Mineralogist here. I was bored and scrolling when your video just happened to pop up and make my night. Keep up the good work! I’m very happy to see good economic geology content
Manganese is also used as the major alloying element for making aluminum sheets.The most common use that the public experiences is the humble aluminum beverage can. Just the main body of the can (alloy 3004), but not the lid (which uses magnesium rather than manganese). Being medium strength, aluminum-manganese alloy sheets are typically in general sheet metal work.
While cleaning up a petroleum pipeline spill, I saw a fascinating Eh effect at a small emergent spring in a deep arroyo at the downgradient limit of the subsurface contamination. Initially the spring ran clear with a thin petroleum sheen. After a few months, the spring’s sediment turned orange from oxidizing iron mobilized from the subsurface by indigenous aerobic bacteria consuming the petroleum and oxygen in the ground water. A week later the sediment turned black from oxidizing manganese, as the Eh in the sandstone formation continued to drop. Lastly, another week passed and the sediment turned grey from oxidizing sulfur. It was fascinating to observe.
thank you @jaymacpherson8167 ! Did you get a sense of the flows or have a chance to check the pH shift as the system changed? Might the petro/cbod have been enough to go through all of the iron, then, Mn, then sulfur in the contacted pores (like heap leach), such that that the discrete hydrogeologics might be stripped of those elements (in that small area?). Thanks!
18:04 "we cannot really see the impacts of our activities at such great depths" This is why I have endeavored to get a degree in Marine Technology, though I am really struggling with it at the moment. Thank you Dr. Torvela for such an insightful video. I hope to learn more from you in the future.
Minerals precipitating in rings around bodies of water, it all makes sense. I've seen it before around thermal springs in Yellowstone but had never thought of it happening in large scale (pardon the pun). Thanks for the enlightenment!
I'm much more familiar with high performance alloys for tools and aerospace, where manganese is usually a smaller component, and other elements such as nickel, chromium and vanadium are more important. Learning that manganese is the 3rd most used metal was news to me. Always happy to learn something new :). Btw, some small constructive feedback: the audio sounds very compressed (aggressive noise filtering) when outside. I loved the content, but you might want to invest in a lav mic. That would significantly improve the quality of the content without much cost.
The Lecht Mine in N. Scotland produced manganese in the 18th and 19th centuries and the mine building is now a visitor attraction. The manganese dioxide ore was used to make chlorine and bleach in those days. Probably a supergene deposit of Fe and Mn oxides in a breccia. These same deposits were used by locals to smelt iron to make agricultural implements and weapons.
I'm not sure about the details but I do think it is reasonably easy to recycle manganese from steel, after all over half of manganese in scrap metal is recycled globally.
Right off the bat that is amazing to me - the 3rd most consumed metal - and yeah - I don't even think of it - I just scrapped maybe 1500 pounds of steel and aluminum today (cleaning out years of gears sprockets - auto parts etc ) and I suppose there was Manganese in all that or it was used to make it - I'll have to watch more to find out
Nice video, near subject matter. No idea why the algorithm showed it to me, but it works-- actually been scratching around for a couple of manganese minerals. Have a property in Alleghany county NC, where Alleghanite and Galaxite (even though Galax is in another county, it was first described in Alleghany) were first described. I REALLY want to find my own nice samples of both : )
Got interested in geology by watching a few gold seeker channels, mainly Jeff Williams. Have no desire to search for gold but became interested in the academic part of it. This dovetails right in. I don’t understand it yet, or have a big picture view in general, but have researched some of the nomenclature ive heard and am putting it together.
Glad your channel popped up on my feed. Very interesting. We use manganese on wear plates and paddles for airless shot blasting machines and abrasive environments as it work hardens and it then actually slows dow the effects of the abrasives on the plates giving longer service schedules on the machine one draw back is, it dose become brittle so they can shatter if they receive heavier impacts than designed for. Im afraid i cant tell you the percentage of manganese in the alloy, we just refer to them as manganese plates or paddles but they're cast not machined because they work harden so fast.
Manganese phosphate is an interesting permanent violet pigment. Quite highly metameric. Hue shifts to a redder violet in most artificial lighting. More a Bluish Violet in 'Natural light. Manganese blue is a now v.rare artist's blue tending to a greenish cyan. More striking I think than near equivalent Pthalocyanine tints.
