Electric Mid&Hi Fired Ceramics
Potters & Sculptors - Making Rock from Mud
Can one predict the appearance of a glaze? (part II: tri-axial graphs of the Flux, Glass-formers and Amfoteres)
In a previous post, I discussed briefly a method to predict -with some approximation - the possibility to predict the appearance of a glaze using the Si/Al ratio (and to some extend the SiB/Al ratio). The graphic approach by Michael Bailey in his book 'Cone 6 glazes' is interesting and helps also to document my work.
Thinking about the major elements in the Unity formula, I was thinking to go a step further and use the elements in a tri-axial graph. Some more academic papers have used this approach as well but in a different form and scope.
To avoid misunderstanding:
Flux = Basic Oxides (e.g. Na2O, CaO, ZnO ...)
Amfoteres = Stabilizers (e.g. Al2O3 ...)
Glass-formers = Acidic Oxides (e.g. SiO2 ...)
After a quite intense search on the Internet I found a way to create tri-axial graphs in Excel. I transformed it such way that I could make graphs showing the Molar percentage out of the Unity formula for the Fluxes, Glass-formers and the Amfoteres. Then I 'calibrated' the background of the graphs using some well known and tested glazes in order to delimit the areas for:
Alkaline Earth Matt
Alkaline Earth - Alumina Matt
Alumina Matt
Alumina - Silica Matt
High Silica Matt
'Best Melt' - glossy area
Adding up the Fluxes, Glass-formers and Amfoteres from the Unity formula and calculate the Mol % for each group I got a clear view for any new glaze I tested or developed. In some way, it may replace a glaze calculation software for developing glazes - although I use it as a complement to my glaze development tools (INSIGHT and my own software Glazeval).
I show here an example for the same glazes used in the previous post .
Legend:
C6 ABOM 1: (C6 Glazes) - Alumina Boric Oxide Matt
C6 AM1: (C6 Glazes) - Alumina Matt
C6 BG1: (C6 Glazes) - Base Glaze -glossy
C6 HSM5: (C6 Glazes) - High Silica Matt
MC6G 1: (Mastering C6 Glazes) - High Calcium Semimatte 1
MC6G 2: (Mastering C6 Glazes) - High Calcium Semimatte 2
Can you work with glazes and possibly develop some without all the above?
Yes, of course. I consider this as valuable addendum to the learning and the better understanding of glazes and by this to help to master the glazes.
In a following post, I will briefly discuss how to predict if glazes show a risk for glaze faults.
Replies to This Discussion
-
Permalink Reply by Chantay Poulsen on
-
Another use is to use it as a teaching tool. It clearly explains the effects of increasing and decreasing ingredients. Couple that with visuals of actual glaze pics and for us visual learners it will be a hit.
-
Permalink Reply by Daniel Spruyt on
-
Thanks!
Finally a visual oriented peer.
Chantay Poulsen said:Another use is to use it as a teaching tool. It clearly explains the effects of increasing and decreasing ingredients. Couple that with visuals of actual glaze pics and for us visual learners it will be a hit.
-
Permalink Reply by Nadine Mercader on
-
I think Chantay's comment was right on and Daniel I think almost all of us is very visual and we understand complex subjects like glaze chemistry far more easily with pictures and graphs as you have so kindly posted.
-
-
I've found it more predictable to create a matte glaze by adding enough titanium, zinc or calcium to cause enough crystallization on the surface to eliminate the shine.
Increasing the ratio of alumina to silica can also create a matte glaze surface but it has seemed to be greatly affected by the rate at which I cool the kiln.
"Mastering Cone 6 Glazes" has a two High Calcium Semi-Matte glazes as a learning exercise (both in the Insight-Live database under MC6G). The first version is very dry and frankly unattractive looking with a Si:Al ratio of 6.7 to 1, with the second having more silica with a ratio of 6.9 to 1.
Both have a lot of calcium, with 28% and 29% Wollastonite along with some calcium in the frit, and 6% rutile added, so both versions of the high calcium semi-matte are quite matte . . . I think the better description for the higher alumina version is more opaque, to the point that the glaze has lost any sense of depth.
-
-
This is a good example of how difficult glaze recipes travel between potters; it is often mentioned in literature as well.
My experience with MC6G is that I hardly can achieve matte glazes using European raw materials, they all tend to be nearly glossy. (I do use a slow cooling of the kiln).
Another remark: the essential purpose of the triaxial graphs (and the Si/Al ) is to have a quick view on what kind of glaze you are dealing with before doing any practical work!
Norm Stuart said:I've found it more predictable to create a matte glaze by adding enough titanium, zinc or calcium to cause enough crystallization on the surface to eliminate the shine.
Increasing the ratio of alumina to silica can also create a matte glaze surface but it has seemed to be greatly affected by the rate at which I cool the kiln.
"Mastering Cone 6 Glazes" has a two High Calcium Semi-Matte glazes as a learning exercise (both in the Insight-Live database under MC6G). The first version is very dry and frankly unattractive looking with a Si:Al ratio of 6.7 to 1, with the second having more silica with a ratio of 6.9 to 1.
Both have a lot of calcium, with 28% and 29% Wollastonite along with some calcium in the frit, and 6% rutile added, so both versions of the high calcium semi-matte are quite matte . . . I think the better description for the higher alumina version is more opaque, to the point that the glaze has lost any sense of depth.
Videos
Use These Links to Support Us
Low cost flat lapping disc can be used on you potters wheel if you, drill bat pin holes in it, and provide a trickle of water to cool it. At amazon.com, 120 grit for aggressive material removal. Click the image to purchase
Members have had great things to say about John Britt's new book, Mid-Range Glazes. Click the image to buy from Amazon.com
Purchase Glazes Cone 6 by Michael Bailey, The Potters Book of Glaze Recipes by Emmanuel Cooper, or Making Marks by Robin Hopper, all available at amazon.com. Mastering Cone 6 Glazes by John Hesselberth & Ron Roy is now out of print.
Harbor Freight is a great place to find unbeatable prices for better HVLP spray guns with stainless steel parts and serviceable economy models, as well as detail guns, all tested by our members for spraying glazes, as well as compressors to power the guns. As yet no one has tested and commented on the remarkably inexpensive air brushes at harbor freight.
The critter siphon gun is a spray alternative that is well liked by some of our members, and is available at amazon.
Amazon is also a competitive source for photo light tents for shooting professional quality pictures of your work. They also have the EZ Cube brand favored by several of our members. You might also want to purchase the book Photographing Arts, Crafts and Collectibles . . .
If you are up to creating videos of your work or techniques you might want to invest in a flip video camera
Following are a few scales useful for potters. Ohaus Triple Pro Mechanical Triple Beam Balance, 2610g x 0.1g, with Tare $169.00
And finally a low cost clone of the OHaus. The Adam Equipment TBB2610T Triple Beam Mechanical Balance With Tare Beam $99.62
ebay is a great alternative for many tools and the equipment used in the ceramics studio - kilns, wheels, extruders, slab rollers are often listed there both new and used.
Tips for Members
If you just want to spout off, it is best accomplished as a blog posting. If you want to get more guidance and ideas from other members, ask a question as a new discussion topic. In the upper right corner of the lists for both types of posting, you will find an "+Add " button. Clicking it will open an editor where you create your posting. 4/16/2014
© 2024 Created by Andrea Wolf.
Powered by
