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Page title matches

• Hartshorn powder
  292 bytes (36 words) - 16:41, 3 August 2022
• Crocus powder
  A fine, abrasive powder composed of synthetic iron oxide (Fe2O3). Crocus is similar to rouge except
  363 bytes (48 words) - 14:09, 7 July 2022
• Chestnut powder
  ...een used like flour in bread, cookies and other recipes. In addition, the powder can be used to starch and bleach fabrics.
  511 bytes (81 words) - 12:54, 28 May 2022
• Silver powder
  2) A silver colored powder composed of [[bismuth|bismuth]], [[tin|tin]], and [[mercury|mercury]] used
  891 bytes (117 words) - 12:21, 31 May 2022
• Putty powder
  ...eo.mfa.org/materials/fullrecord.asp?name=stannic%20oxide tin oxide]. Putty powder was used for polishing glass and marble.
  958 bytes (118 words) - 13:32, 10 September 2022
• Powder coating
  ...eparation used to evenly coat metallic pieces without the use of solvents. Powder coatings were introduced about 1960 but only became popular when solvents w thermosetting powder (AAT preferred)
  961 bytes (134 words) - 13:52, 22 October 2022
• Plate powder
  371 bytes (49 words) - 09:22, 26 July 2022
• Lime powder
  96 bytes (12 words) - 11:20, 8 September 2022
• Gold powder
  ...by electrolytic methods. In the Middle Ages, the most common use for gold powder was as an [[ink]] and [[paint]] on illuminated manuscripts. It is now prim
  1 KB (172 words) - 14:53, 25 July 2022
• Cellulose powder
  [[File:methyl.cellulose.powder.jpg|thumb|Methyl cellulose powder]]
  352 bytes (40 words) - 19:06, 12 January 2014
• Bronze powder
  [[File:image8_bronzepowder.jpg|thumb|Bronze powder]] ...allic alloys of [[bronze]] (copper-zinc) or [[brass]] (copper-tin). Bronze powder was used as a pigment in lacquers and varnishes to produce bronzing liquid
  1 KB (195 words) - 07:55, 14 August 2020
• Bleaching powder
  ...] mixture containing calcium hypochlorite and calcium chloride. Bleaching powder was the primary bleaching agent until 1925 when liquid chlorine bleaches (s
  1 KB (160 words) - 16:00, 8 May 2022
• Aluminum powder
  ...luminum]] or an aluminum alloy that are used for metallic paints. Aluminum powder is made by grinding sheets of aluminum to form thin shiny flakes. It was pr aluminum bronze powder; aluminum metal pigment; poudre d'aluminium (Fr.); polvere d'alluminio (It.
  2 KB (223 words) - 11:35, 26 April 2022
• Milk acid powder
  20 bytes (2 words) - 03:06, 10 February 2016
• Lascaux Welding Powder
  ...ot-melt adhesive composed of nylon 12 thermoplastic resin. Lascaux Welding Powder #5065 is used for mending tears in textile, canvas, and leather products. Lascaux Polyamide Textile Welding Powder No. 5065
  1 KB (142 words) - 16:15, 29 September 2022
• 1.01.16 Wampum Powder
  |Wampum Powder
  1 KB (136 words) - 13:10, 10 June 2018
• 6.03.41 Madder Powder
  0 bytes (0 words) - 12:14, 4 May 2013
• Opaline Dry Cleaning Powder
  [Durasol Chemical] A brand name for a dry cleaning powder that is composed of fine-grain [[cerium%20oxide|cerium oxide]]. Opaline has
  297 bytes (38 words) - 16:20, 22 September 2022
• 10.17 Clam Shell Powder
  |Clam Shell Powder, ground and gifted by RF Smith
  879 bytes (108 words) - 12:15, 4 May 2013
• 6.03.x Sang de dragon en powder
  |Sang de dragon en powder, Le Franc, 1927
  630 bytes (85 words) - 12:12, 4 May 2013
• 6.20.04 Sangomatsu (coral powder) derived from natural coral
  |Sangomatsu (coral powder) derived from natural coral
  802 bytes (94 words) - 12:16, 4 May 2013

Page text matches

• Document Cleaning Pads
  ...n be brushed away. The powder is also sold separately as Document Cleaning Powder. Lineco's Document Cleaning pads; Document Cleaning Powder
  740 bytes (97 words) - 14:25, 22 July 2022

