1 (edited by pirvan 2013-09-22 17:06:43)

Topic: Copper print bed surface?

For the last couple of weeks I've been messing around with my print bed and heatpad, and I'm finding that while the heat pad is quite efficient and fast to heat up, the aluminum bed surface is not efficient at spreading the heat evenly or fast.

So here's the question:

What about a solid copper printbed ?? 

Copper is supper efficient as a heat conductor, and it should heat up fast, and retain the heat longer.

Edit:
After I posted this I looked around for an 8"x8" sheet, and here is what I found

http://compare.ebay.com/like/2811036368 … p;var=sbar

$31 shipped is not a bad deal considering the costs of copper.

I'm seriously considering this.  Has anyone here already tried this type of setup and have any reservations?

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

2

Re: Copper print bed surface?

hmm very interesting id like to hear what the big wigs  say.

3

Re: Copper print bed surface?

It's pretty common  using etched PCBs http://reprap.org/wiki/PCB_Heatbed

4

Re: Copper print bed surface?

IanJohnson wrote:

It's pretty common  using etched PCBs http://reprap.org/wiki/PCB_Heatbed

Yeah, but I'm not using it as a heater, rather as a replacement to the aluminum bed.

I have this idea in my head that since copper is such a great heat conductor (High quality CPU heatsinks are made of copper), it should be able to take the heat generated by the heat pad, and distribute it throughout it's surface quickly, unlike the aluminum surface which takes a while to come up to the same temps as the heat pad and it usually has hotspots, and uneven heat distribution.

After replacing the original Solidoodle heat pad with a QU-BD and running some tests, I found that while the QU-BD pad heats up very fast (about 3 minutes), the aluminum surface (the top of the bed) take at least twice that long to get up there.  It also seems to cool off relatively fast, so the heating system has to work pretty hard to maintain an average temperature.

Take a look at this temperature curve.  After it reaches the desired temps, it goes into a 15/15 second (ON/OFF) cycle to maintain the average temperature.

http://www.soliforum.com/misc.php?action=pun_attachment&item=3471

I'm thinking that the copper bed with attain something like 10/30 second (ON/OFF) cycle, as it should be able to heat faster and cool off slower.  That should be quite a power saver, considering right now the heated pad draws about 120W by itself when it's on.

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To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

5

Re: Copper print bed surface?

pirvan wrote:

I'm thinking that the copper bed with attain something like 10/30 second (ON/OFF) cycle, as it should be able to heat faster and cool off slower.  That should be quite a power saver, considering right now the heated pad draws about 120W by itself when it's on.

This isn't how thermodynamics works.

If anything, average power consumption would go up with a copper bed, since the average temperature across the surface area would be higher.

6

Re: Copper print bed surface?

The amount of time(on/off) ratio shouldn't change that much with copper as it will still have a similar radiant loss... more or less.... the biggest thing I find that changes heat loss when printing is the amount of abs on the bed as it actually acts as an insulator, with that said using a couple pounds of copper will make the temp swings less drastic which should in theory make things stick better smile

Another thing to think about is you should be able to find copper plate/buss bar a lot cheaper at a recycle/scrap yard as they only pay $3/pound for it ...tops and you should be able to get it for a few bucks over that... depending on the yard.

7

Re: Copper print bed surface?

elmoret wrote:
pirvan wrote:

I'm thinking that the copper bed with attain something like 10/30 second (ON/OFF) cycle, as it should be able to heat faster and cool off slower.  That should be quite a power saver, considering right now the heated pad draws about 120W by itself when it's on.

This isn't how thermodynamics works.

If anything, average power consumption would go up with a copper bed, since the average temperature across the surface area would be higher.

OK,  please explain why.

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

8

Re: Copper print bed surface?

elmoret wrote:
pirvan wrote:

I'm thinking that the copper bed with attain something like 10/30 second (ON/OFF) cycle, as it should be able to heat faster and cool off slower.  That should be quite a power saver, considering right now the heated pad draws about 120W by itself when it's on.

This isn't how thermodynamics works.

