On Thu, 10 Dec 2009 06:56:35 -0800 (PST), the infamous RicodJour
<[email protected]> scrawled the following:
>On Dec 10, 6:50 am, Phisherman <[email protected]> wrote:
>>
>> Most glass is a liquid and sags. In an old house you may see the
>> bottom of the windowpane is thicker than the top portion. Quartz
>> glass is a solid--probably less sag over time and transmits more
>> lightwaves than regular glass.
>
>I believed that for a long time until it was pointed out to me that
>there are intact glass windows in Roman and Egyptian buildings which
>would belie the flowing glass myth. If the glass sagged enough to be
>noticeable in a two hundred year old house, the sag in two or four
>thousand year old glass would be very noticeable, and it's simply not.
>
>http://www.glassnotes.com/WindowPanes.html
>
>http://dwb4.unl.edu/Chem/CHEM869A/CHEM869ALinks/www.ualberta.ca/~bderksen/florin.html
I scratched the windows in the new door I put in the utility room 7
years ago. It's a halflite and the scratch was right next to the door
knob. I was taking the label off with a scraper. Fingernails, water,
soap, and several chemical solvents proved that it wasn't just glue,
it was a scratch, and I fumed for weeks about it.
A few months later, I was cleaning that window and couldn't find the
scratch. To this day, there is no scratch on that lite. This leads me
to finally believe in that "liquid glass" thang, KWIM,V?
--
To know what you prefer instead of humbly saying Amen
to what the world tells you you ought to prefer,
is to have kept your soul alive.
-- Robert Louis Stevenson
On Dec 10, 6:50=A0am, Phisherman <[email protected]> wrote:
>
> Most glass is a liquid and sags. =A0 In an old house you may see the
> bottom of the windowpane is thicker than the top portion. =A0 Quartz
> glass is a solid--probably less sag over time and transmits more
> lightwaves than regular glass.
I believed that for a long time until it was pointed out to me that
there are intact glass windows in Roman and Egyptian buildings which
would belie the flowing glass myth. If the glass sagged enough to be
noticeable in a two hundred year old house, the sag in two or four
thousand year old glass would be very noticeable, and it's simply not.
http://www.glassnotes.com/WindowPanes.html
http://dwb4.unl.edu/Chem/CHEM869A/CHEM869ALinks/www.ualberta.ca/~bderksen/f=
lorin.html
R
RonB wrote:
> On Dec 9, 9:27 pm, Swingman <[email protected]> wrote:
>> Joe wrote:
>>> Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
>>> source for a load/span calculator for glass?
>> http://www.woodbin.com/calcs/sagulator.htm
>>
>> Choose glass from the materials list.
>>
>> --www.e-woodshop.net
>> Last update: 10/22/08
>> KarlC@ (the obvious)
>
> Again, pretty neat software. Thanks. It is in my bookmarks.
>
> Only concern is it provides sag but not breaking strength.
IIRC, They do give you a "target sag" recommendation, which anything
over you would think would be bordering on failure for glass, which is
better than nothing. But it is the closest thing I could find that
answers Joe's question, if only partially.
I let my glass guy make the recommendation when I give him the shelf
template, or the dimensions I need and specify the use ... and most of
the time I end up with tempered glass in 1/4" thickness for china
cabinet shelf use.
--
www.e-woodshop.net
Last update: 10/22/08
KarlC@ (the obvious)
"Nonny" <[email protected]> wrote in message
news:[email protected]...
>
> "charlie" <[email protected]> wrote in message
> news:[email protected]...
>
>>
>> but for shelving purposes, almost all float is interchangable.
>>
>> regards,
>> charlie
>> http://glassartists.org/ChaniArts
>
> Slightly OT, but of interest, I bet:
>
> Long, long ago in this NG, there was a discussion about where to locate
> lifting straps to hoist a flat panel. It was one of the better
> discussions I can recall, and brought out some of the best of the
> engineering types from even other NGs to get an answer. I even passed
> along the discussion to a nephew, who worked for a concrete panel company.
> What I remember most was to "lift on the 5ths." In other words, you
> divided the panel (or shelf or retaining wall etc) into 5 parts, using 4
> lines and then support it at the first points in from the end. It assumes
> that the panel is of uniform thickness and strength. It's
> counterintuitive in many respects, but recognizes that the interior
> sections lend some mutual support and also the outer panels "lift" as they
> pivot around the point of attachment.
>
> I assume that this would also apply to an UNLOADED glass, wood or shelf of
> other material. Of course, with an uneven distribution of load, such as a
> big weight in the center, this might not be correct.
>
> YMMV and also this is based upon my poor, addled brain thinking back many
> years.
>
> --
> Nonny
>
> ELOQUIDIOT (n) A highly educated, sophisticated,
> and articulate person who has absolutely no clue
> concerning what they are talking about.
> The person is typically a media commentator or politician.
>
>
lovin' the sig line.
jc
"Swingman" <[email protected]> wrote in message
news:[email protected]...
