tag:blogger.com,1999:blog-79430259973844977312011-04-21T22:16:03.474-07:00Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.comBlogger91100tag:blogger.com,1999:blog-7943025997384497731.post-30057742816312237312011-02-13T16:08:00.000-08:002011-02-13T20:05:04.341-08:00Edouard,<br /><br />The effect of silica, alumina and kaolin on melting point of<br />C-spar is what I would expect, as is the effect of dolomite and talc.<br />The effect of alumina on viscosity, though, is dramatic and<br />for me, unanticipated. That talc and kaolin would have a similar<br />effect on viscosity is useful to see. I would expect silica to<br />"stiffen" the glaze as it does. It is nice to see the data.<br />All the best to you1<br />Dave Finkelnberg (potter and ceramic engineer)<br />------------------------------------------------------------<br />Edouard,<br /><br />Merci ! Je n'ai jamais vu ceci auparavant. C'est<br />très intéressant. L'effet de la silice, de l'alumine<br />et du kaolin sur le point de fusion du feldspath<br />potassique Custer est ce à quoi je m’attendrais,<br />de même que l'effet de la dolomite et du talc.<br />L'effet de l'alumine sur la viscosité, cependant,<br />est dramatique et pour moi, imprévu. Que le talc<br />et le kaolin exercent un effet semblable sur la<br />viscosité est utile à voir. Je m’attendrais à ce<br />que la silice rende la glaçure plus « épaisse »<br />comme elle le fait.<br />Il est intéressant de voir ces données.<br /><br />Je te souhaite le meilleur des choses,<br />Dave Finkelnberg (potier et ingénieur<br />en céramique)<div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-3005774281631223731?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0tag:blogger.com,1999:blog-7943025997384497731.post-62409249453211704492007-08-23T10:40:00.000-07:002007-08-27T14:31:54.535-07:00<a href="http://bp3.blogger.com/_rn6IeL9wg-E/Rs3GvlPuCLI/AAAAAAAAAas/easBSGuD6YE/s1600-h/Custer_eutectiques.gif"><img id="BLOGGER_PHOTO_ID_5101952473634834610" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp3.blogger.com/_rn6IeL9wg-E/Rs3GvlPuCLI/AAAAAAAAAas/easBSGuD6YE/s400/Custer_eutectiques.gif" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><strong><span style="color:#cc0000;">Some translations :</span></strong><br />Température d’eutectique sur Custer Feldspar<br />avec ajouts de matières premières.=<br />Eutectic temperature of melted mixtures<br />(as fritted materials) based on Custer Spar<br />enriched by raw material additions.<br /><br />Température d’eutectique en C.=<br />Eutectic temperature in C.<br /><br />Matières premières ajoutées à 100 parties de<br />Custer Feldspar.=<br />Raw materials added to 100 parts of Custer<br />Feldspar.<br /><br />N.B. Dolomie= dolomite<br /><br />------------------------------------------------------------------<br /><br />Since the formulas of feldspars and feldspar-like<br />materials are somewhat similar to those of high<br />temperature glazes we used this last principle as a<br />starting point to make a comparative study of<br />different materials on the eutectic temperature<br />of the potassium feldspar Custer.<br /><br />Throughout the experiment Custer remained<br />identical at 100 parts but increasing amounts<br />of the following materials were tested :<br /><br />1-Silica,<br />2-Kaolin-K<br />3-Dolomite,<br />4-Alumina,<br />5-Talc<br /><br />It should be remembered that these measures of<br />eutectic temperatures are valid only if the « Custer+<br />added material » mixture is completely melted<br />(or transformed into a frit).<br /><br />-------------------------------------------------------------------<br /><br />Comme les formules des feldspaths et feldspathoïdes<br />sont quelque peu similaires à celles de glaçures de haute<br />température, nous avons utilisé ce dernier principe<br />comme point de départ pour faire une étude comparative<br />de l’influence de divers matériaux sur l'eutectique<br />du feldspath potassique Custer (USA).<br /><br />Au cours de cette étude la quantité du feldspath Custer<br />demeura constante à 100 parties mais des quantités<br />croissantes des matériaux suivants furent testées :<br /><br />1-Silice,<br />2-Kaolin-K,<br />3-Dolomie,<br />4-Alumine,<br />5-Talc<br /><br />Il faut retenir que ces mesures de température de<br />l'eutectique ne sont valables que si le mélange<br />« Custer+matière ajoutée » est fusionné complètement<br />(ou transformé en fritte).