If anything, average power consumption would go up with a copper bed, since the average temperature across the surface area would be higher.

True... I really didn't factor that in smile

9 (edited by elmoret 2013-09-22 22:49:03)

Re: Copper print bed surface?

pirvan wrote:
elmoret wrote:
pirvan wrote:

I'm thinking that the copper bed with attain something like 10/30 second (ON/OFF) cycle, as it should be able to heat faster and cool off slower.  That should be quite a power saver, considering right now the heated pad draws about 120W by itself when it's on.

This isn't how thermodynamics works.

If anything, average power consumption would go up with a copper bed, since the average temperature across the surface area would be higher.

OK,  please explain why.

elmoret wrote:

since the average temperature across the surface area would be higher.

10

Re: Copper print bed surface?

ronsii wrote:

The amount of time(on/off) ratio shouldn't change that much with copper as it will still have a similar radiant loss... more or less.... the biggest thing I find that changes heat loss when printing is the amount of abs on the bed as it actually acts as an insulator, with that said using a couple pounds of copper will make the temp swings less drastic which should in theory make things stick better smile

Another thing to think about is you should be able to find copper plate/buss bar a lot cheaper at a recycle/scrap yard as they only pay $3/pound for it ...tops and you should be able to get it for a few bucks over that... depending on the yard.

I found rods, wire, and thin sheets, but not plates.

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

11

Re: Copper print bed surface?

The best time to find the 'good stuff' is when someone is retrofitting a nearby comm. center(att/ma bell) you should see all the 'scrap' that comes out of these places smile)))

12

Re: Copper print bed surface?

Anyway, the temperature across the bed will be more uniform, power consumption will go up a bit, and if you want to get rid of the cycling, change to PID bed control.

13

Re: Copper print bed surface?

elmoret wrote:

If anything, average power consumption would go up with a copper bed, since the average temperature across the surface area would be higher.

That's why asked for an explanation, because that doesn't make any sense to me.

Admittedly I know nothing of thermodynamics, but I do now that I have controller board monitoring a thermistor, and as the temperature drops below a certain threshold (in this case it appears to be 3-4°C), it turns the heater power back on until the preset temperature is is reached, then it turns the power off, and the cycle is repeated.

With the current configuration (aluminum bed) the cycle appears to be about 15/15 seconds.

If I had a print bed made of a more efficient material, which can heat up faster and retain that heat longer, the ON cycle would be shorter and the off cycle would be longer, therefore less power consumption.  The only way I can see your statement making sense is if copper's properties were reversed, it cooled off faster than it heated up.

Also, your statement, in itself, is confusing.  I don't see how having a higher average temperature would increase the power consumption.  This is why I'd like an explanation.

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

14 (edited by ronsii 2013-09-22 23:02:27)

Re: Copper print bed surface?

By having a higher temp it would radiate more heat=more heat loss and in turn take more power to keep up the temps.

15

Re: Copper print bed surface?

pirvan wrote:
elmoret wrote:

If anything, average power consumption would go up with a copper bed, since the average temperature across the surface area would be higher.

That's why asked for an explanation, because that doesn't make any sense to me.

Admittedly I know nothing of thermodynamics, but I do now that I have controller board monitoring a thermistor, and as the temperature drops below a certain threshold (in this case it appears to be 3-4°C), it turns the heater power back on until the preset temperature is is reached, then it turns the power off, and the cycle is repeated.

With the current configuration (aluminum bed) the cycle appears to be about 15/15 seconds.

If I had a print bed made of a more efficient material, which can heat up faster and retain that heat longer, the ON cycle would be shorter and the off cycle would be longer, therefore less power consumption.  The only way I can see your statement making sense is if copper's properties were reversed, it cooled off faster than it heated up.

Also, your statement, in itself, is confusing.  I don't see how having a higher average temperature would increase the power consumption.  This is why I'd like an explanation.

Materials don't "retain heat better" unless there's a layer of insulation between them.

If you hold the surface of anything (styrofoam, steel, aluminum, copper) at 100C, it will lose energy (heat) at the same rate.

