Especially skin sweat is a problem here. Depending on the individual, it can be very aggressive and attack and eat away at the copper. I like to use Ag/Cu here because it is relatively inexpensive. And it is possible for me to demonstrate the possibilities of design. It is also a very good combination of materials to learn from. Otherwise, in the case of art objects, no change can be observed here, even after decades.
@@mokumegane yes, it's the sweat that provides the electrolytes to "power" the galvanic cell.. there are other Makers who have videos that explain the science and show the results.. An art piece will last, I'm glad because the forging is exquisite
@@Faesharlyn I would like to learn more and understand the subject better. Can you link some of these videos that explain the metals/coats etc ? Thank you
@randomdyfbrn If you google Why you don’t want a copper and silver mokume gane ring It'll bring you to James Binnion Metal Arts, he wrote a fantastic explanation and you can decide from there where to look for more info if you like.
Danke! Generell verwende ich renaissance wax zum konservieren von Oberflächen von Buntmetall. Kupfer ist bei Schmuck so eine Sache. Je nach individuelle Hautchemie kann der Schweiß es sehr stark angreifen und regelrecht wegätzen. Das ist von Mensch zu Mensch wirklich sehr unterschiedlich. Zum Üben oder wie hier um einen Vorgang zu demonstrieren ist Ag/Cu jedoch perfekt. Es ist relativ günstig und einfach zu verarbeiten. Aber schützen tue ich die Ringe nicht weiter. Ringe werden auch sehr hoch belastet. Kommen ständig mit deutlich härteren Oberflächen und mit Chemikalien in Berührung. Da hilft sowieso keine Schutzschicht.
It is important to get a feeling for the different material combinations. When the material becomes spring hard is a good time to soft anneal it. With silver & copper, the son is reached at 25% conversion. I really go by feel.
When twisting and bending by hand you can feel the metal start to "creak" as it crystallizes and starts to fracture.. while hammering you might be able to listen to the change in pitch and feel the difference in the recoil as the metal gets harder.. it's so much down to experience and learning how the materials work. You can really see how springy it gets when he's rounding it.. and that's some great precision hammer work!
Question: At 7:26 couldn't you pass a metal nail file between the two joints to get the thinnest joint possible or do you need a rough surface for the solder?
It doesn't need a rough surface. The surface should be clean and the ends should be as close together as possible. But the solder needs a little gap to flow (capillary effect). But you can do that a little better than I did in this example. The soldering gap is a bit wider here than I would have liked.
The blanks are produced on modern sinter presses. I work here with another company on the development of semi-finished products. Even if you only see me, it's actually a whole team that deals with it. If it turns out I'll make a video of it.
@@mokumegane oh okay, that's nice, but it would be nice to see how they welded the copper and the silver. Hot brazing? Or forge welding? But forge welding copper is quite a pain so seing the process would be super interesting
@@jeanladoire4141 Using diffusion welding. In German we say "bonden" to the process. The sheets come in a graphite mold and these are placed in a sinter press under a protective atmosphere. Here, water-cooled stamps constantly exert high pressure over several hours at the right temperature on the metal sheets. The sheets connect. A costly process, but with excellent results. This means that not only sheet metal but also powder, granules, wires,... can be processed. And also materials such as titanium, ceramics, glass,... For example, the ring blanks here are made of titanium and silver granules: mokume-gane-shop.at/collections/silber-titan-1/products/ringrohling-titan-silber
@@mokumegane impressive technology, i've heared of it used in aeronautics parts... So as i suspected, forge welding (the modern version of it, where the forge is replaced by a furnace, the flux by inert gas and the hammer by heavy presses). No wonder why the result seems flawless! Thanks for the info! I'm a bladesmith and i'm experimenting with a lot of new metallurgical processes (i'l trying to find new forms of damascus, kinds that have never been made yet). Do you think i can contact the engineers you work with and ask them about my project?
so many people posting on here who are seriously lacking an understanding of what they are seeing... this is mokume gane, only a true neophyte would think this is 'beginner damascus'...hint- damascus is the easy part- this is what you can do after you learn a LOT more... you do NOT work copper, silver, cupronickel, etc while hot...that is not iron...
yes it is also at the limit. you can feel that. without the prism jaws it would turn off. So just above the point where it would be clamped in the vise. Happened to me of course.
Since my English is not so good, I use a translator. I'm not sure if I understand what you're asking. Do you mean the overlaps from twisting? If you structure a sheet too deeply, it can also be that the edges lie over it. looks like a crack but it isn't. You have to be alert and keep an eye on all of this.
@@jmullens90 There are no cracks there. The layers are firmly and coherently connected to each other. In principle, a patina always forms when it comes into contact with atmospheric oxygen. That is also very desirable. But what you don't want is verdigris. It develops on contact with the salt of acetic acid.
