It has double the processing power and memory.
Apart from speed, it enables ten times the number of active connections. Changes in our codebase also reduce load on the server.
The firewall is now more robust at blocking bad bots and scrapers (while still allowing polite ones access), these have been the major load (they have exploded with the AI revoltuion of the past year).
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Chemistry plus physics.
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What people have said about Digitalfire
I was really impressed with the way the ideas were presented and reinforced with analogies (especially those dealing with the importance of understanding glaze composition)
I just read the Magic of Fire cover to cover...I feel that a gift from heaven fell into my lap at just the right time. Two months ago I couldn't have appreciated your advice...The reality of tests too numerous to comprehend had just hit me. Your advice to establish a base glaze that is shown by testing to be well fitted,and to create variations from there seems to sensible but I didn't see it for myself. I was on my way to a workshop about commercial glazes...Armed with a new attitude, I now wonder if I need these samples?
Hello. I simply wanted to say thank you very much for providing me with so much important information.
Thanks a lot for this sea of knowledge.
I feel your information about majolica and glaze adaptation is the best I've seen anywhere and I do understand I need to do the testing and find what works for my situation.
I'm finding the magic of fire fantastic!
I have been in the pottery business for 52 years, Pemco use to be 10 miles from us. Your advise on solving our glaze problem worked perfectly and you explained it so well. I have had this problem for 7 years, re-firing lots of ware. Pemco guys and Pfaltzgraff Pottery glaze dept. told me different recipes but it never solved the problem. None of them talked about firing cycles.
Tony, how did you get so smart? God has Blessed you.
if I am unable to find an answer, I can most always depend on this site !!!!! I appreciate your efforts greatly.
I am at the point where I'm ready to go beyond the hit or miss approach to finding workable glazes. So far I'm finding you book most helpful. It is clearly written, and
most of all understandable for a non-chemist like myself. I look forward to trying the Insight program soon. Your website is a great source of information. Thanks and keep up the great work.
I have the downloaded version of The Magic of Fire for several years now and find it excellent. I'm now ready to purchase level 2 of Insight. Your resources are truly amazing and as an ex electronic engineer (now a potter), I really am impressed with your analytical approaches. Your site is almost a complete college level course on pottery (less the throwing & handbuilding).
What people have said about Insight-Live
I am a ceramic manufacturing manager, and before this position, I had no training on ceramics. I was taught our recipes, but none of it was explained. The dragon ran amok. After reading through your articles and descriptions, I feel I have learned so much about my own products, and I have a foundation for changing, improving, and troubleshooting my materials issues that I wouldn't have had otherwise. They taught us in engineering school that we all stand on the shoulders of giants, because we all get to use knowledge and tools at a moment's notice that took others years to develop. Thank you for sharing all that you have, so the rest of us can stand on your shoulders to do our work that much better.
Your information has really been a Godsend to so many challenges we have overcome. All of your efforts have really made such a HUGE difference in our studio, rarely is there a day where your shared knowledge directly or indirectly is part of my life. We are eternally grateful for what you have unknowingly (until now) done for us.
May 2023 wants to teaching glaze, defect solving workshops
I teach ceramics and have been doing it a long time. I am also a subscriber to your site. You are a Godsend and a wealth of information, and I appreciate you sharing your knowledge with our community. So I've been doing this a long time, and ceramics never ceases to humble me.
I am a potter of over ten years and am now in this year paying attention to my glazes and what goes in to them. It's been an awesome journey with plenty of "ah ha" moments and exponentially more "what the..." moments. Regardless of what I'm feeling, digital fire is so far the best resource I've encountered. I’ve been going about glazes all wrong, following recipes and stabbing in the dark hoping to find one that Works for me... well, it’s not working! I’m devoting my time to explore glaze chemistry even more than I have and to do this I am convinced I can not go forward efficiently without a test kiln. THANK YOU for these wonderful resources!
I am a production potter and I have been using your website for information, and I have made many improvements from articles posted on this site.
Thanks! I look forward to seeing your posts. I have read and printed many things you have posted over many years. Have learned a lot from you.