I watched something on the Clarion-Clipperton Zone and the controversy around mining claims there and the environmental impacts of those mining methods. Potato-sized nodules of manganese litter the seafloor and from what I remember, there isn’t a way to scoop those up and bring them up to the surface without also scooping up sea life.
Thank you for the useful and helpful content. Doctor, please prepare a clip of the formation of gold from leached pyrite. Because the source of the gold deposits that I discover is leached pyrites. And are these pyrite leaches seen in the form of gold nuggets? And why mercury is involved in most of these leaches. Thank you very much
I'll do a video on gold at some point but my videos are not aimed at specialists so I doubt I will talk about gold remobilisation from pyrite. But have a look at the papers by Hastie et al. on the subject.
Copper is pretty close in terms of amount mined annually so it's debatable which one is "bigger" in fact. It's hard to get reliable metrics because most stats for manganese are calculated for Mn ore, rather than the pure metal, whilst for copper they are for the pure metal. But Mn ore contains about 35% manganese metal, and we mine about 50-60 million tonnes annually so that's about 20 Mt pure Mn, about the same as the annual copper mining. But none of that takes into account recycling, another 10 Mt recycled copper is used annually so that our total Cu consumption is about 30 Mt per year; but I haven't been able to find out how much recycled Mn we use annually (I know that >50% of Mn in scrap metal is recycled, but I don't know what that amounts to in terms of Mt manganese).
@@ourmetallicearth Yep - I've got quite a bit of copper wires and a quite a bit of stripped down aluminum ready to go to the scrap yard - but no barrel for manganese as of yet since I'd have no clue what it is
Not 100% sure but I think it was due to a combination of higher demand from industry, particularly in China and a period of reduced mine production in South Africa.
You might visit a scrap yard sometime to 'close the loop' on OUR METALLIC EARTH - the guys there would love to have a visit from a smarty pants like you (they are mostly see grizzled older guys but there are occasional scrap women as well) - it is amazing the stuff you see there - sort of sad at all the creative energy lost and I always say we should pray to a "God of the Furnace" or else we would suffocate pretty quick in all this stuff we create literal mountains of metal scrap ready to enjoin virginal metals coming from pure earth to produce more unnecessary necessary 'stuff'
Another excellent involved video - must take a lot of work - graphics and all that - lots of Big Brain knowledge here as well - we really take for granted the countless things we use that have almost infinite 'behind the scenes' production involved - like these super nice metal shears next to my hand - titanium and steel and I guess Manganese and plastics and calibrated springs and rubber and .... kids in school should really be watching this stuff and bringing to class some 'vital' thing in their life - like tennis shoes or MP3 players or ??? and then break it all down to the level mining for minerals so we can appreciate how far we've come - otherwise it's "ho hum' there must be a tennis shoe tree that just grows them attitude
Does anyone in the comment section know what the temperature gradient is per 100 feet going down into the Earth - I mean last year when it was 0 degrees F outside but the basement floor was roughly 40 degrees - which impressed me and then we know that something 'molten' is going on at some depth below - but I have never seen a 'gradient' curve for what point the temp is like 420 degrees or 68 degrees - and is it linear or non linear and at what point does the heat energy (via compression ?) start to reflect back up ?
I'm English it's manganese not manga-NEESE. Thats quite important in it's pronunciation in American and UK English. This is a fascinating and informative site.
I don't need an electric car...I don't need aluminium cans!, I change all that for a non polluted healty planet...sorry this is all tecnically fascinating but we will not remplace *a billion combustion cars* in the world with EV...the scarcity of material and the possibilities of mining it profitably is an unequivocal limitation, so being realistic EV would be for some rich europeans not for common people. Are we willing to fu up the planet to make a bunch of EV for a few privileged?, mining has to know when to stop, you can't pollute groundwater refining gold with cyanide for you to put a useless ring on your finger...I don't care if it's profitable this has to stop, is pure nonsense...extract what, where, at what cost, to make what for whom?, why this fundamental reasoning is completely absent in the video and in the general industry?, peoples minds and life styles have to change drastically...
You are not typical of millions of people who do want things made of metals. if you go to hospital your life will depend on lots of things made of all sorts of metals and plastics as well as chemicals. Want to go back to the stone age? No anaesthetics, no medicines, no surgery? People used to die from appendicitis (it wasn't nice), not anymore.
Mineralogist here. I was bored and scrolling when your video just happened to pop up and make my night. Keep up the good work! I’m very happy to see good economic geology content
Thanks, very glad you like it!
