Marcia Selsor Posted August 30, 2013 Report Share Posted August 30, 2013 Back in the day we made this mud with fireclay- vermiculite-a pinch of sand and water with a minor amount of sawdust-mixed with water in tub -mix till workable but not to wet. Mark Biglou, I made mud with scrap clay and cellulose insulation from Home Depot on a salt kiln door when I was at he Bray. it worked reall well. Add some Potland cement to the mix for a good protective /insulating cover for the arch. sounds like you're getting I done.Good job! Marcia Link to comment Share on other sites More sharing options...
Guest JBaymore Posted August 30, 2013 Report Share Posted August 30, 2013 any suggestions or alternatives for (decent inexpensive) pyrometer/thermocouple? Biglou, I think that the terms "inexpesnive" and "decent" here are mutually incompatible. Don't by a cheap analog unit....they are "expensive" to have. If the pyrometer allows you to fire more successfully..... how many screwed up loads / pieces would it take to pay for a decent pyrometer system to start with? On fuel alone..... knowing the information that the pyro can give you will likely result in savings every firing. Check out Flukes or my preference ...Omega Engineering. best, .............john Link to comment Share on other sites More sharing options...
MDJones Posted August 31, 2013 Report Share Posted August 31, 2013 A tip or two for ya' on kiln building and design............ One of the common causes of cold floors on kilns revolves around the mistaken understanding that so many people have that "heat rises". That preception being some sort of a "law" comes from our experiential understanding of our lives....where we experience that HOT GASES rise (like in heated structures). Hot gases rise when suspended in colder gases. Heat energy....... not true. This mis-understanding is a core concept that I deal with in my Kiln Design and Construction classes. Heat energy ALWAYS moves from areas of higher concentration to areas of lower concentration. Basic law of thermodynamics. Entropy. Water flows downhill. (Yes... a heat pump can move heat energy seemingly "uphill",...... but that is a separate subject.) If you want the kiln to fire as evenly as possible using as little fuel to accomplish that feat as possibe........ make sure you don't under-insulate the floor. Otherwise you'll have to adjust the heat DISTRIBUTION pattern in the unit to send more of the overall energy into the floor area than otehrwise necessary.... some of which to also be lost out of the underinsulated floor..... and costing you money in every firing. So if you decide that the walls and roof structure of a kiln has to have a specific insulation value (heat loss in BTS/ Sq. Ft. / hr.) then the FLOOR should have the same level of insulation. (See * note below also) So if your walls are 9" of brickwork compoised of a 4 1/2" hard brick hot face layer, backed with a 4 1/2" insulating brick layer (of some specific use temp rating) then the floor should also have about this same rating overall. This can be a little different due to the typical layout of floor bricks being set in the 2 1/2" high layer and the walls being in the 4 1/2" format..... but you CAN lay floors with the brick set in the same (or similar) configuration. The common choices to "match" up to a 9" wall section oftten comes to a decision between a 7 1/2" thick floor and a 10" thick floor. If you understand the insulating values of refractories, you can achieve the SAME insulating value (BTU / Sq. Ft / Hr. conductivity) out of a thinner floor wall section than the side wall structure using DIFFERENT materials........ so the thickness is actuall irrelevant. The important concept is that the INSULATING value be similar. The old Rhodes book showing so many 5" thick hardbrick floors in kilns is responsible for SO many kilns with cold bottoms it is amazing. This is something that I commonly end up fixing on a kiln when I am called in to troubleshoot some kiln firing issues. And if you decide to use fiber in the floor area........ make sure not to compress the fiber too greatly (difficult in a load bearing situation). The more you compress the dead air spaces... the more the loss of insulating value. There is an optimum level of compression for fiber...... used in stuff like Z blocks. Best (easiest) to use "hard versions" of fiber for floors....like board forms. best, ......................john (*NOTE: Because there is typically less free air circulation across the cold face of the floor structure, technically the amount of heat energy disappated into the surrounding environment off the cold face is lower than on the vertical wall surfaces and off the roof or arch. So the BTU /Sq,. Ft. / Hr. loss values there is slightly less than the same construction in a wall or roof. But this factor is so small in the overall picture ...as to be inconsequential.) First Post - just found this Wow , now that was Kiln porn, as I now realize Why I have been stuck for months unable to add another brick to my kiln because I have piles and boxes of half bricks all soft from a kiln I am recycling. I can put 2 layers under the kiln floor and use up a lot of them making a better insulated floor and then tell my wife that I ran out bricks and need to buy more. Plus I may as well move it over a bit since I have to unstack it, add the soft brick floor, start again. I was planning on crushing the broken soft bricks for grog and casting chimney sections with that. I had already bought 5 bags of Kastolite. I can also now lay some steel tubing under the floor for anchoring the steel supports for the door and the arch clamp system Thanks for that Mike Link to comment Share on other sites More sharing options...