• Indigo powder.jpg Indigo powder (''Indigofera tinctoria'') Photomacrograph of indigo powder from the Botanical Museum, Harvard University. (1,200 × 900 (139 KB)) - 11:17, 27 October 2020

• SnO2powder-wiki.jpg Tin (IV) oxide powder ...wikipedia.org/wiki/Tin(IV)_oxide#/media/File:SnO2powder.jpg Tin (IV) oxide powder] (Accessed May 2023) (600 × 382 (44 KB)) - 07:57, 19 May 2023

• Lascaux Welding Powder
  ...ot-melt adhesive composed of nylon 12 thermoplastic resin. Lascaux Welding Powder #5065 is used for mending tears in textile, canvas, and leather products. Lascaux Polyamide Textile Welding Powder No. 5065
  1 KB (142 words) - 16:15, 29 September 2022
• Gold ink
  ...d powder|powdered gold]]. Currently, gold ink is prepared with a [[bronze powder]].
  716 bytes (95 words) - 13:47, 25 July 2022
• Gunpowder
  [[File:gunpowdervt.jpg|thumb|Smokeless powder]] ...ora (Esp.); krutt (Nor.); buskruit (Ned.); proch (Pol.); krut (Sven.); gun powder
  1 KB (139 words) - 14:35, 27 August 2022

• Mica powder.jpg Mica powder (1,400 × 1,400 (397 KB)) - 23:42, 26 March 2024

• Chestnut powder
  ...een used like flour in bread, cookies and other recipes. In addition, the powder can be used to starch and bleach fabrics.
  511 bytes (81 words) - 12:54, 28 May 2022
• Dry size
  A powder size, typically made of albumen, used in gold tooling of leather and fabric blocking powder
  436 bytes (56 words) - 13:30, 24 July 2022

• Brass powder.jpg Brass powder (2,700 × 2,700 (679 KB)) - 23:32, 26 March 2024

• Lime, chlorinated
  A white powder that is used to bleach textiles. Chlorinated lime is also used as a disinfe chloride of lime; bleaching powder
  448 bytes (61 words) - 11:31, 8 September 2022
• Gold paint
  A decorative metallic paint prepared with [[gold powder]], [[bronze powder]] or titanated mica metallic pigments.
  498 bytes (63 words) - 13:51, 25 July 2022
• Magistry of bismuth
  ...es were standardized (Schur 1985). It was also known as pearl white, pearl powder, and Spanish white. bismuth nitrate; pearl white; pearl powder; Spanish white; bismuth white
  585 bytes (77 words) - 13:02, 16 October 2022
• Silica dust
  A finely ground powder of [[quartz|quartz]] (crystalline [[silica|silica]]). Silica dust is made b Dri-die; silica flour; silica powder; Silex; poudre de silice (Fr.); pó de sílica (Port.); Siliziumdioxidpulve
  599 bytes (78 words) - 08:48, 31 May 2022
• Chromium naphthenate
  A dark green or violet powder. Chromium naphthenate is used as an antichalking agent in paints.
  168 bytes (22 words) - 15:26, 29 May 2022
• Lime hydrate
  ...r hydrated, to form [[calcium hydroxide]], then dried and ground to a fine powder.
  188 bytes (25 words) - 14:58, 7 October 2022

• Epoxy bracelet 2006.628.png Epoxy resin and enamel powder (1,600 × 1,240 (1.57 MB)) - 10:13, 4 July 2020