Keep going. Growth is slow at first but then it takes off when people realise you are providing solid science (geology) info in a digestible fashion.
Manganese is also used as the major alloying element for making aluminum sheets.The most common use that the public experiences is the humble aluminum beverage can. Just the main body of the can (alloy 3004), but not the lid (which uses magnesium rather than manganese). Being medium strength, aluminum-manganese alloy sheets are typically in general sheet metal work.
So interesting! So well presented. Not a single unnecessary word.
While cleaning up a petroleum pipeline spill, I saw a fascinating Eh effect at a small emergent spring in a deep arroyo at the downgradient limit of the subsurface contamination. Initially the spring ran clear with a thin petroleum sheen. After a few months, the spring’s sediment turned orange from oxidizing iron mobilized from the subsurface by indigenous aerobic bacteria consuming the petroleum and oxygen in the ground water. A week later the sediment turned black from oxidizing manganese, as the Eh in the sandstone formation continued to drop. Lastly, another week passed and the sediment turned grey from oxidizing sulfur. It was fascinating to observe.
thank you @jaymacpherson8167 ! Did you get a sense of the flows or have a chance to check the pH shift as the system changed? Might the petro/cbod have been enough to go through all of the iron, then, Mn, then sulfur in the contacted pores (like heap leach), such that that the discrete hydrogeologics might be stripped of those elements (in that small area?). Thanks!
Thank you so much, this short and concentrate knowledge is very helpful..
Beautiful work.
Good info ; well done vid⚓️⛓️
18:04 "we cannot really see the impacts of our activities at such great depths" This is why I have endeavored to get a degree in Marine Technology, though I am really struggling with it at the moment. Thank you Dr. Torvela for such an insightful video. I hope to learn more from you in the future.
Very good, thanks. Subscribed.
Minerals precipitating in rings around bodies of water, it all makes sense. I've seen it before around thermal springs in Yellowstone but had never thought of it happening in large scale (pardon the pun). Thanks for the enlightenment!
Great content. Thank you
Glad you enjoyed it! 😊
Cool. Thanks for sharing.
Thanks for watching!
I'm so happy your channel showed up on my feed!! Looking forward to watching more videos ASAP
More to come!
@@ourmetallicearth👏
Really cool info. Your channel will blow up!
I like your video. Very accessible information, clearly presented.
Fantastic video... Great voice
This is a very interesting video. Thank you.
Glad you enjoyed it!
Great video! I love your work. Please keep it up there aren’t many videos like these ones on RUclips.
Brilliant. A very clear story, very well told. Many thanks . . .
I'm much more familiar with high performance alloys for tools and aerospace, where manganese is usually a smaller component, and other elements such as nickel, chromium and vanadium are more important. Learning that manganese is the 3rd most used metal was news to me. Always happy to learn something new :). Btw, some small constructive feedback: the audio sounds very compressed (aggressive noise filtering) when outside. I loved the content, but you might want to invest in a lav mic. That would significantly improve the quality of the content without much cost.
Thank you for being you, What a fabulous inside into manganese and our availability to mine it. Thank you regards I’m down under
Really nice video, thank you.
Excellent. I always enjoy and learn something from your content.
Glad to hear it!
Just stumbled across this in my recommendations, and I must say what a gem!
Very well presented and informative, thank you!
Brilliant.
Love your videos! Thank you!
Love this! So much useful information packed into a short, concise video.
Glad it was helpful!
I recently learned about the importance of manganese in Hadfield steel, which is a very strong alloy.
Oh wow .. where was this channel hidden. Wow.
Good content, adding a comment to increase the videos appeal to the RUclips algo :))
The Lecht Mine in N. Scotland produced manganese in the 18th and 19th centuries and the mine building is now a visitor attraction. The manganese dioxide ore was used to make chlorine and bleach in those days. Probably a supergene deposit of Fe and Mn oxides in a breccia. These same deposits were used by locals to smelt iron to make agricultural implements and weapons.
Great video, thanks! Can manganese easily be recovered in recycling? Or perhaps in reusing scrap steel it just stays where it is and is reused.
I'm not sure about the details but I do think it is reasonably easy to recycle manganese from steel, after all over half of manganese in scrap metal is recycled globally.
Manganese also plays an important roll in the body's ability to repair tissue as well as other biochemical functions.