Biglou13 Posted August 31, 2013 Author Report Share Posted August 31, 2013 John's posts are almost always scholarly. I find my self re reading his (and others) posts, and always extracting a bit more knowledge each time. I'm planning on hard brick inside and soft out side also old kiln parts. I love that they are easy to cut. I have yet to build it yet . But recently started rethinking my plan. Depending in size of kiln I think soft brick (exclusive) as base layer may be problematic structurally as weight bearing brick. I'm sure someone will reply with science behind this. But I'd be leery of staking heavy hard brick of walls on a base of soft. So at minimum the wall sections will be supported by hard brick, or all hard brick for verticals surfaces. You can still back them soft as I'm planning. It t just be the wall perimeter that won't have soft bricks as floor base. Are you building with soft brick only? I'm interested in seeing pics of your kiln. Lou Link to comment Share on other sites More sharing options...
Mart Posted August 31, 2013 Report Share Posted August 31, 2013 any suggestions or alternatives for (decent inexpensive) pyrometer/thermocouple? Biglou, I think that the terms "inexpesnive" and "decent" here are mutually incompatible. Don't by a cheap analog unit....they are "expensive" to have. If the pyrometer allows you to fire more successfully..... how many screwed up loads / pieces would it take to pay for a decent pyrometer system to start with? On fuel alone..... knowing the information that the pyro can give you will likely result in savings every firing. Check out Flukes or my preference ...Omega Engineering. best, .............john I dug up few form Omega 1) TJ36-CAXL-14U-18 2) CASS-18U-12-NHX 3) KMQXL-125U-6 150-300 mm length is OK and and 3.2+ mm diameter sound about right. It will be used in our experimental CF gas kiln (not a raku kiln!) and we like to fire it at or slightly above 1258 °C (if we can get there . John, any recommendations? Thank you Link to comment Share on other sites More sharing options...
Biglou13 Posted August 31, 2013 Author Report Share Posted August 31, 2013 Since johns post I've been spending some time at that site also, any suggestions on which model for "thermometer" http://www.omega.com/pptst/HH500.html Others were less less expensive with similar features Does wood fire change needs for thermocouple ? Since the above links have ultimax sheath does that mean that no additional ceramic sheath is necessary. What features are necessary? Link to comment Share on other sites More sharing options...
Mart Posted September 1, 2013 Report Share Posted September 1, 2013 Since johns post I've been spending some time at that site also, any suggestions on which model for "thermometer" http://www.omega.com/pptst/HH500.html Others were less less expensive with similar features Does wood fire change needs for thermocouple ? Since the above links have ultimax sheath does that mean that no additional ceramic sheath is necessary. What features are necessary? This handheld "thermometer" is nothing more than a overpriced volt meter with larger and friendlier numbers. What if you buy a simple Tester/Volt Meter that can measure millivolts for few €/USD and use it to measure, what is happening at the other end of the thermocouple. If you think about it, 50.929 mV is as meaningful as 1258C, 2296F and cone 9. http://www.thermometricscorp.com/PDFs/Thermocouple-Charts/Type-K-Thermocouple-Chart-C.pdf Link to comment Share on other sites More sharing options...