The semi-finished products for sale are produced in large slabs on sinter presses. I would like to show in the videos what you can do with the already finished semi-finished products. Just as a suggestion. We manufacture panels of 150 x150mm. Also individually layered according to your needs: mokume-gane-shop.at/collections/massgefertigtes-halbzeug-neu You get a lot of rings out of it and that's why this process is not shown here. And not in all other videos either. Thanks for the input I will explain that in the future in the description. Here: ruclips.net/p/PLhm0YW70I3mgkDeYIRn0_xRl4yR-Y2_mr I show you in great detail how to weld Mokume Gane in a simple way. It's in German (since my English isn't good enough for that) but it should be okay with subtitles.
Thanks. There are already customers who like to wear such rectangular ring shapes. But the reason I make the rings like this in the videos is that I just want to show the pattern making process. I manufacture semi-finished products from Mokume Gane and would like to give suggestions here.
This video was quite helpful. What a beautiful ring!
Don’t you wish we all could hammer that fast in real time. Lol
I think as it ages it will be even more beautiful. Thanks for sharing.
The ring looks really good, nice job man 🙂🙂
This will look really cool as the galvanic activity starts to etch the borders, itll be interesting to revisit it in a year or two
Especially skin sweat is a problem here. Depending on the individual, it can be very aggressive and attack and eat away at the copper. I like to use Ag/Cu here because it is relatively inexpensive. And it is possible for me to demonstrate the possibilities of design. It is also a very good combination of materials to learn from. Otherwise, in the case of art objects, no change can be observed here, even after decades.
@@mokumegane yes, it's the sweat that provides the electrolytes to "power" the galvanic cell.. there are other Makers who have videos that explain the science and show the results..
An art piece will last, I'm glad because the forging is exquisite
@@Faesharlyn I would like to learn more and understand the subject better. Can you link some of these videos that explain the metals/coats etc ? Thank you
@randomdyfbrn
If you google
Why you don’t want a copper and silver mokume gane ring
It'll bring you to James Binnion Metal Arts, he wrote a fantastic explanation and you can decide from there where to look for more info if you like.
You could apply a layer of silver solder to the inside, preventing skin from touching the copper.
Absolut beauty!
Hi, excellent work👍🏾. Can you tell me what is the tool called you used to twist the copper silver bar once out of the rolling machine.
Regards
Damien
Thanks! In German “Windeisen”. I don't know the English term.
Is a tap wrench, normally use for taps
Really nice video! Thank you for sharing. The Acid is Nitric?
Thank you very much! Yes, I etch with nitric acid.
Super schön! Wie schützt du den Ring vor Oxidation?
Danke! Generell verwende ich renaissance wax zum konservieren von Oberflächen von Buntmetall. Kupfer ist bei Schmuck so eine Sache. Je nach individuelle Hautchemie kann der Schweiß es sehr stark angreifen und regelrecht wegätzen. Das ist von Mensch zu Mensch wirklich sehr unterschiedlich. Zum Üben oder wie hier um einen Vorgang zu demonstrieren ist Ag/Cu jedoch perfekt. Es ist relativ günstig und einfach zu verarbeiten. Aber schützen tue ich die Ringe nicht weiter. Ringe werden auch sehr hoch belastet. Kommen ständig mit deutlich härteren Oberflächen und mit Chemikalien in Berührung. Da hilft sowieso keine Schutzschicht.
Danke für die super schnelle und ausführliche Antwort. Liebe Grüße
Que es el líquido verdoso-amarillo? Y que le has colocado al final? Gracias,,poco tiempo que estoy experimentando con el mokume gane
Ácido nítrico 53%. A causa del cobre, primero se vuelve amarillo, luego verde y finalmente azul.
Any tips on knowing when to reheat your metal to prevent cracking?
It is important to get a feeling for the different material combinations. When the material becomes spring hard is a good time to soft anneal it. With silver & copper, the son is reached at 25% conversion. I really go by feel.
When twisting and bending by hand you can feel the metal start to "creak" as it crystallizes and starts to fracture.. while hammering you might be able to listen to the change in pitch and feel the difference in the recoil as the metal gets harder.. it's so much down to experience and learning how the materials work.
You can really see how springy it gets when he's rounding it.. and that's some great precision hammer work!
Question: At 7:26 couldn't you pass a metal nail file between the two joints to get the thinnest joint possible or do you need a rough surface for the solder?
It doesn't need a rough surface. The surface should be clean and the ends should be as close together as possible. But the solder needs a little gap to flow (capillary effect). But you can do that a little better than I did in this example. The soldering gap is a bit wider here than I would have liked.