<br /><br />Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /><br />Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-6240924945321170449?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0tag:blogger.com,1999:blog-7943025997384497731.post-43072910177236048032007-08-23T10:34:00.000-07:002007-08-27T14:33:24.468-07:00<a href="http://bp3.blogger.com/_rn6IeL9wg-E/Rs3FJlPuCKI/AAAAAAAAAak/gAnB72oqhS8/s1600-h/Custer_visco_eutectique676x421.gif"><img id="BLOGGER_PHOTO_ID_5101950721288177826" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp3.blogger.com/_rn6IeL9wg-E/Rs3FJlPuCKI/AAAAAAAAAak/gAnB72oqhS8/s400/Custer_visco_eutectique676x421.gif" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><strong><span style="color:#cc0000;">Some translations :<br /></span></strong>Viscosité (en Poises) à l’eutectique du Custer<br />Feldspar avec ajouts de matières premières.=<br />Viscosity (in Poises) at the eutectic of melted<br />mixtures (as fritted materials) based on Custer<br />Spar enriched by raw material additions.<br /><br />Viscosité du flux à l’eutectique (en Poises).=<br />Flow viscosity at the eutectic (in Poises).<br /><br />Ajouts de matières premières à 100 parties de<br />Custer Feldspar.=<br />Raw materials additions to 100 parts of Custer<br />Feldspar.<br /><br />N.B. Dolomie= dolomite<br /><br />------------------------------------------------------------<br /><br />Since the formulas of feldspars and feldspar-like<br />materials are somewhat similar to those of high<br />temperature glazes we used this last principle as<br />a starting point to make a comparative study of<br />the viscosity at the eutectic of the potassium<br />feldspar Custer to which different concentrations<br />of raw materials were added.<br /><br />Throughout the experiment Custer remained<br />identical at 100 parts but increasing amounts<br />of the following materials were tested :<br /><br />1-Silica,<br />2-Kaolin-K,<br />3-Dolomite,<br />4-Alumina,<br />5-Talc.<br /><br />It should be remembered that these measures<br />of viscosity are valid only if the « Custer+added<br />material » mixture is completely melted<br />(or transformed into a frit).<br /><br />Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /><br />Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-4307291017723604803?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0tag:blogger.com,1999:blog-7943025997384497731.post-11681638674592115182007-08-23T10:26:00.000-07:002007-08-27T14:34:23.960-07:00<a href="http://bp2.blogger.com/_rn6IeL9wg-E/Rs3DaVPuCJI/AAAAAAAAAac/sAq_2sK0xSM/s1600-h/Custer_Eutectique_Visco_500x625.JPG"><img id="BLOGGER_PHOTO_ID_5101948810027731090" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp2.blogger.com/_rn6IeL9wg-E/Rs3DaVPuCJI/AAAAAAAAAac/sAq_2sK0xSM/s400/Custer_Eutectique_Visco_500x625.JPG" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br />The viscosity of the molten glaze is a key point<br />which makes it possible to determine the risk of<br />a glaze running off the vertical parts of a piece<br />(in the case of crystalline glazes for example).<br /><br />Poise :<br />A cgs unit of dynamic viscosity equal to one<br />dyne-second per square centimeter; the viscosity<br />of a fluid in which a force of one dyne per square<br />centimeter maintains a velocity of 1 centimeter<br />per second<br />[French, after Jean Louis Marie Poiseuille<br />(1799-1869), French physician and physiologist.]<br /><br />------------------------------------------------------<br /><br />La viscosité de la glaçure fondue est un point<br />clé qui permet de déterminer le risque<br />d'écoulement sur les pièces verticales<br />(dans le cas des glaçures cristallines par exemple).<br /><br />Poise :<br />La poise correspond à une résistance à vaincre<br />d'une (1) dyne, unité de force qui, appliquée à<br />une masse d'un (1) gramme, lui communique<br />un accroissement de vitesse 1cm/seconde par<br />seconde.<br /><br />La poise est l'unité cgs. de viscosité dynamique,<br />symbole P. La poise vaut 1 g/cm s, soit 0,1 Pl.