Biglou13 Posted September 1, 2013 Author Report Share Posted September 1, 2013 Since johns post I've been spending some time at that site also, any suggestions on which model for "thermometer"http://www.omega.com/pptst/HH500.html Others were less less expensive with similar features Does wood fire change needs for thermocouple ? Since the above links have ultimax sheath does that mean that no additional ceramic sheath is necessary. What features are necessary? This handheld "thermometer" is nothing more than a overpriced volt meter with larger and friendlier numbers.What if you buy a simple Tester/Volt Meter that can measure millivolts for few €/USD and use it to measure, what is happening at the other end of the thermocouple. If you think about it, 50.929 mV is as meaningful as 1258C, 2296F and cone 9. http://www.thermometricscorp.com/PDFs/Thermocouple-Charts/Type-K-Thermocouple-Chart-C.pdf Are you saying that most "thermometers" / volt meters are less important in reading kiln temp than the actual thermocouple.? Is this a bad choice for "thermometers"? I'e spent a few minutes looking at chart and still am no closer on making decision on which to buy. Thermocouple or thermometer. I'm unclear as to the point of your last post. Link to comment Share on other sites More sharing options...
Guest JBaymore Posted September 1, 2013 Report Share Posted September 1, 2013 Here's a good starting point for understanding selecting pyrometer systems (thermocouple(s), connectors, extension wires, and meters): http://www.omega.com/prodinfo/ThermocoupleSensor.html Please take note of the upper temperature range limit for Type K thermocouples....... and the output graphs for the upper end of those so that you know the trade off you are getting for using these cheaper thermocouples. Then you mate it to a corresponding quality meter that gives you the features that you want. Watch the resolution and accuracy numbers for the meters. Knowledge is power. Here's another good intro document: ‎http://www.pyromation.com/Downloads/Doc/Training_TC_Theory.pdf Only you can decide how much accuracy is necessary for what you are attempting to do. The more accuracy in the system, the more information you have to work with in doing your firings and in troubleshooting any issues therin. best, ................john Link to comment Share on other sites More sharing options...
justanassembler Posted September 1, 2013 Report Share Posted September 1, 2013 All of what John just put forth is good information, but also remember that the only information a pyrometer is giving you is the temperature at the tip of the thermocouple that it is reading Link to comment Share on other sites More sharing options...
Guest JBaymore Posted September 1, 2013 Report Share Posted September 1, 2013 All of what John just put forth is good information, but also remember that the only information a pyrometer is giving you is the temperature at the tip of the thermocouple that it is reading SO incredibly true that I spend a LOT of time stressing this point in classes. Ditof for oxy-probes and the like. And DITTO for any cones you are looking at through spy ports. best, ..............john Link to comment Share on other sites More sharing options...
Biglou13 Posted November 4, 2013 Author Report Share Posted November 4, 2013 A free brick donation fell through. (So if anyone has any free brick , soft or hard, even old electric kiln guts.......) I was planning on using soft brick (electric kiln innards) as inslulative layer in kiln build. I'm now re thinking. A perlite layer. Then a conventional brick wall? Also using it as second level floor insulation between support bricks. How much insulation does perlite provide? My other option is a layer of (pricer) blanket. Finally decided on train style cross draft " shoebox " design Link to comment Share on other sites More sharing options...
Mart Posted November 4, 2013 Report Share Posted November 4, 2013 Get the high temp CF and make your walls at least 10 cm thick. For most inner 50 mm layer, use the one rated for 1430C (what ever the F equivalent). For the second layer (50 mm), use 1260C CF. If you like or can (have a permanent place for kiln) build a brick wall around it. Will help to slow down cooling. Use second hand hard (heavy) bricks. Our CF downdraft kiln is doing grate. It has 2 propane burners and can do cone 9-10, no problem. If you have all the parts, you can build one in a day or 2. Link to comment Share on other sites More sharing options...
Biglou13 Posted January 1, 2014 Author Report Share Posted January 1, 2014 I've seen two schools of thought with kiln building. 1. Perfect sized bricks and appropriate wedges, side skew, key bricks etc etc often mortar-less. (Pricy) 2. Primarily straights with refractory scraps and mortar. (Less expensive, larger, primitive style, anagama etc etc) With #1 I've read to leave room in build for expansion while hot. But not with #2 how is the expansion dealt with with mortar style build. How is heat expansion dealt with? With #2. The refractory mortar will cure unevenly in kiln environment. The mortar exposed to inside of kiln will will be expose to temperature greater than mid point to out side of kiln. So technically the mortar closer to inside of kiln will be more "mature" than outside. Does this cause issues and how. Sure the kiln will be functional just wondering....... Rambling thoughts..... Link to comment Share on other sites More sharing options...
neilestrick Posted January 1, 2014 Report Share Posted January 1, 2014 In my experience expansion joints are not necessary in box shaped kilns. In long kilns it can be necessary depending on the type of kiln, but is less of an issue with soft brick kilns. In grad school we had a Train style wood kiln that had such great expansion along its length that it popped the nuts off the all-thread. When it was rebuilt, the firebox, chamber and chimney were built as separate entities to prevent it from happening again. Link to comment Share on other sites More sharing options...