@@mokumegane thanks!
Beautiful! What was it that you brushed on at the end?
@@joyceeberner I use this patina solution for quick coloring: mokume-gane-shop.at/collections/patina/products/baldwins-patina
Hallo christoph, wo hast du den ring reingetaucht? Diese leicht giftig grüne substanz ? Was war das :) lg! Sieht sehr schön aus das stück
Danke. Das ist Salpetersäure.
Awww you didn't make the actual bar? I wanted to see that
The blanks are produced on modern sinter presses. I work here with another company on the development of semi-finished products. Even if you only see me, it's actually a whole team that deals with it. If it turns out I'll make a video of it.
@@mokumegane oh okay, that's nice, but it would be nice to see how they welded the copper and the silver. Hot brazing? Or forge welding? But forge welding copper is quite a pain so seing the process would be super interesting
@@jeanladoire4141 Using diffusion welding. In German we say "bonden" to the process. The sheets come in a graphite mold and these are placed in a sinter press under a protective atmosphere. Here, water-cooled stamps constantly exert high pressure over several hours at the right temperature on the metal sheets. The sheets connect. A costly process, but with excellent results. This means that not only sheet metal but also powder, granules, wires,... can be processed. And also materials such as titanium, ceramics, glass,... For example, the ring blanks here are made of titanium and silver granules: mokume-gane-shop.at/collections/silber-titan-1/products/ringrohling-titan-silber
@@mokumegane impressive technology, i've heared of it used in aeronautics parts... So as i suspected, forge welding (the modern version of it, where the forge is replaced by a furnace, the flux by inert gas and the hammer by heavy presses). No wonder why the result seems flawless!
Thanks for the info!
I'm a bladesmith and i'm experimenting with a lot of new metallurgical processes (i'l trying to find new forms of damascus, kinds that have never been made yet). Do you think i can contact the engineers you work with and ask them about my project?
@@jeanladoire4141 Exactly. I'm the right person to talk to. For a specific request, please send me an email: hallo@christoph-reischer.at
Good day, what's the last liquid you put in the ring? It's at minute 13:40, thank you very much.
Hello, this is Baldwins Patina
@@mokumegane muchas gracias
so many people posting on here who are seriously lacking an understanding of what they are seeing...
this is mokume gane, only a true neophyte would think this is 'beginner damascus'...hint- damascus is the easy part- this is what you can do after you learn a LOT more...
you do NOT work copper, silver, cupronickel, etc while hot...that is not iron...
I thought it would snap
when twisting?
@@mokumegane every last twist I was expecting it to snap
yes it is also at the limit. you can feel that. without the prism jaws it would turn off. So just above the point where it would be clamped in the vise. Happened to me of course.
What's preventing it from being full of cold shuts?
Since my English is not so good, I use a translator. I'm not sure if I understand what you're asking. Do you mean the overlaps from twisting? If you structure a sheet too deeply, it can also be that the edges lie over it. looks like a crack but it isn't. You have to be alert and keep an eye on all of this.
@@mokumegane exactly. What's preventing moisture from getting into those cracks and forming a patina.
@@jmullens90 There are no cracks there. The layers are firmly and coherently connected to each other. In principle, a patina always forms when it comes into contact with atmospheric oxygen. That is also very desirable. But what you don't want is verdigris. It develops on contact with the salt of acetic acid.
You're heating it up and letting it cool enough so you can touch it with your bare hands?
Yes, I put it in the water right after the glow. I always forget to film that. It's such an automated action.
maybe if you could start somewhere other than the MIDDLE of the process?
The semi-finished products for sale are produced in large slabs on sinter presses. I would like to show in the videos what you can do with the already finished semi-finished products. Just as a suggestion. We manufacture panels of 150 x150mm. Also individually layered according to your needs: mokume-gane-shop.at/collections/massgefertigtes-halbzeug-neu You get a lot of rings out of it and that's why this process is not shown here. And not in all other videos either. Thanks for the input I will explain that in the future in the description.
Here: ruclips.net/p/PLhm0YW70I3mgkDeYIRn0_xRl4yR-Y2_mr I show you in great detail how to weld Mokume Gane in a simple way. It's in German (since my English isn't good enough for that) but it should be okay with subtitles.
The pattern is nice, but without some sort of bevel, I bet this ring is pretty uncomfortable. 😕
Thanks. There are already customers who like to wear such rectangular ring shapes. But the reason I make the rings like this in the videos is that I just want to show the pattern making process. I manufacture semi-finished products from Mokume Gane and would like to give suggestions here.
👍
Damascus for noobs, but still pretty cool
too arrogant from ur part, no need to be if u are better feel proud but the others work its valuable too
No, it‘s different