<br />(Français, d’après Jean Louis Marie Poiseuille<br />(1799-1869), médecin français et physiologiste.)<br /><br /><br />Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /><br />Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-1168163867459211518?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0tag:blogger.com,1999:blog-7943025997384497731.post-65825271108010355642007-08-23T10:09:00.000-07:002007-08-27T14:36:09.324-07:00<a href="http://bp0.blogger.com/_rn6IeL9wg-E/Rs2_d1PuCII/AAAAAAAAAaU/9xsTFuhs_IE/s1600-h/Custer-3110-3134-visco.gif"><img id="BLOGGER_PHOTO_ID_5101944472110762114" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp0.blogger.com/_rn6IeL9wg-E/Rs2_d1PuCII/AAAAAAAAAaU/9xsTFuhs_IE/s400/Custer-3110-3134-visco.gif" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><strong><span style="color:#cc0000;">Some translations :<br /></span></strong>Viscosité théorique à l’Eutectique du Custer Spar<br />avec ajouts de frittes Ferro 3110 et 3134.=<br />Theoritical viscosity at the Eutectic of melted<br />mixtures (as fritted materials) based on Custer<br />Spar enriched by additions of Ferro frits 3110 and<br />3134.<br /><br />Viscosité en Poises à l’Eutectique.=<br />Viscosity in Poises at the Eutectic.<br /><br />Quantité de fritte ajoutée à 100 parties de Custer. =<br />Amount of frit added to 100 parts of Custer Spar.<br /><br />--------------------------------------------------------------<br /><br />Since the formulas of feldspars and feldspar-like<br />materials are somewhat similar to those of high<br />temperature glazes, we used this last principle as<br />a starting point to make a comparative study of<br />the effects of increasing amounts of Ferro frits<br />3110 1nd 3134 on the theoritical viscosity at the<br />eutectic of Custer feldspar.<br /><br />It should be remembered that these data are valid<br />only if the « Custer+added material » mixture<br />is completely melted (or transformed into a frit).<br /><br />------------------------------------------------------------------<br /><br />Comme les formules des feldspaths et feldspathoïdes<br />sont quelque peu similaires à celles de glaçures de<br />haute température, nous avons utilisé ce dernier<br />principe comme point de départ pour faire une<br />étude comparative de l’influence de quantités<br />croissantes de deux frittes sur la viscosité théorique<br />à l'eutectique du feldpath potassique Custer (USA).<br /><br />Il faut retenir que ces mesures ne sont valables<br />que si le mélange « Custer+matière ajoutée »<br />est fusionné complètement (ou transformé en<br />fritte).<br /><br />Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /><br />Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-6582527110801035564?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0tag:blogger.com,1999:blog-7943025997384497731.post-30187757343000584342007-08-23T10:00:00.000-07:002007-08-27T14:37:37.115-07:00<a href="http://bp0.blogger.com/_rn6IeL9wg-E/Rs29j1PuCHI/AAAAAAAAAaM/e3JcKH3geRU/s1600-h/Custer-3110-3134-Eutect.gif"><img id="BLOGGER_PHOTO_ID_5101942376166721650" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp0.blogger.com/_rn6IeL9wg-E/Rs29j1PuCHI/AAAAAAAAAaM/e3JcKH3geRU/s400/Custer-3110-3134-Eutect.gif" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><strong><span style="color:#cc0000;">Some translations :</span></strong><br />Eutectique théorique du Custer Spar avec ajouts<br />de fritte Ferro 3110 et 3134.=<br />Theoritical eutectic of melted mixtures<br />(as fritted materials) based on Custer Spar enriched<br />by additions of Ferro frits 3110 and 3134.<br /><br />Température d’eutectique en C.=<br />Eutectic temperature in C.<br /><br />Quantité de fritte ajoutée à 100 parties de Custer. =<br />Amount of frit added to 100 parts of Custer Spar.<br /><br />--------------------------------------------------------------<br /><br />Since the formulas of feldspars and feldspar-like<br />materials are somewhat similar to those of high<br />temperature glazes, we used this last principle as<br />a starting point to make a theoritical comparative<br />study of two different frits on the theoritical eutectic<br />of the potassium feldspar Custer.<br /><br />It should be remembered that these eutectics<br />are valid only if the « Custer+added material»<br />mixture is completely melted (or transformed<br />into a frit).