• Gold powder
  ...by electrolytic methods. In the Middle Ages, the most common use for gold powder was as an [[ink]] and [[paint]] on illuminated manuscripts. It is now prim
  1 KB (172 words) - 14:53, 25 July 2022
• Explosive
  ...ycerin]], [[Greek fire]], [[napalm]], [[dynamite]], [[fulminate]], priming powder, tinder. gunpowder; TNT; priming powder; nitroglycerin; Greek fire; napalm; tinder; dynamite; fulminate
  848 bytes (94 words) - 10:54, 7 August 2022
• Rice flour
  A fine carbohydrate powder made from ground rice grains obtained from ''Oryzo sativa'' grass. Rice flo rice powder; harina de arroz (Esp.); farine de riz (Fr.); farina di riso (It)
  774 bytes (107 words) - 15:09, 15 October 2020
• Metallic pigment
  ...onductivity. [[Bronze%20powder|Bronze]] and [[aluminum%20powder|aluminum]] powder are used most frequently. ...tal pigment; pigment métallique (Fr.); pigmento metálico (Port.); aluminum powder
  1 KB (183 words) - 10:40, 23 August 2022
• Powder coating
  ...eparation used to evenly coat metallic pieces without the use of solvents. Powder coatings were introduced about 1960 but only became popular when solvents w thermosetting powder (AAT preferred)
  961 bytes (134 words) - 13:52, 22 October 2022
• Blood glue
  ...soluble dark red powder. It contains serum, [[albumin]], and globulin. The powder is dissolved in water, then activated by the addition of an alkali, such as * Dried powder can develop a strong static charge.
  1 KB (193 words) - 16:17, 8 May 2022
• Bronze powder
  [[File:image8_bronzepowder.jpg|thumb|Bronze powder]] ...allic alloys of [[bronze]] (copper-zinc) or [[brass]] (copper-tin). Bronze powder was used as a pigment in lacquers and varnishes to produce bronzing liquid
  1 KB (195 words) - 07:55, 14 August 2020
• Bronzing liquid
  ...yl acetate]], and/or [[cellulose nitrate]] lacquer as the medium. [[Bronze powder]] is not considered a permanent pigment (Mayer 1969). It produces a dull, g
  961 bytes (128 words) - 12:19, 10 May 2022
• Magnesium stearate
  A soft, white powder. Magnesium stearate is used as a dusting powder, a [[flatting%20agent|flatting agent]], and a [[drier|drier]] in [[paint|pa
  1,016 bytes (129 words) - 14:25, 16 October 2022

• Hydroxyapatite.png Description: Pale pink consolidated powder (650 × 250 (10 KB)) - 14:02, 2 December 2022

• Shell gold
  ...bindings. It was traditionally stored in mussel [[shell|shells]]. The gold powder was prepared by grinding [[gold%20leaf|gold leaf]] in [[honey|honey]].
  1 KB (136 words) - 15:48, 30 May 2022
• Antimony oxychloride
  White, crystalline powder originally named after the 16th century Italian physician, Vittorio Algarot antimony chloride oxide; basic antimony chloride; powder of Algaroth; Mercurius vitae
  1 KB (130 words) - 14:33, 27 April 2022
• Calcium chloride hypochlorite
  A fine white powder that is a strong oxidizing bleach. Calcium chloride hypochlorite is prepare chlorinated lime; bleaching powder
  1 KB (151 words) - 13:32, 18 May 2022
• Opaline Dry Cleaning Powder
  [Durasol Chemical] A brand name for a dry cleaning powder that is composed of fine-grain [[cerium%20oxide|cerium oxide]]. Opaline has
  297 bytes (38 words) - 16:20, 22 September 2022
• Reckitt's Blue
  ...bic]] and/or [[starch|starch]]. Currently, Reckitt's sells Liquid Blue and Powder Blue sachets both of which contain synthetic ultramarine blue. Dolly Blue; Robin Blue powder; laundry blue; blueing agent; bluing; washing blue
  1 KB (149 words) - 17:08, 4 August 2022
• Aluminum hydroxide
  A white translucent powder more correctly called [[alumina%20trihydrate|alumina trihydrate]].
  239 bytes (25 words) - 12:33, 7 January 2014
• Ceriorouge
  A commercially prepared abrasive powder composed of [[cerium oxide]]. Ceriorouge is primarily used for polishing g
  310 bytes (35 words) - 10:34, 24 May 2022
• Aluminum paste
  Aluminum powder ground in oil for use in [[aluminum%20paint|aluminum paint]].
  273 bytes (33 words) - 11:31, 26 April 2022
• Pearl white
  ...bismuth oxychloride]], and for a [[calcium%20carbonate|calcium carbonate]] powder obtained from pulverizing and calcining [[mother-of-pearl|mother-of-pearl]] blanc perlé (Fr.); branco de pérola (Port.); pearl powder; Spanish white
  1 KB (145 words) - 10:46, 4 August 2022
• Polythene
  ...osed of [[polyethylene|polyethylene]]. Polythene® is available as molding powder, rods, sheets, tubes and foil for packaging and paper coatings.
  358 bytes (44 words) - 12:26, 27 September 2022
• Cocoa
  ...proportion of oils called cocoa butter (see [[theobroma oil]]). The dried powder has also been used as a brown fabic dye, through extraction with boiling wa
  2 KB (222 words) - 13:01, 22 June 2022
• Cartridge cloth
  A thin, strong fabric made from silk. Cartridge cloth was used to make powder bags for large-caliber guns because it was completely consumed in the heat
  346 bytes (47 words) - 15:39, 20 May 2022
• Pearl starch
  ...conglomerated into small globules or pearls. Most starches are ground to a powder prior to use.
  325 bytes (43 words) - 10:46, 4 August 2022
• Marble dust
  ...|inert pigment]] and [[filler|filler]] in [[paint|paints]]. Even as a fine powder, some of the crystalline surfaces reflect light adding a sparkle to regions
  1 KB (171 words) - 11:58, 17 October 2022
• Oxygen scavenger
  ...t low humidity, sodium chloride can initiate the oxidation reaction. Iron powder can reduceoxygen levels to below 0.01% in an air-tight container.
  1 KB (184 words) - 16:29, 19 July 2023
• Platinum black
  A fine black powder composed of metallic platinum. Platinum black is used as a catalyst and ga
  254 bytes (34 words) - 09:31, 26 July 2022