Right off the bat that is amazing to me - the 3rd most consumed metal - and yeah - I don't even think of it - I just scrapped maybe 1500 pounds of steel and aluminum today (cleaning out years of gears sprockets - auto parts etc ) and I suppose there was Manganese in all that or it was used to make it - I'll have to watch more to find out
Nice video, near subject matter. No idea why the algorithm showed it to me, but it works-- actually been scratching around for a couple of manganese minerals. Have a property in Alleghany county NC, where Alleghanite and Galaxite (even though Galax is in another county, it was first described in Alleghany) were first described. I REALLY want to find my own nice samples of both : )
My functional swords also have manganese for added integrity. Didn't know it was used in batteries, too
Got interested in geology by watching a few gold seeker channels, mainly Jeff Williams. Have no desire to search for gold but became interested in the academic part of it. This dovetails right in. I don’t understand it yet, or have a big picture view in general, but have researched some of the nomenclature ive heard and am putting it together.
Wish there was more discussion about the environmental and public health hazards of manganese mining and processing.
Glad your channel popped up on my feed. Very interesting.
We use manganese on wear plates and paddles for airless shot blasting machines and abrasive environments as it work hardens and it then actually slows dow the effects of the abrasives on the plates giving longer service schedules on the machine one draw back is, it dose become brittle so they can shatter if they receive heavier impacts than designed for.
Im afraid i cant tell you the percentage of manganese in the alloy, we just refer to them as manganese plates or paddles but they're cast not machined because they work harden so fast.
Thanks for the info in this video!
Owner of Alaska Rare Earth LLC
Manganese phosphate is an interesting permanent violet pigment. Quite highly metameric. Hue shifts to a redder violet in most artificial lighting. More a Bluish Violet in 'Natural light.
Manganese blue is a now v.rare artist's blue tending to a greenish cyan. More striking I think than near equivalent Pthalocyanine tints.
I watched something on the Clarion-Clipperton Zone and the controversy around mining claims there and the environmental impacts of those mining methods. Potato-sized nodules of manganese litter the seafloor and from what I remember, there isn’t a way to scoop those up and bring them up to the surface without also scooping up sea life.
Great video, it is always good to see other how interconnected our dependence on these lesser known elements are.
Have you considered visiting the Sweet Home Mine/Detroit City Mine in Alma, Colorado, USA? The most stunning rhodochrosite crystals in the world.
Sounds itneresting, haven't been there but perhaps one day
Thank you for the useful and helpful content. Doctor, please prepare a clip of the formation of gold from leached pyrite. Because the source of the gold deposits that I discover is leached pyrites. And are these pyrite leaches seen in the form of gold nuggets? And why mercury is involved in most of these leaches. Thank you very much
I'll do a video on gold at some point but my videos are not aimed at specialists so I doubt I will talk about gold remobilisation from pyrite. But have a look at the papers by Hastie et al. on the subject.
@@ourmetallicearth thanks 🙏🏻 very nice 👍🏻. I wait for your response
Goodness Gracious ..... here was me thinking Manganese was the language used in Japanese illustrated comic-books, you live and learn.
Uses hidden, I guess! I had zero idea manganese was used so widely and heavily. More than copper?
Copper is pretty close in terms of amount mined annually so it's debatable which one is "bigger" in fact. It's hard to get reliable metrics because most stats for manganese are calculated for Mn ore, rather than the pure metal, whilst for copper they are for the pure metal. But Mn ore contains about 35% manganese metal, and we mine about 50-60 million tonnes annually so that's about 20 Mt pure Mn, about the same as the annual copper mining. But none of that takes into account recycling, another 10 Mt recycled copper is used annually so that our total Cu consumption is about 30 Mt per year; but I haven't been able to find out how much recycled Mn we use annually (I know that >50% of Mn in scrap metal is recycled, but I don't know what that amounts to in terms of Mt manganese).
@@ourmetallicearth Yep - I've got quite a bit of copper wires and a quite a bit of stripped down aluminum ready to go to the scrap yard - but no barrel for manganese as of yet since I'd have no clue what it is
Wow - pretty steep Ore price per ton from 2015 to 2017 - $2 to $10 - what caused that ? pretty volatile price change for some reason
Not 100% sure but I think it was due to a combination of higher demand from industry, particularly in China and a period of reduced mine production in South Africa.