<br />This is not valid for a paste (clay) where there<br />would remain non-molten crystalline materials,<br />and badly amalgamated in the vitreous phase.<br /><br />-------------------------------------------------------------<br /><br />Comme les formules des feldspaths et feldspathoïdes<br />sont quelque peu similaires à celles de glaçures de<br />haute température, nous avons utilisé ce dernier<br />principe comme point de départ pour faire une<br />étude théorique comparative de l’influence de deux<br />frittes sur l'eutectique du feldspath potassique<br />Custer (USA).<br /><br />Il faut retenir que ces eutectiques ne sont valables<br />que si le mélange « Custer+matière ajoutée » est<br />fusionné complètement (ou transformé en fritte).<br />Cela n'est pas valable pour une pâte (argile) où il<br />resterait de la matière cristalline non fondue et<br />mal amalgamée dans le flux vitreux.<br /><br />Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /><br />Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-3018775734300058434?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com1tag:blogger.com,1999:blog-7943025997384497731.post-60792542420970336222007-08-23T09:55:00.000-07:002007-08-27T14:40:04.725-07:00<a href="http://bp2.blogger.com/_rn6IeL9wg-E/Rs28CVPuCGI/AAAAAAAAAaE/UoRhGUBOXDM/s1600-h/Custer-3110-3134-TEC.gif"><img id="BLOGGER_PHOTO_ID_5101940701129476194" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp2.blogger.com/_rn6IeL9wg-E/Rs28CVPuCGI/AAAAAAAAAaE/UoRhGUBOXDM/s400/Custer-3110-3134-TEC.gif" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><strong><span style="color:#cc0000;">Some translations :</span></strong><br />Coefficient d’Expansion Thermique du Custer<br />Spar avec ajouts de frittes Ferro 3110 et 3134.=<br />Thermal Expansion Coefficient of melted mixtures<br />(as fritted materials) based on Custer Spar<br />enriched by additions of Ferro frits 3110 and 3134.<br /><br />T.E.C. en 10-7 °C. =<br />T.E.C in 10-7 °C.<br /><br />Quantité de fritte ajoutée à 100 parties de Custer.=<br />Amount of frits added to 100 parts ofCuster Spar.<br /><br />-----------------------------------------------------------------<br /><br />Since the formulas of feldspars and feldspar-like<br />materials are somewhat similar to those of high<br />temperature glazes, we used this last principle as<br />a starting point to make a comparative study of<br />two frits on the Thermal Expansion Coefficient<br />(T.E.C.) of the potassium feldspar Custer.<br /><br />It should be remembered that these expansions<br />(dilatations) are valid only if the « Custer +added<br />material» mixture is completely melted<br />(or transformed into a frit).<br />This is not valid for a paste (clay) where there would<br />remain non-molten crystalline materials and badly<br />amalgamated in the vitreous phase.<br /><br />------------------------------------------------------------<br /><br />Comme les formules des feldspaths et feldspathoïdes<br />sont quelque peu similaires à celles de glaçures de<br />haute température, nous avons utilisé ce dernier<br />principe comme point de départ pour faire une<br />étude comparative de l’influence de deux frittes<br />sur le Coefficient Thermique d’Expansion (T.E.C.)<br />du feldspath potassique Custer (USA).<br /><br />Il faut retenir que ces dilatations ne sont valables<br />que si le mélange « Custer+matière ajoutée»<br />est fusionné complètement (ou transformé en fritte).<br />Cela n'est pas valable pour une pâte (argile) où il<br />resterait de la matière cristalline non fondue et<br />mal amalgamée dans le flux vitreux.<br /><br />Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /><br />Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-6079254242097033622?