> Joe wrote:
>> Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
>> source for a load/span calculator for glass?
>
> http://www.woodbin.com/calcs/sagulator.htm
>
> Choose glass from the materials list.
>
>
> --
> www.e-woodshop.net
> Last update: 10/22/08
> KarlC@ (the obvious)
Geez, Swing. I even *went* there! I just scrolled down the the G's, didn't
see it and stopped.
Not feeling particularly smart at the moment.
jc
RicodJour wrote:
> On Dec 10, 6:50 am, Phisherman <[email protected]> wrote:
>>
>> Most glass is a liquid and sags. In an old house you may see the
>> bottom of the windowpane is thicker than the top portion. Quartz
>> glass is a solid--probably less sag over time and transmits more
>> lightwaves than regular glass.
>
> I believed that for a long time until it was pointed out to me that
> there are intact glass windows in Roman and Egyptian buildings which
> would belie the flowing glass myth. If the glass sagged enough to be
> noticeable in a two hundred year old house, the sag in two or four
> thousand year old glass would be very noticeable, and it's simply not.
>
> http://www.glassnotes.com/WindowPanes.html
>
> http://dwb4.unl.edu/Chem/CHEM869A/CHEM869ALinks/www.ualberta.ca/~bderksen/florin.html
>
> R
I've seen lots of old, wavy glass - new wavy glass too, especially in
China - but have always attributed that to lousy glass making. Never seen
any thicker at the bottom though.
There appears to be no argument about glass being an amorphous
(non-crystalline) material. When I was a geology student more than 50 years
ago we were taught that there is no such thing as glass beyond a certain age
(some multi-millions of years) because it ultimately crystallizes. Now,
humans haven't been making glass long enough for it to crystallize but there
are naturally occuring glasses - obsidian, for example - and it was/is those
that were not found beyond a certain period in the past.
OTOH, the profs all po-pooed poor old Alfred Wegener and his silly
continental drift idea :)
--
dadiOH
____________________________
dadiOH's dandies v3.06...
...a help file of info about MP3s, recording from
LP/cassette and tips & tricks on this and that.
Get it at http://mysite.verizon.net/xico
On Dec 10, 9:56 am, "Joe" <[email protected]> wrote:
> "Swingman" <[email protected]> wrote in message
>
> news:[email protected]...
>
> > Joe wrote:
> >> Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
> >> source for a load/span calculator for glass?
>
> >http://www.woodbin.com/calcs/sagulator.htm
>
> > Choose glass from the materials list.
>
> > --
> >www.e-woodshop.net
> > Last update: 10/22/08
> > KarlC@ (the obvious)
>
> Geez, Swing. I even *went* there! I just scrolled down the the G's, didn't
> see it and stopped.
>
> Not feeling particularly smart at the moment.
>
> jc
Go all the way to the bottom of the list. Tom
"charlie" <[email protected]> wrote in message
news:[email protected]...
>
> but for shelving purposes, almost all float is interchangable.
>
> regards,
> charlie
> http://glassartists.org/ChaniArts
Slightly OT, but of interest, I bet:
Long, long ago in this NG, there was a discussion about where to
locate lifting straps to hoist a flat panel. It was one of the
better discussions I can recall, and brought out some of the best
of the engineering types from even other NGs to get an answer. I
even passed along the discussion to a nephew, who worked for a
concrete panel company. What I remember most was to "lift on the
5ths." In other words, you divided the panel (or shelf or
retaining wall etc) into 5 parts, using 4 lines and then support
it at the first points in from the end. It assumes that the panel
is of uniform thickness and strength. It's counterintuitive in
many respects, but recognizes that the interior sections lend some
mutual support and also the outer panels "lift" as they pivot
around the point of attachment.
I assume that this would also apply to an UNLOADED glass, wood or
shelf of other material. Of course, with an uneven distribution
of load, such as a big weight in the center, this might not be
correct.
YMMV and also this is based upon my poor, addled brain thinking
back many years.
--
Nonny
ELOQUIDIOT (n) A highly educated, sophisticated,
and articulate person who has absolutely no clue
concerning what they are talking about.
The person is typically a media commentator or politician.
On Dec 9, 9:27=A0pm, Swingman <[email protected]> wrote:
> Joe wrote:
> > Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
> > source for a load/span calculator for glass?
>
> http://www.woodbin.com/calcs/sagulator.htm
>
> Choose glass from the materials list.
>
> --www.e-woodshop.net
> Last update: 10/22/08
> KarlC@ (the obvious)
Again, pretty neat software. Thanks. It is in my bookmarks.
Only concern is it provides sag but not breaking strength. I have
used 1/4" glass panels for some 16"x12" curio cabinet shelves but no
weight to speak of. I also built a small A/V cabinet years ago that
had 16" x 20" 1/4" glass shelves holding some pretty beefy stereo amps
and tuners (20 pounds+); but load points were cloe to the ends of the
shelfs. In both cases, I talked to the local glass shop and they gave
me size and strength guidance.
RonB
"Joe" <[email protected]> wrote in message
news:[email protected]...