• PLM starch particle with lake PPL 400x.jpg Sample from object CWF1950-593, Tooth cleaning powder in oval paper box, French, c.1750-1830 (997 × 758 (27 KB)) - 13:57, 27 September 2017

• Crocus powder
  A fine, abrasive powder composed of synthetic iron oxide (Fe2O3). Crocus is similar to rouge except
  363 bytes (48 words) - 14:09, 7 July 2022
• Bleaching powder
  ...] mixture containing calcium hypochlorite and calcium chloride. Bleaching powder was the primary bleaching agent until 1925 when liquid chlorine bleaches (s
  1 KB (160 words) - 16:00, 8 May 2022

• PLM2 starch particle with lake XPL 400x.jpg Sample from object CWF1950-593, Tooth cleaning powder in oval paper box, French, c.1750-1830 (875 × 700 (388 KB)) - 13:58, 27 September 2017

• Antimony black
  ...paint in Egypt from the Amarna period onwards (Ogden 2000). Antimony black powder was used since the late 17th century to blacken the edges of books (Roberts
  1 KB (190 words) - 14:19, 27 April 2022
• Metallic paper
  ...adhering [[aluminum%20powder|aluminum powder]] or [[bronze%20powder|bronze powder]] with [[lacquer%2C%20synthetic|lacquer]]. Alternatively, a metal layer (e.
  1 KB (192 words) - 10:37, 23 August 2022
• Chromic phosphate
  ...phosphate is a violet powder. The hemiheptahydrate form is a bluish green powder that has been used as a paint pigment called Arnaudon's green and Plessy's
  1 KB (169 words) - 15:18, 29 May 2022
• Cellulose powder
  [[File:methyl.cellulose.powder.jpg|thumb|Methyl cellulose powder]]
  352 bytes (40 words) - 19:06, 12 January 2014
• Potassium gold chloride
  Yellow crystalline powder. Potassium gold cyanide is used in photography and paints for [[porcelain]
  422 bytes (50 words) - 13:53, 25 July 2022
• Smut
  ...n seeds, leaves, stems, flower parts, and bulbs. The sori release a black powder of spores that is readily dispersed in the air.
  415 bytes (63 words) - 12:15, 10 May 2016
• Hartshorn
  ...Hartshorn was a chemical leavener for cooking that was used before baking powder and baking soda became available.
  2 KB (280 words) - 16:38, 3 August 2022