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0tag:blogger.com,1999:blog-7943025997384497731.post-56490662047938710392007-08-23T09:24:00.000-07:002007-08-27T14:42:21.959-07:00<a href="http://bp0.blogger.com/_rn6IeL9wg-E/Rs21O1PuCFI/AAAAAAAAAZ8/eqdthG-dRQ8/s1600-h/Custer_SiO2_comp.gif"><img id="BLOGGER_PHOTO_ID_5101933219296446546" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp0.blogger.com/_rn6IeL9wg-E/Rs21O1PuCFI/AAAAAAAAAZ8/eqdthG-dRQ8/s400/Custer_SiO2_comp.gif" border="0" /></a><br /><br /><div></div><div></div><div></div><div></div><div></div><div></div><div></div><div></div><div></div><div></div><div></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong></div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;"></span></strong> </div><div><strong><span style="color:#cc0000;">Some translations :</span></strong></div><div>Comparaison des méthodes de calcul du TEC du </div><div>Custer Feldspar avec ajouts de SiO2.=<br />Comparison of the T.E.C. methods of calculation </div><div>on melted mixtures (as fritted materials) based </div><div>on Custer Spar enriched by SiO2 additions.<br /><br />T.E.C. en 10-7 °C-1<br />T.E.C as 10-7 °C-1<br /><br />Ajout de SiO2 à 100 parts du Custer Feldspar.=<br />SiO2 additions to 100 parts of Custer Feldspar.</div><div></div><div>-------------------------------------------------------------<br /><br />Since the formulas of feldspars and feldspar-like </div><div>materials are somewhat similar to those of high </div><div>temperature glazes we used this last principle </div><div>as a starting point to make a comparative study </div><div>of different methods to compute the Thermal </div><div>Expansion Coefficient (T.E.C.) of a given amount </div><div>of the potassium feldspar Custer.<br />Throughout the experiment Custer remained identical </div><div>at 100 parts but increasing amounts of silica were </div><div>tested : 10, 20, 30, 40... </div><div></div><div>It should be remembered that these expansions </div><div>(dilatations) are valid only if the « Custer+added </div><div>material » mixture is completely melted (or </div><div>transformed into a frit). This is not valid for a paste </div><div>where there would remain non-molten crystalline </div><div>materials, and badly amalgamated in the vitreous </div><div>phase.<br /><br />Here is the chart of the various methods of calculation </div><div>(Appen, Gan Fu-Si, Takahashi, Winkelmann and </div><div>Edouard’s). </div><div>A priori the data obtained by Edouard are identical to </div><div>the method of Winkelmann, but the data of </div><div>Winkelmann are valid only between 20 and 100°C </div><div>while all the others are set for the range between </div><div>20 to 400°C, which accounts better for the T.C.E.</div><div>for ceramists or glassmakers.<br /><br />---------------------------------------------------------------<br /><br />Comme les formules des feldspaths et feldspathoïdes </div><div>sont quelque peu similaires à celles de glaçures de </div><div>haute température, nous avons utilisé ce dernier </div><div>principe comme point de départ pour faire une étude </div><div>comparative sur l’influence de quantités croissantes </div><div>de silice sur les différentes méthodes de calcul du </div><div>Thermal Expansion Coefficient (T.E.C.) d’un quantité </div><div>constante de feldspath potassique Custer (USA).<br />Au cours de cette étude la quantité du feldspath </div><div>Custer fut fixée à 100 parties mais des quantités </div><div>croissantes de silice furent testées, 10, 20, 30, 40 … </div><div></div><div>Il faut retenir que ces dilatations ne sont valables </div><div>que si le mélange « Custer+matière ajoutée » est </div><div>fusionné complètement (ou transformé en fritte). </div><div>Cela n'est pas valable pour une pâte où il resterait </div><div>de la matière cristalline non fondue et mal amalgamée </div><div>dans le flux vitreux.<br /><br />Voici le tableau avec les différentes méthodes de </div><div>calcul (Appen, Gan Fu-SI, Takahashi, Winkelmann </div><div>et Edouard ). </div><div>A priori les données obtenus par Edouard sont </div><div>identiques à la méthode de Winkelmann, </div><div>mais les données de Winkelmann ne sont valables </div><div>qu'entre 20 et 100°C tandis que toutes les autres </div><div>sont établies pour la plage de 20 à 400°C, ce qui </div><div>rend mieux compte du TEC pour les céramistes </div><div>ou les verriers... </div><div><br /></div><div></div><div>Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /></div><div>Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a></div><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-5649066204793871039?