wighton is an influential Youtube expert in the world with a wide reach on social media.
YouTube is a social platform that has made many people dare to show the world what they can do, one of which is Shane Wighton.
He founded a YouTube channel called "Stuff Made Here" which specializes in bringing unique inventions to society.
The famous media talent, Shane Wigghton, was born on September 15, 1991, and is now 30 years old.
Many couldn't believe he was only thirty, but he knows everything about how to make something from scratch.
His YouTube channel was selected from among the other candidates nominated for the 10th Streamy Awards because of his splendor in innovating various things and giving them a new purpose.
He often posts many personal photos and videos to interact with their huge followers on social media platforms.
Becoming a social media influencer can help you become famous already, but if you're good at Instagram, Facebook, Twitter, Youtube, etc., you need to have a live or personal touch and you should interact with your followers, to keep all this going.
Shane Wighton net worth is increasing day by day. He is getting popular more and more on social media due to his genius ideas and projects. His net worth range is $1Million to $5Million.
Wighton obtained a bachelor's degree in mechanical engineering from the University of North Carolina at Charlotte, as well as a master's degree in computer science from the same institution.
I have compiled a list of his famous projects that are available on his own website. He also has patents on some of his projects which are also discussed below.
One of his outstanding inventions was a robot that could cut a person's hair with just scissors and a few sensors. Some famous ones are mentioned below.
Plasma cutting is very convenient.
Combined with bending and welding, it is often the fastest and cheapest way to build mechanical structures and housings.
Results that can take a day with a 3D printer or CNC router can be achieved in minutes with a plasma cutter.
Needless to say, the cost of sheet metal is much cheaper than materials for 3D printers.
When doing this project, he always does folding and welding structures with plasma cutting machines, but every time the same problem occurs.
In order to find a solution to this issue, he constructed a pen plotter head for his plasma cutter.
It gives him the ability to design all of the bend lines first, and then proceed to cut out the portion.
This provides him with accurately registered bend points, which makes folding the parts significantly less difficult.
When he designs a sophisticated folded part, he often finds that he is unable to precisely place the bends in the part when he goes to fold it.
He is going to spend a lot of time attempting to get an accurate measurement of them, but since the plasma cutter may create any arbitrary shape, it might be tough to do so.
When he was planning the downdraft for his plasma cutter, one of his primary concerns was that it might send an excessive amount of metal dust flying out of his workshop and then into his driveway.
As it turned out, he was correct, and as he started cutting more, he has seen a significant increase in the amount of metal that has gathered on the ground.
In order to find a solution to this issue, he devised a filtration system that would eliminate the larger particles that were present in the exhaust.
Because he was not concerned with smoke or vapors, he was able to design a "solid-state" filter that takes advantage of the incapacity of a heavy particle to follow a tight curve.
This was possible because heavy particles cannot follow a tight corner.
Cyclonic separators seen on more powerful shop vacuum systems served as an inspiration for this invention.
It seems to function rather well, and he is pretty happy with the outcomes.
Watch the video if you would want to acquire further information.
According to Shane, he has never seen anyone use 3D-printed tooling to form sheet metal before, so he decided to give it a shot himself.
It turned out really well, surprisingly. In the video mentioned below, you can see a full explanation of the steps he followed to design and get the formation (basically) working.
The completed product of this project was a blade guard that could be replaced on a Sawzall.
He used this method as an experiment; but, considering the total amount of effort involved and the relatively low cost of the Sawzall, it is not the most efficient method to use in general because he does not require one hundred of these.
Having said that, if you do require 100 or more bend steel, this method could be incredibly cost-effective and time-saving.
Shane Wighton's patents on his inventions are listed below:
- Systems and methods of simulating intermediate forms for additive fabrication - Patent number: 11173665
- Additive fabrication support structures - Patent number: 11203162
- Liquid interface techniques for additive fabrication and related systems and methods - Patent Number: 11312074
Shane is neither married to anyone nor dating someone.
There is no information regarding his IQ but according to his educational and career achievements, he might have a high IQ.
Shane is a leader in the engineering department for Formlabs and also serves as the site lead for the company's office in North Carolina.
What is your favorite Shane Wighton project? Do you follow him on social media? Let us know what you think about his inventions in the comment section!