🇨🇦👍
You might visit a scrap yard sometime to 'close the loop' on OUR METALLIC EARTH - the guys there would love to have a visit from a smarty pants like you (they are mostly see grizzled older guys but there are occasional scrap women as well) - it is amazing the stuff you see there - sort of sad at all the creative energy lost and I always say we should pray to a "God of the Furnace" or else we would suffocate pretty quick in all this stuff we create literal mountains of metal scrap ready to enjoin virginal metals coming from pure earth to produce more unnecessary necessary 'stuff'
I like your visualization illustrations, presentation style, and points made, so that's an easy subscribe pick.
(ツ) ☕☕(ツ)
You can make steel without it. Steel is an allow of iron and carbon.
True, but manganese makes for stronger steel.
Derrick is crazy & needs help & his friend is doing a great job at maintaining his boundaries but if Derrick keeps it up..he will loose his buddy
Another excellent involved video - must take a lot of work - graphics and all that - lots of Big Brain knowledge here as well - we really take for granted the countless things we use that have almost infinite 'behind the scenes' production involved - like these super nice metal shears next to my hand - titanium and steel and I guess Manganese and plastics and calibrated springs and rubber and .... kids in school should really be watching this stuff and bringing to class some 'vital' thing in their life - like tennis shoes or MP3 players or ??? and then break it all down to the level mining for minerals so we can appreciate how far we've come - otherwise it's "ho hum' there must be a tennis shoe tree that just grows them attitude
For some crazy reason I am recalling Kentucky Fried Movie.
5x5 Datil NM USA
We used it in our crusher’s jaws and high impact parts, though thing.
Does anyone in the comment section know what the temperature gradient is per 100 feet going down into the Earth - I mean last year when it was 0 degrees F outside but the basement floor was roughly 40 degrees - which impressed me and then we know that something 'molten' is going on at some depth below - but I have never seen a 'gradient' curve for what point the temp is like 420 degrees or 68 degrees - and is it linear or non linear and at what point does the heat energy (via compression ?) start to reflect back up ?
The Russians have the deepest hole, and it melts everything they tried to drill deeper with… google deepest hole.
When will Manganese quit playing? Come up to the surface, and just nodule.
I have an excessive amount of manganese in my well water. You are all welcome to it as it is nothing but a nuisance to me. 😂
Moving away from fossil fuels 😂. I has doubled in the last 10years .
I'm English it's manganese not manga-NEESE. Thats quite important in it's pronunciation in American and UK English. This is a fascinating and informative site.
And it's "ah-LOOM-in-um". Oh hang on, the Brits get that wrong too, eh? 😂
Well in South Africa, where we got our English from the Colonial power, and where manganese is an important mined mineral, we also say MAN-GA-NEES.
She repeated it too many times and now I'm stuck with this pronounciation.
I like it and understand what she said perfectly throughout the whole video? 🇺🇲🇺🇲🇺🇲 Also, geochem mommy 😅🥵
Fossil Fuel is a false term.
I don't need an electric car...I don't need aluminium cans!, I change all that for a non polluted healty planet...sorry this is all tecnically fascinating but we will not remplace *a billion combustion cars* in the world with EV...the scarcity of material and the possibilities of mining it profitably is an unequivocal limitation, so being realistic EV would be for some rich europeans not for common people.
Are we willing to fu up the planet to make a bunch of EV for a few privileged?, mining has to know when to stop, you can't pollute groundwater refining gold with cyanide for you to put a useless ring on your finger...I don't care if it's profitable this has to stop, is pure nonsense...extract what, where, at what cost, to make what for whom?, why this fundamental reasoning is completely absent in the video and in the general industry?, peoples minds and life styles have to change drastically...
You are not typical of millions of people who do want things made of metals. if you go to hospital your life will depend on lots of things made of all sorts of metals and plastics as well as chemicals. Want to go back to the stone age? No anaesthetics, no medicines, no surgery? People used to die from appendicitis (it wasn't nice), not anymore.
There is to much embedded manipulation in this video!
Stop saying “advancement”. The correct word is “advance”.
I trust the meaning is nevertheless clear 😉
Are you some kind of gramma policeman?!! We don't take orders from you.
Sorry, but your presentation is so low-energy and boring I couldn't watch more than 4 minutes of it.
Different people like different styles, that can't be helped! 😊
Austria is full of this crap
I'm amazed that somebody could take something as interesting as magnesium and turn it into such a boring and dull documentary
😆 Very glad you like it!
It wasn't magnesium and it wasn't for you either.