In your case, you are allowing the average temperature of the plate to be higher - so instead of the center of the plate being 100C with 80C towards the edges (say 90C average), you have a plate with 100C center, 90C edges, 95C total - 6% more heat lost to atmosphere.

You said you don't know much of thermodynamics - wikipedia goes a long way. smile

16

Re: Copper print bed surface?

ronsii wrote:

By having a higher temp it would radiate more heat=more heat loss and in turn take more power to keep up the temps.

That really doesn't make sense.

The thermistor that is sandwiched between the heater pad and the print bed.  The thermal control module reads the thermistor only and acts according to those readings, it knows nothing about heat lost through surface radiation, and that is what accounts for the difference between your thermistor readings and actual surface readings.

Increasing the Repetier preset to make up for that differential will not increase the amount of power required except during initial heatup, and only minimally, because it only takes a few seconds more to go from 95°C to 105°C (or whatever those settings may be).  After the preset is reached it takes the same amount of power to maintain it whether it's 95°C, or 125°C

What I'm beginning to think that Elmoret and yourself are saying is that copper is actually inefficient at retaining heat, that it radiates heat faster than it builds it.  I'm not a metallurgist, but I think that presumption is wrong.

Maybe someone that knows their metals could chime in.

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

17

Re: Copper print bed surface?

elmoret wrote:

Materials don't "retain heat better" unless there's a layer of insulation between them.

If you hold the surface of anything (styrofoam, steel, aluminum, copper) at 100C, it will lose energy (heat) at the same rate.

OK, I'll buy that, that makes sense, so Copper will get up to temperature faster and the heat will be more evenly distributed.  I can live with that.

elmoret wrote:

In your case, you are allowing the average temperature of the plate to be higher - so instead of the center of the plate being 100C with 80C towards the edges (say 90C average), you have a plate with 100C center, 90C edges, 95C total - 6% more heat lost to atmosphere.

See if this make sense:

pirvan wrote:

The thermistor that is sandwiched between the heater pad and the print bed.  The thermal control module reads the thermistor only and acts according to those readings, it knows nothing about heat lost through surface radiation, and that is what accounts for the difference between your thermistor readings and actual surface readings.

Increasing the Repetier preset to make up for that differential will not increase the amount of power required except during initial heatup, and only minimally, because it only takes a few seconds more to go from 95°C to 105°C (or whatever those settings may be).  After the preset is reached it takes the same amount of power to maintain it whether it's 95°C, or 125°C.

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

18 (edited by elmoret 2013-09-23 01:14:59)

Re: Copper print bed surface?

pirvan wrote:
ronsii wrote:

By having a higher temp it would radiate more heat=more heat loss and in turn take more power to keep up the temps.

That really doesn't make sense.

It shouldn't. Thermodynamics is hard.


pirvan wrote:

The thermistor that is sandwiched between the heater pad and the print bed.

Yes.

pirvan wrote:

The thermal control module reads the thermistor only

It's an ADC on a uC, yes.

pirvan wrote:

and acts according to those readings, it knows nothing about heat lost through surface radiation, and that is what accounts for the difference between your thermistor readings and actual surface readings.

Agreed. It is controlling the temperature at thermistor. This is correlated with the surface temperature.

pirvan wrote:

Increasing the Repetier preset to make up for that differential will not increase the amount of power required except during initial heatup, and only minimally, because it only takes a few seconds more to go from 95°C to 105°C (or whatever those settings may be).  After the preset is reached it takes the same amount of power to maintain it whether it's 95°C, or 125°C

Incorrect.

pirvan wrote:

What I'm beginning to think that Elmoret and yourself are saying is that copper is actually inefficient at retaining heat, that it radiates heat faster than it builds it.  I'm not a metallurgist, but I think that presumption is wrong.

