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Microwave test?
I believe that there is a test for the efficacy of materials at RF by
putting a small quantity in a microwave oven, together with a mug of water to see if they get hot (and are therefore unusable) Anybody tried this and can report back? (I shall cease cross-posting my homebrew posts also to uk.radio.amateur because that only brings forth the Mongolian Hordes of children behind the fence of the kindergarten school who wish to become the centre of attention and make fools of themselves by shouting off personal abuse. It is a sad reflection on the state of amateur radio in Brit, but there we go) |
Microwave test?
gareth wrote:
I believe that there is a test for the efficacy of materials at RF by putting a small quantity in a microwave oven, together with a mug of water to see if they get hot (and are therefore unusable) Anybody tried this and can report back? Yes. It will tell you whether or not the material aborbs energy at about 3 GHz. If it does, there is a very good chance, but not guarantied, that it will absorb energy at low frequencies. A low frequency test with equipment generally available to a ham would be something like a dip meter and see if the material has an effect on a coil. And conversly, no effect at low frequencies does not guarantee no effect at high frequencies. (I shall cease cross-posting my homebrew posts also to uk.radio.amateur because that only brings forth the Mongolian Hordes of children behind the fence of the kindergarten school who wish to become the centre of attention and make fools of themselves by shouting off personal abuse. It is a sad reflection on the state of amateur radio in Brit, but there we go) Ending every post with a paragraph like this one is like waving a cape in front of a bull and wondering why the bull charged. -- Jim Pennino |
Microwave test?
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Microwave test?
Brian Reay wrote:
On 22/03/15 16:26, wrote: gareth wrote: I believe that there is a test for the efficacy of materials at RF by putting a small quantity in a microwave oven, together with a mug of water to see if they get hot (and are therefore unusable) Anybody tried this and can report back? Yes. It will tell you whether or not the material aborbs energy at about 3 GHz. If it does, there is a very good chance, but not guarantied, that it will absorb energy at low frequencies. A low frequency test with equipment generally available to a ham would be something like a dip meter and see if the material has an effect on a coil. And conversly, no effect at low frequencies does not guarantee no effect at high frequencies. It is a rather crude test, erring on the useless. The dielectric properties of materials can vary widely with frequency and a assuming a test at microwave frequencies can be extrapolated to, say, HF, is somewhat bold. I have no empirical data, but my impression was that dielectrics invariably show more loss as the frequency rises, at least up to the GHz region. (I don't think it applies e.g. at light frequencies.) Do you have any evidence of the existence of material that is lossy at HF but not at GHz frequencies? Genuine question, I don't know if there is an answer. As a parallel, if you measured the parameters of a ferrite core at, say, 10MHz, you would not expect it to perform the same a, say, 10GHz. For checking materials at HF, you would be better investigating using the techniques used in diathermy machines, which work (or perhaps worked, I'm not sure there are still used) at around 28MHz. These were used in the 1930s/40s (and perhaps since) for medical reasons (and possibly industrial ones), they were also adapted to 'jam' German navigation beams by transmitting a stray signal during WW2. I expect there are details on the internet, I can't say I am familiar with the beasts, although I vaguely recall they used coils to generate the test area- something like Helmholtz Coils. -- Roger Hayter |
Microwave test?