When I want to nerd out or just understand more I always go to your digitalfire website. I tell everyone who has questions and sincerely wants to understand to start there. Thanks for doing ALL the wicked tedious, but extremely necessary work that you do Tony!
God, I love your posts. Your website is my first go-to for learning about glazes and firing schedules!
I have found your website to be extremely helpful because of your analysis of glaze chemistry and other information too. I have been able to mix all my own glazes and troubleshoot with the information you provide. I want you to know how much you're helping fellow potters all over the country and I truly appreciate your generosity in sharing the information.
Blog
Stains are better in black DIY glazes
Use 5% stain instead of 15% metal oxides
Consider the hazards and hassles before choosing a black matte or gloss recipe that has high individual or combined percentages of manganese dioxide, cobalt or nickel.
Gloss blacks: These are super popular as the base for layering of reactive glazes. DIY dipping versions thus make a lot of sense. They make even more sense when they don’t turn to jelly in the bucket because of the high percentage of red iron oxide in all blacks made using metal oxide colorants. And when the total percentage of pigment is as high, or higher than 15%. And when the pigments cause crystallization (especially when overloaded).
Matte blacks: The human eye can detect even slight differences in the degree of matteness (which is very difficult to keep consistent). Raw metal oxides affect the matteness, especially when overloaded with pigment. They are prone to cutlery marking if too matte. By using stains, manufacturers and even potters have learned to tune recipes (lower left) and firing schedules to achieve consistency and functionality (even tourist souvenirs (lower right) feature them now). With stains, only one material is producing the color, its percentage (which can be as low as 4%) can be tuned.
A dark body, variations in thickness, the right chemistry
This is G2826A3, a transparent amber glaze at cone 6 on white (PlainsmanM370), black (Plainsman 3B + 6% Mason 6666 black stain) and red (Plainsman M390) stoneware bodies. When the glaze is thinly applied, it is transparent. But at a tipping-point-thickness, it generates boron-blue that transforms it into a milky white. Glazes that are very glassy but on the edge of structural instability do this. So they are not good for functional ware.
This is an adjustment to the 50:30:20Gerstley Boratebase recipe (historically used for reactive glazes, often on functional surfaces! This cuts B2O3 and adds significant SiO2. But it still has double the boron of a typical functional glaze. While the chemistry of the original was within the territory of boron blue development (relatively low Al2O3), this one is better because of the increased SiO2 (the high MgO:CaO ratio is likely also helping). Boron blues like the lower Fe2O3 content or Gillespie Borate. One more factor: I am using 325 meshsilica here, it dissolves in the melt better.
Would you like to be able to use your own found-clays, ones native to your area or even your property, in your production? Follow me as we evaluate a mystery clay sample provided by a potter who wants to do exactly this. I will use ordinary tools that any potter either already has or can buy at low cost. We will describe this clay in terms of plastic clay bodies and common ceramic materials that most potters already use. The potter who submitted it has worked enough with the material to suspect it has potential and he wants to know how to best utilize it (e.g. at what temperature, with what glazes, mixed with what, processed in what way). In technical terms what we are doing is called "characterization".
This artisan, Dennis Cuku, is the king of DIY tile, making "actually HANDMADE" product using a red-burding terra-cotta-like middle temperature clay body. He also makes glazes in-house and fires using 36 shapes. He mixes 129 glazes and produces about 50,000 ft.² of tile per year. Tile making presents many unique challenges, not the least of which is the need for consistency and predictability of surface character and color. This endeavour is made possible with data, a lot of it. Not just glaze recipes, but many forming, glazing and firing procedures and techniques that must be documented.
Watch this 30-second video to see. Gelled (thixotropic) slurries for dipping are so much better to work with; you'll never go back once you have mastered this DIY technique. While some glazes and engobes gel naturally, especially those with high clay content, these almost always work best when the water content is within a certain range, so fine-tuning like this is still needed. Although not shown here, if over-gelling happens, a drip or two of deflocculant (e.g. Darvan) brings back the fluidity, this is more likely to happen with engobes since they need more gel (for dipping and even more for painting). A side benefit of this: No settling in the bucket.