Nothing is "efficient" or "inefficient" at retaining heat. Efficiency is production/input work or energy. Copper conducts heat well and stores heat well. What this means:

1.) if you heat the center of a copper plate, the edges will be warmer than if the plate was made out of aluminum or another material with lower thermal conductivity.
2.) more energy is required to raise the temperature of a mass of copper relative other materials with lower specific heat capacity.

pirvan wrote:

Maybe someone that knows their metals could chime in.

I'm 3 months away from a PhD in Mechanical Engineering, and I have BS degrees in Mechanical Engineering and in Aerospace Engineering. Does that count?

19 (edited by elmoret 2013-09-23 00:23:39)

Re: Copper print bed surface?

pirvan wrote:
elmoret wrote:

Materials don't "retain heat better" unless there's a layer of insulation between them.

If you hold the surface of anything (styrofoam, steel, aluminum, copper) at 100C, it will lose energy (heat) at the same rate.

OK, I'll buy that, that makes sense, so Copper will get up to temperature faster and the heat will be more evenly distributed.  I can live with that.

Yes, copper will get up to temperature faster. This is a product of a material's specific heat capacity. It has nothing to do with being a good thermal conductor, other than the fact that the edges won't lag behind. The temperature at the center where the thermistor measures it is not really effected by this.

Aluminum - 897 J/kg-C
Copper - 385 J/kg-C

The stock heatspreader on a SD3 is about 0.33kg. So, to raise the temperaturue 80C, you need about 22kJ of energy. That's 22,000 watt-seconds. The stock heater on a SD3 is about 100w. So, the heater needs to be on 220 seconds to reach temperature, or nearly 4 minutes. This of course assumes no losses to the atmosphere - which we know isn't true, but it gets us in the ballpark for comparison.

Copper stores heat energy less effectively - about half as well per kg of material. So given that the heater's output on warmup is constant, copper will reach operating temperature in roughly half the time (neglecting the effects of ambient cooling, which are roughly equal, though copper loses here slightly since it does a better job spreading heat, and thus the average temperature across its surface is closer to the setpoint temperature)

20

Re: Copper print bed surface?

pirvan wrote:
ronsii wrote:

By having a higher temp it would radiate more heat=more heat loss and in turn take more power to keep up the temps.

That really doesn't make sense.

The thermistor that is sandwiched between the heater pad and the print bed.  The thermal control module reads the thermistor only and acts according to those readings, it knows nothing about heat lost through surface radiation, and that is what accounts for the difference between your thermistor readings and actual surface readings.

Increasing the Repetier preset to make up for that differential will not increase the amount of power required except during initial heatup, and only minimally, because it only takes a few seconds more to go from 95°C to 105°C (or whatever those settings may be).  After the preset is reached it takes the same amount of power to maintain it whether it's 95°C, or 125°C

What I'm beginning to think that Elmoret and yourself are saying is that copper is actually inefficient at retaining heat, that it radiates heat faster than it builds it.  I'm not a metallurgist, but I think that presumption is wrong.

Maybe someone that knows their metals could chime in.


Sorry... I tried to keep it short and simple smile   I have been around metals and many other industries for quite a bit of time, currently run a small metal casting shop with our own foundry and machine shop and although I know how things work I am also not a very good teacher... so I'll let Tim explain it ... He is much better at it than I could ever be wink

21

Re: Copper print bed surface?

best is to use special tile, the one use in pizza oven...

Ceramic store heat, I did get a bathroom tile and used on the bed.
did get a bit longer to heat up, but once it was hot, it kept the heat very long time after switching the bed off,

I finally switched to glass cause the bathroom tile had a surface that did not stick as well.

but provided you find one bare. without the white stuff on it , I'm pretty sure it will be as your first assumption about copper.

ps: come to think of it, I didn't use hairspray at the time either, I will try again and maybe take a screen shot of the temp reading too just for "educational purpose" ;°

22 (edited by pirvan 2013-09-23 01:11:29)

Re: Copper print bed surface?

elmoret wrote:

Nothing is "efficient" or "inefficient" at retaining heat. Efficiency is production/input work or energy. Copper conducts heat well and stores heat well. What this means:

1.) if you heat the center of a copper plate, the edges will be warmer than if the plate was made out of aluminum or another material with lower thermal conductivity.
2.) more energy is required to raise the temperature of a mass of copper relative to aluminum or other materials with lower specific heat capacity.