• ChartImageLarge 2573.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (22 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2667.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2598.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2577.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2627.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2505.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (38 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2626.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (40 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2593.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2611.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2514.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (19 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2597.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2591.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2657.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2623.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (35 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2615.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2680.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2590.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (38 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2612.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2502.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2509.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2676.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (22 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2563.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2674.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2506.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (40 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2609.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2504.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2592.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2581.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2570.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2583.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2565.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2634.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2493.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (25 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2682.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (25 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2601.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2530.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2566.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2567.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (40 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2538.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2542.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2640.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2643.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2633.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2521.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (19 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2596.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2630.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2571.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (40 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2510.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (39 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2534.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2613.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2551.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2545.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2681.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2653.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2569.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (35 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2631.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2618.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2647.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2620.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2602.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (25 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2559.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (22 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2532.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2575.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2604.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2544.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2589.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2644.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2564.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (20 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2683.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (25 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2656.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (25 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2584.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2650.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2658.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2632.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2655.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2646.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2637.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (35 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2499.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2556.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2599.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2638.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2666.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (22 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2533.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (19 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2519.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2605.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2624.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2586.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2600.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2659.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2536.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (36 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2639.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2568.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2628.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2678.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2671.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (19 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2673.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2635.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2511.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (41 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2663.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2531.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2578.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (43 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2616.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (37 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2585.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2561.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2552.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (20 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2629.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2560.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2642.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2651.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2579.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2503.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (35 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2621.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2661.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2594.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2516.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (22 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2625.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2558.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2587.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2607.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (25 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2662.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (36 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2546.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (22 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2645.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2684.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2522.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (20 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2665.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (32 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2677.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2543.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2529.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2668.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2654.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2660.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2610.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2497.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2617.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2517.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (20 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2603.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2670.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2649.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2614.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2562.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (25 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2595.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2652.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2520.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (20 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2501.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (36 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2669.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (22 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2648.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2547.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (31 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2588.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (29 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2622.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2512.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2641.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2619.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2508.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (37 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2548.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (19 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2535.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (19 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2672.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2636.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (33 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2549.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (20 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2507.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (34 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2513.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (28 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2572.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (17 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2679.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (26 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2608.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (24 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2527.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (23 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2557.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2675.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (27 KB)) - 10:34, 4 May 2013

• ChartImageLarge 2606.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (21 KB)) - 10:33, 4 May 2013

• ChartImageLarge 2664.jpg ...our exposure using 35 kV and 25 mA. The reference spectrum is a JCPDS-ICDD Powder Diffraction File (with PDF#) obtained via search routine using Jade 5.0 sof (620 × 480 (30 KB)) - 10:34, 4 May 2013