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0tag:blogger.com,1999:blog-7943025997384497731.post-73550532548613225352007-08-23T09:17:00.000-07:002007-08-27T14:44:33.295-07:00<a href="http://bp1.blogger.com/_rn6IeL9wg-E/Rs2zVFPuCEI/AAAAAAAAAZ0/HW4_N9ZwBh4/s1600-h/Custer_Smart-Bass.gif"><img id="BLOGGER_PHOTO_ID_5101931127647373378" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://bp1.blogger.com/_rn6IeL9wg-E/Rs2zVFPuCEI/AAAAAAAAAZ0/HW4_N9ZwBh4/s400/Custer_Smart-Bass.gif" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><strong><span style="color:#cc0000;">Some translations :</span></strong><br />Variations du T.E.C. sur Custer Feldspar par ajouts<br />de SiO2 et Kaolin selon les méthodes de calcul de<br />Smart et Bass. =<br />T.E.C. evolution calculated on melted mixtures<br />(as fritted materials) based on Custer Spar enriched<br />by SiO2 and Kaolin according to Smart’s and<br />Bass’ method of calculation.<br /><br />T.E.C. en 10-7 °C-1. =<br />T.E.C as 10-7 °C-1<br /><br />Quantité ajoutée à 100 parties de Custer Feldspar.=<br />Amounts added to 100 parts of Custer Feldspar.<br /><br />-----------------------------------------------------------------<br /><br />T.E.C. variations on Custer Spar by additions of SiO2<br />and Kaolin according to Smart's (Appen's) and Bass's<br />methods (GlazeChem, which appears to be close to<br />Winkelmann's) of calculation:<br /><br />Since the formulas of feldspars and feldspar-like<br />materials are somewhat similar to those of high<br />temperature glazes we used this last principle as<br />a starting point to make a comparative study of<br />different materials on the Thermal Expansion<br />Coefficient (T.E.C.) of the potassium feldspar<br />Custer.<br /><br />Throughout the experiment Custer remained<br />identical at 100 parts but increasing amounts of<br />the following materials were tested :<br /><br />1-Silica,<br />2-Kaolin<br /><br />Two methods of calcularion are used, one by<br />Smart.Conseil and one by Edouard Bastarache<br /><br />It should be remembered that these expansions<br />(dilatations) are valid only if the « Custer + added<br />material» mixture is completely melted (or<br />transformed into a frit). This is not valid for a paste<br />(clay) where there would remain non-molten crystalline<br />materials, and badly amalgamated in the vitreous<br />phase.<br /><br />------------------------------------------------------------<br /><br />Variations du T.E.C. sur le Custer Spar par ajouts de<br />SiO2 et Kaolin selon les méthodes (différentes) de<br />calcul utilisées par Smart.Conseil (Appen) et<br />Édouard Bastarache (GlazeChem, proche de celle<br />de Winkelmann):<br /><br />Comme les formules des feldspaths et feldspathoïdes<br />sont quelque peu similaires à celles de glaçures de<br />haute température, nous avons utilisé ce dernier<br />principe comme point de départ pour faire une<br />étude comparative de l’influence de divers matériaux<br />sur le Coefficient Thermique d’Expansion (T.E.C.)<br />du feldspath potassique Custer (USA).<br /><br />Au cours de cette étude la quantité du feldspath<br />Custer demeura constante à 100 parties mais des<br />quantités croissantes des matériaux suivants<br />furent testées :<br /><br />1-Silice,<br />2-Kaolin<br /><br />Deux méthodes différentes de calcul furent<br />utilisées, celle de Smart.Conseil (Appen) et<br />celle d'Édouard Bastarache (GlazeChem, proche<br />de celle de Winkelmann).<br /><br />Il faut retenir que ces dilatations ne sont valables<br />que si le mélange « Custer+matière ajoutée »<br />est fusionné complètement (ou transformé en fritte).<br />Cela n'est pas valable pour une pâte (argile) où il<br />resterait de la matière cristalline non fondue et mal<br />amalgamée dans le flux vitreux.<br /><br />Smart.Conseil<br /><a href="http://perso.wanadoo.fr/smart2000/index.htm">http://perso.wanadoo.fr/smart2000/index.htm</a><br /><br />Édouard Bastarache<br /><a href="http://www.flickr.com/photos/30058682@N00/">http://www.flickr.com/photos/30058682@N00/</a><div class="blogger-post-footer"><img width='1' height='1' src='https://blogger.googleusercontent.com/tracker/7943025997384497731-7355053254861322535?l=glazeexpansion.blogspot.com' alt='' /></div>Yellow Shinohttp://www.blogger.com/profile/10622613356744391469noreply@blogger.com0