Then...

elmoret wrote:

Copper stores heat energy less effectively - about half as well per kg of material. So given that the heater's output on warmup is constant, copper will reach operating temperature in roughly half the time (neglecting the effects of ambient cooling, which are roughly equal, though copper loses here slightly since it does a better job spreading heat, and thus the average temperature across its surface is closer to the setpoint temperature)

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

23 (edited by elmoret 2013-09-23 01:31:27)

Re: Copper print bed surface?

pirvan wrote:
elmoret wrote:

Nothing is "efficient" or "inefficient" at retaining heat. Efficiency is production/input work or energy. Copper conducts heat well and stores heat well. What this means:

1.) if you heat the center of a copper plate, the edges will be warmer than if the plate was made out of aluminum or another material with lower thermal conductivity.
2.) more energy is required to raise the temperature of a mass of copper relative to aluminum or other materials with lower specific heat capacity.

Then...

elmoret wrote:

Copper stores heat energy less effectively - about half as well per kg of material. So given that the heater's output on warmup is constant, copper will reach operating temperature in roughly half the time (neglecting the effects of ambient cooling, which are roughly equal, though copper loses here slightly since it does a better job spreading heat, and thus the average temperature across its surface is closer to the setpoint temperature)

Absolutely correct, it stores heat well relative to most materials, but not as well as aluminum. I was operating from memory in the first post and looked up the actual values in the second. I'll edit the post. My mistake.

24 (edited by pirvan 2013-09-23 03:00:36)

Re: Copper print bed surface?

elmoret wrote:

You said you don't know much of thermodynamics - wikipedia goes a long way. smile

So I just spent some time reading some white papers and trying to educate myself on the subject, and it appears that we're talking about 2 different things that, while related, have in fact no direct correlation to each other.

Thermal Capacity/Specific Heat and Thermal Conductivity.

Thermal Capacity is the amount of energy required to change the temperature of a specific material. 

Thermal Conductivity is how quickly a specific material can absorb and transfer thermal energy across a specific area.

For the specifics of this project (Solidoodle Printer bed upgrade), thermal capacity is not all that relevant in my opinion, as the amount of energy required to heat up the printbed is constant, and is determined by the amount of power required by the heater pad to reach a preset temperature (in my case about 150W for about 4 minutes to reach 100°C)

Thermal Conductivity is more to the heart of what I'm looking for, because it directly affects how quickly the printbed heats up.

Because there's a 4 minute difference between the heater pad/thermistor reaching the preset temps and the top of the print surface getting there, using a material with a higher conductivity coefficient will give me faster heating of the printing surface, and more even distribution.

Will it require more power to keep it at that temperature?  I don't think so, if the heat dissipation is about the same as the heat absorption, then the power consumption should be the same as what I have today (50/50 ON/OFF ratio).

=======================================================================

When I started this thread, I was looking for some feedback from, hopefully, someone who had done this and had some direct experience.  Little did I know I would get a lesson in thermodynamics (brain hurts...). 

So for now I think I'll just bookmark the eBay listing for the copper plate, and if I decide to try this sometime in the future I'll post my findings here.

To print or, 3D print, that is the question...
SD3 printer w/too many mods,  Printrbot Simple Maker Ed.,  FormLabs Form 1+
AnyCubic Photon, Shining 3D EinScan-S & Atlas 3D scanners...
...and too much time on my hands.

25

Re: Copper print bed surface?

I'm just here to brag that I avoided this thread at first because I saw it as a potential train wreck from the start smile.


Only benefit of pure copper might be a thinner plate (It's something like 3x the conductivity, so for equal edge spread you could be a third as thin, though it's about twice the specific weight, so it's hardly a gain.). Plus, the alu plate is already so thin that it can warp easily from internal stresses and transient heat stresses.

Hi, so I couldn't resist adding my 2 useless cents to the well covered topic tongue.