Every single one of the 3.5 trillion miles in the US are made possible by the hundreds of rotating parts that enable a vehicle to drive down the road. The performance of these parts is a direct result of the advancements in the science of roundness.
If we take the fulcrum point of a lever and move it completely over to one end, duplicate it repeatedly, witch each copy sharing the same fulcrum; a new simple machine is formed - the wheel.
Wheels allow us to multiple distances, speed, or force based on how much leverage we put on their center point.
Wheels provide another characteristic that has been critical to industrial growth. The ability to reduce friction by transmitting forces at a single point.
Roundness, along with size play critical roles in how parts are specified, designed and fitted. However, roundness diverts from the standard methods of defining dimensions such as length, area, and volume. Roundness is more of a relationship between dimensions and must be measured in a completely different manner. The measure of roundness, as well as other metrics of dimensionality, is known as metrology - the scientific study of measurement.
The ability to verify the roundness of a part is absolutely critical to a component’s performance.
In the intrinsic datum method, the datum points used for measurement are directly taken off the part and it contacts point with a reference surface. Typically a flat surface is used for a single datum measurement or a V block for a two datum measurement.
A measurement device that measures the displacement of the surface, such as a dial indicator, is brought to the surface of the part and zeroed to a start point. As the part is rotated, deviations from roundness displace the measurement tool from zero, with surface peaks creating positive displacement and valleys negative ones.
The solution to the limitations of the intrinsic datum method is extrinsic datum measurement. Extrinsic datum measurement is done by assigning a rotational axis datum to the part and aligning it the circular datum of a highly accurate rotating measuring fixture.
The four common types of calculated references circles are:
Least Square Reference Circle (LSC)
Minimum Zone Circle (MZC)
Minimum Circumscribed Circle (MCC)
Maximum Inscribed Circle (MIC)
The Least Square Reference Circle (LSC), the most commonly used reference circle, is a circle that equally divides the area between the inside and outside of the reference circle.
A Minimum Zone Reference Circle (MZC) is derived by first calculating the smallest circle that can fit inside of the measured data. Then calculating the smallest circle that can encompass the measured data. The out-of-roundness is given by the radial separation between these two circles that enclose the data.
A Minimum Circumscribed Reference Circle (MCC), sometimes known as the ring gauge reference circle and is the smallest circle that totally encloses the data. Out-of-roundness is quantified as the largest deviation from this circle.
A Maximum Inscribed Reference Circle (MIC) is the largest circle that can be enclosed by the data. The out-of-roundness
is quantified as the maximum deviation of the data from this circle. This is sometimes known as the Plug Gauge Reference Circle.
When rotating parts are examined, especially by extrinsic measurement, harmonics of the part become a consideration. Irregularities that exist on a rotating part that happens rhythmically are known as undulations.
In 2011, the International Committee for Weights and Measures spearheaded an effort to redefine the kilogram, moving it away from antiquated reference objects. One proposal, pushed by an international team called the Avogadro Project, aimed to define the kilogram in terms of a specific number of silicon atoms. In order to count the atoms of the large silicon-28 crystal, it was ground into a ball and its volume determined.
Moving past man-made objects, let’s look at the roundest object ever measured. In 2013, in an effort to study the distribution of charge around the electron, scientist at Harvard were able the measure the smallest roundness ever.
1 view
223
45
1 month ago 00:00:14 1
A Powerful Darshan of the Kedarnath Temple’s Sacred Linga 🙏🏼
1 month ago 02:01:18 3
Half-Life 2: 20th Anniversary Documentary
2 months ago 00:52:53 1
Insane futuristic Metal & Electro Music Mix
2 months ago 01:17:11 1
The Day The Galaxy Realized Humans Are NOT Cute | Best HFY Stories
2 months ago 00:08:45 2
TXT Answer The Web’s Most Searched Questions | WIRED
2 months ago 00:13:21 1
Religions and babies | Hans Rosling
2 months ago 00:39:19 1
Historian Answers Witchcraft Questions | Tech Support | WIRED
2 months ago 00:00:24 1
Where is the Only McDonald’s in the World with a Blue Logo? #trivia #funfacts #mcdonalds
2 months ago 01:00:34 1
Мужские движения | Михаил Пожарский
2 months ago 00:18:50 1
The Power of Diesel: Inside the Engine | Shell Historical Film Archive
2 months ago 01:16:30 1
#1 Neurosurgeon: How to Manifest Anything You Want & Unlock the Unlimited Power of Your Mind
2 months ago 00:08:22 3
Interstellar Tribute | Humane
2 months ago 02:01:45 1
Что такое реальность?
2 months ago 00:03:53 5
Nina - 80’s Girl (80’s Movies Compilation)
2 months ago 00:17:30 1
CONSUMO DE ÁLCOOL E M4C0NH4 | O QUE DIZEM OS ESTUDOS?
2 months ago 00:00:58 1
Robots can’t express human thoughts..#doctorwho #movie #shorts #vincent#doctorwhovincent
2 months ago 00:00:57 1
THIS is How Often You Should Train Your Biceps
2 months ago 01:49:52 5
FINAL TRANSIT 🎬 Exclusive Full Sci-Fi Action Movie Premiere 🎬 English HD 2024
2 months ago 01:28:47 1
PINCHING PENNY 🎬 Exclusive Full Thriller Action Movie 🎬 English HD 2023
2 months ago 00:39:26 1
Bob Laramee - Visualizing the Signal From the Noise: Keynote Talk for the ICINC 2024 Conference
2 months ago 01:39:49 1
He Returns from Space With an Alien Whose Secret May Destroy Humanity | Best Action Sci-Fi Movie
2 months ago 00:04:55 1
It’s You【UST】“Weird Science“ (1985)
2 months ago 00:52:15 1
Mata Hari: Seductress, Spy, or Scapegoat?
2 months ago 00:53:47 2
Myths BUSTED! Brave German Journalist EXPOSES Ukraine/NATO War Lies.