wrote:
Roger Hayter wrote: Brian Reay wrote: On 22/03/15 16:26, wrote: gareth wrote: I believe that there is a test for the efficacy of materials at RF by putting a small quantity in a microwave oven, together with a mug of water to see if they get hot (and are therefore unusable) Anybody tried this and can report back? Yes. It will tell you whether or not the material aborbs energy at about 3 GHz. If it does, there is a very good chance, but not guarantied, that it will absorb energy at low frequencies. A low frequency test with equipment generally available to a ham would be something like a dip meter and see if the material has an effect on a coil. And conversly, no effect at low frequencies does not guarantee no effect at high frequencies. It is a rather crude test, erring on the useless. The dielectric properties of materials can vary widely with frequency and a assuming a test at microwave frequencies can be extrapolated to, say, HF, is somewhat bold. I have no empirical data, but my impression was that dielectrics invariably show more loss as the frequency rises, at least up to the GHz region. (I don't think it applies e.g. at light frequencies.) Do you have any evidence of the existence of material that is lossy at HF but not at GHz frequencies? Genuine question, I don't know if there is an answer. See this: http://www.doitpoms.ac.uk/tlplib/die.../variation.php The bottom line is that the dielectric constant of a material at a particular frequency depends on the atomic structure of the material. Thanks. That is quite interesting. But it discusses mechanisms that only come into play above about 10GHz, and doesn't deal with losses, or energy dissipation, below this frequency. It implies that a good dielectric at microwave oven frequency will also be good below that frequency, but not necessarily the converse It is certainly something to bear in mind when designing circuits for above 10GHz. My rule of thumb is 'use PTFE', but I have no scientific justification for that! Any mechanism causing greater loss at lower frequencies would have to be different from what is discussed in those references - not that I am committing myself to whether such a mechanism exists. -- Roger Hayter |
Microwave test?
Roger Hayter wrote:
wrote: Roger Hayter wrote: Brian Reay wrote: On 22/03/15 16:26, wrote: gareth wrote: I believe that there is a test for the efficacy of materials at RF by putting a small quantity in a microwave oven, together with a mug of water to see if they get hot (and are therefore unusable) Anybody tried this and can report back? Yes. It will tell you whether or not the material aborbs energy at about 3 GHz. If it does, there is a very good chance, but not guarantied, that it will absorb energy at low frequencies. A low frequency test with equipment generally available to a ham would be something like a dip meter and see if the material has an effect on a coil. And conversly, no effect at low frequencies does not guarantee no effect at high frequencies. It is a rather crude test, erring on the useless. The dielectric properties of materials can vary widely with frequency and a assuming a test at microwave frequencies can be extrapolated to, say, HF, is somewhat bold. I have no empirical data, but my impression was that dielectrics invariably show more loss as the frequency rises, at least up to the GHz region. (I don't think it applies e.g. at light frequencies.) Do you have any evidence of the existence of material that is lossy at HF but not at GHz frequencies? Genuine question, I don't know if there is an answer. See this: http://www.doitpoms.ac.uk/tlplib/die.../variation.php The bottom line is that the dielectric constant of a material at a particular frequency depends on the atomic structure of the material. Thanks. That is quite interesting. But it discusses mechanisms that only come into play above about 10GHz, and doesn't deal with losses, or energy dissipation, below this frequency. It implies that a good dielectric at microwave oven frequency will also be good below that frequency, but not necessarily the converse It is certainly something to bear in mind when designing circuits for above 10GHz. My rule of thumb is 'use PTFE', but I have no scientific justification for that! Any mechanism causing greater loss at lower frequencies would have to be different from what is discussed in those references - not that I am committing myself to whether such a mechanism exists. If you really want to know more about the subject, Google dielectric constant versus frequency. Most of the good stuff is in PDF's. There are materials whose constants take a dive in the 10's of MHz range. -- Jim Pennino |
Microwave test?
"Roger Hayter" wrote in message
... It is certainly something to bear in mind when designing circuits for above 10GHz. My rule of thumb is 'use PTFE', but I have no scientific justification for that! My enquiry relates to PolyLactic Acid (PLA) which is what my 3D printer extrudes, because I wish to use it to produce some insulator blocks for the HRO-like Catacomb band switching in my "Vapourware" Retro RX. |
Microwave test?
gareth wrote:
"Roger Hayter" wrote in message ... It is certainly something to bear in mind when designing circuits for above 10GHz. My rule of thumb is 'use PTFE', but I have no scientific justification for that! My enquiry relates to PolyLactic Acid (PLA) which is what my 3D printer extrudes, because I wish to use it to produce some insulator blocks for the HRO-like Catacomb band switching in my "Vapourware" Retro RX. It it highly temperature dependant and dependant on the base material it was made from. For the HF range, typical values range from about 2 to about 16. Google polylactic acid dielectric constant. -- Jim Pennino |
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