Quick fix to make these spareless molds more usable
These legacy slip casting molds from Medalta Potteries (made from 80 year old masters). They are difficult and time-consuming to use and produce less than optimal results because they have no top section (this no spare) and require constant filling during cast time. Demolding requires cutting the lip flat (top right). But a lot of time trimming and sponging is needed to round it again, but making the lip even and symmetric is difficult to say the least.
I found a way to make these molds easier to use and better: A 3D printed spare/pouring spout that also defines a rounded rim. It can be glued to the top of the mold with slip. Of course, the PLA print is not absorbent, but this still works because the mold top edge is able to dewater the slip even inside the contoured top it forms. The print also acts as a cutting guide to cleanly cut anway any clay inside the spout section, leaving a clean line inside the lip. And the shrinkage of the clay pulls the pitcher lip away from the print.
The Heartbeat of the Kiln: The Indispensable Plant Technician
This page is dedicated to the skill and intuition of the Plant Technicians who kept the ceramic industry in North America thriving before the 1980s. Before we started clicking buttons to outsource things. They weren’t “role fillers” supplied by HR, they were “believers”. They understood everything in the plant; the equipment, processes, procedures, materials, recipes, kilns and firing. Managers set the pace, but the technicians made the pace possible. It was a time of local knowledge and company loyalty. They weren't temporary consultants or voices on a helpline; they owned and solved the problems. They were also mentors who passed their knowledge down.
These binders hold 40 years of recipes and techniques, kept by Albert E. Holthaus at Modern Art Products and Tierra Royal Potteries. Men like him were a legacy; they were the true "operating system" of a golden age of independence. They ensured the wheels kept turning, the fires kept burning and the quality kept enduring.
This batch-to-formula calculation was done by Albert E. Holthaus at Modern Art Products Company in Kansas City, MO (during the 1960s). Doing this not only seems quaint today, but suppliers put up roadblocks to doing it.
Notice that he took the manufacturer-supplied percentage analysis for each material (bottom) and calculated the unity formula for use in his batch to formula calculation (top). The recipe material weight amounts are missing in the latter; this appears to be his effort to create a documentation page of the recipe on the oxide formula level (this is what mattered to him). It was a time when frit formulas were published by their manufacturers. He also calculated the glaze's chemistry as a percentage analysis, likely to lay a basis to assess it against stated requirements from stain suppliers (certain stains only work when the host glaze chemistry meets a certain profile).
Doing this now is so much simpler. But almost no one actually does! The closest most technicians get to oxide formulas is choosing a frit from a list of ones for which the chemistry given by the manufacturer is only approximate.
This reduction stoneware glaze is producing white streaks on some pieces (left center). The body is a coarse iron stoneware. A magnification is needed to better explain this.
It is 2025, many smartphones now have dedicated macro lenses and can be held as close as a 1 centimeter. They automatically sense placement and switch to using the macro lens. Of course, the phone must be held rock steady and good lighting is essential. If you are a doubter of what they can produce, look at the two magnifications on the right. On the top one, the white streak is clearly visible, floating in a sea of phase-separated glass patterned by earlier-escaping bubbles. The extreme magnification on the bottom right appears to implicate tiny crystals growing in an area where late bubbles have escaped, changing the pattern of phase separation. This doesn’t yet explain the cause, but it is valuable information courtesy of a macro lens.
There’s DIY magic in the ground beneath your feet!
Place: Vernon, Alabama.
Story: Potter's friend sends a picture of an outcrop of white clay in the ditch near his driveway.
Result: A DIY claybody is born.
This planet is full of accessible clay deposits. Many can be used as-is for stoneware, earthenware and even porcelain. Characterizing this clay is the first step. How plastic is it? What does it look like when fired at different temperatures? Does it contain impurities that need to be sieved out? Does it dry without cracking? Does it work with glazes? Etc.
A journey of clay discovery to a finished piece is one of the most rewarding experiences you can have as a potter. And be more self-reliant. You don’t need special gear, just curiosity, eyes that notice, a few simple tools, and a willingness to experiment and learn to characterize clays. And one more thing: An organized way to keep records of your testing. Think of an insight-live account as a commitment to building experience; it is your memory of everything that worked. And didn't.