• Magnesium sulfite
  A white crystalline powder that is used in the manufacture of paper pulp by the sulfite process. See [
  477 bytes (65 words) - 14:27, 16 October 2022
• Potassium gold cyanide
  White crystalline powder. Potassium gold cyanide is used in electrogilding.
  504 bytes (57 words) - 13:56, 25 July 2022
• Shell silver
  ...ercolor%20paint|watercolor paint]] made by mixing [[silver%20powder|silver powder]] with [[gum%20arabic|gum arabic]]. Shell silver was an expensive paint us
  490 bytes (65 words) - 15:49, 30 May 2022
• Sepiolite
  ...ed of ground [[cuttlebone|cuttlefish bones]]. Sepiolite, also called sepia powder, is composed of [[calcium%20carbonate|calcium carbonate]] and [[calcium%20p 2) sepia powder; sepiolita (Esp.); sepiolite (Fr.); Sepiolit (Deut.); Meerschaum (Deut.)
  2 KB (281 words) - 15:27, 23 October 2022
• Dichlorodimethylhydantoin
  ...] smell. Dichlorodimethylhydantoin is a chlorinating agent that is used in powder type household bleaches (Sage's Dry Bleach, Colgate's Pruf). When kept dry,
  1 KB (193 words) - 10:38, 21 July 2022
• Calcium hydroxyapatite
  ...ydroxyapatite is used in the manufacture of [[milk glass]], as a polishing powder, as a mordant and as a buffer.
  1 KB (195 words) - 14:06, 2 December 2022
• Xylamon
  ...cide]] that was discontinued in the 1980s. Xylamon® was sold as a spray or powder and is primarily used for woodworms.
  722 bytes (92 words) - 11:57, 22 June 2022
• Xerography toner
  ...ive, toner is composed of finely-divided, charged particles of a pigmented powder in a synthetic resin. The image is fixed by fusing the toner to the substra
  2 KB (203 words) - 12:06, 22 June 2022
• ATCO Oxygen Absorber
  [EMCO] A registered trademark for an oxygen absorbing powder. ATCO® Oxygen Absorber can reduce the oxygen concentration to below 0.1% i
  457 bytes (54 words) - 12:24, 18 April 2022
• Chromium dioxide
  A black powder. Chromium dioxide is a semiconductor and has strong magnetic properties.
  486 bytes (68 words) - 15:25, 29 May 2022
• Lead sulfite
  A white powder that is used commercially in photoconductive infrared detectors.
  580 bytes (71 words) - 10:27, 7 October 2022
• Atco oxygen absorber
  [EMCO Technologies] A registered trademark for an oxygen absorbing powder. ATCO® Oxygen Absorber can reduce the oxygen concentration to below 0.1% i
  513 bytes (59 words) - 14:17, 30 April 2022
• Frit
  ...e melted material is cooled to a vitreous mass then pulverized into a fine powder. When heated, frit will turn into a glassy film. Frits are used on industri
  1 KB (199 words) - 13:47, 26 August 2022
• Rye flour
  A powder obtained from a cereal grain from the ''Secale'' cereals plant. Rye was fi
  470 bytes (65 words) - 11:28, 28 June 2022
• Green rouge
  A fine green powder composed of [[Chromic oxide|chromic oxide]] that has been used as an abrasi
  623 bytes (82 words) - 15:59, 7 August 2022
• Liquid Bright Gold
  ...rganic|enameled metal]], or [[glass]]. Liquid bright gold contains [[gold powder|powdered gold]] dispersed in an aqueous medium with a flux of [[borax]]. I
  574 bytes (78 words) - 15:03, 7 October 2022
• Nickel dimethylglyoxime
  Bright red crystalline powder. Nickel dimethylglyoxime is used as a lightfast red pigment in paints, var
  793 bytes (99 words) - 13:26, 23 August 2022
• Chymotrypsin
  ...obtained from the pancreas of oxen and sold as a yellowish white amorphous powder. Chymotrypsin has been used for debridement and other types of cleaning.
  757 bytes (93 words) - 10:15, 30 May 2022
• Bismuth oxychloride
  White lustrous crystalline powder. Bismuth oxychloride is a pearlescent powder that is used to give cosmetics a frosty appearance. It is also used in synt
  2 KB (195 words) - 16:06, 7 May 2022
• Aluminum powder
  ...luminum]] or an aluminum alloy that are used for metallic paints. Aluminum powder is made by grinding sheets of aluminum to form thin shiny flakes. It was pr aluminum bronze powder; aluminum metal pigment; poudre d'aluminium (Fr.); polvere d'alluminio (It.
  2 KB (223 words) - 11:35, 26 April 2022
• Paraloid
  | A-11 || MMA || 125,000 || 10 || 100% solids, powder, hard resin || resistant to water and alcohol; coatings | B-66 || MMA/BMA || 70,000 || 50 || 100% solids, powder || general purpose, fast solvent release
  3 KB (332 words) - 16:12, 21 October 2022
• Talcum
  2) A perfumed dusting powder, usually made with powdered talc.
  554 bytes (65 words) - 14:18, 7 June 2022
• Kohl
  A fine black powder composed of [[antimony trisulfide]]. Kohl was used as a cosmetic to darken
  618 bytes (76 words) - 14:11, 11 August 2020
• Hafnium
  * Powder is explosive in air. ...a-Aldrich: [https://www.sigmaaldrich.com/US/en/product/aldrich/266752 SDS (powder)]
  2 KB (232 words) - 13:47, 30 August 2022
• Potassium bisulfite
  White, crystalline powder. Potassium bisulfite is used as a reducing agent in chemical reactions. I
  529 bytes (71 words) - 08:11, 26 July 2022
• Seitai (Indigo) - left (273 L)
  | a type of chinese medicine, containing indigo compound / powder
  815 bytes (109 words) - 10:21, 26 June 2020
• X-ray diffraction
  ...e primary XRD reference collection is produced by JCPDS (Joint Committe on Powder Diffraction Standards) in conjunction with the International Centre for Dif
  2 KB (288 words) - 14:52, 27 June 2022
• Polish (material)
  A liquid or powder used to smooth and shine a surface. [[Metal%20cleaner|Metal polishes]] ofte polisher; polishing powder; buffing compound
  2 KB (222 words) - 11:09, 22 October 2022

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