> Ok, I know that glass doesn't sag (perceptibly), but does anyone have
> a source for a load/span calculator for glass?
>
> tia,
>
> jc
>
>
May want to check the Corning Glass web site
http://www.corning.com/index.aspx as one possibility
Bob S.
Phisherman wrote:
...
> Most glass is a liquid and sags. In an old house you may see the
> bottom of the windowpane is thicker than the top portion. Quartz
> glass is a solid--probably less sag over time and transmits more
> lightwaves than regular glass.
This is commonly heard but...
Corning Museum of Glass Research Scientist's discussion is at--
<http://www.cmog.org/dynamic.aspx?id=294>
--
dpb wrote:
> Phisherman wrote:
> ...
>> Most glass is a liquid and sags. In an old house you may see the
>> bottom of the windowpane is thicker than the top portion. Quartz
>> glass is a solid--probably less sag over time and transmits more
>> lightwaves than regular glass.
>
> This is commonly heard but...
Probably because public school "science" teachers are taught it and pass it
along and while kids don't get anything _useful_ out of those "science"
classes they do get the notion that glass is not a solid. I recognized that
as bullshit the first time I heard it--the teacher gave a definition of
"solid" which glass met in every particular and then said "glass is not a
solid", but could not explain why it was not a solid and could not explain
what it was other than "glass" like "glass" is some fifth state of matter.
The notion that it's not solid is really a philosophical debate about the
definition of "solid" and has little do to with the realities of structural
design.
> Corning Museum of Glass Research Scientist's discussion is at--
> <http://www.cmog.org/dynamic.aspx?id=294>
"Joe" <[email protected]> wrote in message
news:[email protected]...
> Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
> source for a load/span calculator for glass?
>
> tia,
>
> jc
glass is amazingly flexible in long pieces. watch them unload 12'x4'x1/2"
glass sheets from the case sometimes. they'll flex back and forth by
multiple inches. i have some double pane windows in my house that are 10'x6'
of normal strength 1/8" glass, and i can press in the middle of the pane to
see the sheet flex.
regards,
charlie
http://glassartists.org/ChaniArts
"Robert Bonomi" <[email protected]> wrote in message
news:[email protected]...
> In article <[email protected]>,
> Joe <[email protected]> wrote:
>>Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
>>source for a load/span calculator for glass?
>
> Fair warning -- that's going to be a _complex_ issue. There are many,
> *many* moree varieties of 'glass' than there of 'wood'. And they _all_
> have different characteristics.
but for shelving purposes, almost all float is interchangable.
regards,
charlie
http://glassartists.org/ChaniArts
tom wrote:
> On Dec 10, 9:56 am, "Joe" <[email protected]> wrote:
>> "Swingman" <[email protected]> wrote in message
>>
>> news:[email protected]...
>>
>>> Joe wrote:
>>>> Ok, I know that glass doesn't sag (perceptibly), but does anyone
>>>> have a source for a load/span calculator for glass?
>>
>>> http://www.woodbin.com/calcs/sagulator.htm
>>
>>> Choose glass from the materials list.
>>
>>> --
>>> www.e-woodshop.net
>>> Last update: 10/22/08
>>> KarlC@ (the obvious)
>>
>> Geez, Swing. I even *went* there! I just scrolled down the the
>> G's, didn't see it and stopped.
>>
>> Not feeling particularly smart at the moment.
>>
>> jc
>
> Go all the way to the bottom of the list. Tom
Here's a South African glass industry standard
http://www.aaamsa.co.za/images/Technical%20Publications/SAGGA/Selection%20Guide%20for%20Glass%20in%20Furniture%20New.pdf
or http://tinyurl.com/yzpmlpz. Note that it is metric.
Just for hohos I ran a 1x1 meter by 4mm piece of glass through the sagulator
with the standard's maximum recommended 17kg/square meter load and it came
up with .068 in/ft sag, so if you go by the .02 recommendation that the
sagulator uses you may be safe, but I'd check both the sagulator and the
standard to make sure that it will both hold the load and not sag--glass
doesn't usually warn you before it lets go.
On Thu, 10 Dec 2009 01:04:13 GMT, "Joe" <[email protected]> wrote:
>Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
>source for a load/span calculator for glass?
>
>tia,
>
>jc
>
Most glass is a liquid and sags. In an old house you may see the
bottom of the windowpane is thicker than the top portion. Quartz
glass is a solid--probably less sag over time and transmits more
lightwaves than regular glass.
In article <[email protected]>,
Joe <[email protected]> wrote:
>Ok, I know that glass doesn't sag (perceptibly), but does anyone have a
>source for a load/span calculator for glass?
Fair warning -- that's going to be a _complex_ issue. There are many,
*many* moree varieties of 'glass' than there of 'wood'. And they _all_
have different characteristics.
In article <[email protected]>,
"Joe" <[email protected]> wrote:
> Ok, I know that glass doesn't sag (perceptibly)
Tell that to the guys who build big telescopes.