Marcia Selsor Posted January 12, 2014 Report Share Posted January 12, 2014 Big Lou, You can use flu liners for your chimney once you get about the height of the kiln. I used ceramic sewer pipe on one kiln. Yoou are in Utah which may have a high altitude. You may need to go 20 or 25 feet. Depending on the size of your kiln and type of burner. I think I saw a Venturi in your pics. So high er may be needed. I went about 25 feet in Montana for 3000 ft above sea level. Fiber is Five times the insulating Quality of hard bricks. if you are short on Bricks, get fiber ..look on eBay. use it on the inside unless you are firing soda? use it on the outside but protect it from rain..maybe a skin of homemade castable as an outer shell. don't compress the fiber when you do that. As for a pyrometer, I wouldn't use one on a gas kiln. just get cones. they are getting pricey too. A catenary arch is the most space for least material. by the look of your shelves, you could stack one easily. get decent posts. Marcia Link to comment Share on other sites More sharing options...
Mark C. Posted January 12, 2014 Report Share Posted January 12, 2014 Heres my old hard brick catenary kiln from the early 70's-You got inside and loaded the back walk with others feeding you the pots. Then got out and stacked the front. It sucked up more gas than we could afford-we split the bill 4-6 ways. It was a 4-6 year deal and then I replaced it with soft brick car kiln The bricks where free the fuel was the cost. it took forever to heat this monster. Mark Link to comment Share on other sites More sharing options...
Marcia Selsor Posted January 12, 2014 Report Share Posted January 12, 2014 I always built my doors to "step out" in two layers and under the arch. Chinked if there were any leaks. That one really was leaking! I can see why it cost you so much in gas! Marcia Link to comment Share on other sites More sharing options...
Biglou13 Posted January 16, 2014 Author Report Share Posted January 16, 2014 Mark Why didn't you slap some mud on the leaky bits? Marcia, I do have the parts for 2 forced air burners, I'm thinking of building some kind of hybrid/ multi heat source ...wood, and forced air propane, sawdust. I've fallen in love with woodfired pottery. Link to comment Share on other sites More sharing options...
Mark C. Posted January 16, 2014 Report Share Posted January 16, 2014 Lets see If I recall back in the early 70's the door was stepped with an inner and outer layer and we did chink it up with a clay vermiculite mix. What I recall was we had really junk bricks (this where free from a rotating pulp mill lime kiln) to they are only flat on one plane.They are slanted on the other 4 sides. All this really means it they are hard to seal anything with. The arch was huge and expanded as they do as well the door and in this fire it really tossed out the chinks. We really should have gotten some good brick for the door-the chimmy was worse with scrap of scrap bricks but I have no photos. These days where my starving artist days-remember since 1976 I have been a full time potter but the 1st 1-6 years I took and odd job or two but buying NEW bricks was not in the thought process.I did get to build some kilns for others with new bricks so I knew how to back then. The next kiln here for me was a soft /hard brick car kiln in the later 70's-I have since rebuilt that as well. I still have a pile of pulp mill bricks if you want some?Very hard to work with.I laid a floor with them around my salt kiln.They are 4 1/2 iches thick x10"ish at one end 7' at the other-they form a 20 foot circle that rotates at a slant very slowy in a lime kiln. Mark Link to comment Share on other sites More sharing options...
jpc Posted January 17, 2014 Report Share Posted January 17, 2014 Great info! Makes me want to build another kiln! Biglou 13, might I suggest you do the best to use the best materials possible. Scrimping on the material is scrimping on the kiln! NG. No offense to your kiln shelves but, well... you were taken on a pony ride for sure! Best of luck with your kiln! JPC Link to comment Share on other sites More sharing options...
Mycoftsmith Posted October 14, 2014 Report Share Posted October 14, 2014 Some also include a bit of portland cement to harden it. Straight clay or mud will shrink and crack off, so the other materials are very important. Yeah Agree with it Link to comment Share on other sites More sharing options...
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