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Cas:7440-32-6
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inquiryItems Standard Result Assay 98%min ----------------------------------------------------------------------------------------------
Cas:7440-32-6
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inquiryThe above product is Ality Chemical's strong item with best price, good quality and fast supply. Ality Chemical has been focusing on the research and production of this field for over 14 years. At the same time, we are always committed to providi
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Product Name: Titanium Synonyms: Titanium Wire/Φ0.10mm/ 99.6+%;Titanium Wire/Φ0.25mm/ 99.6+%;37637, Titanium (H);Titanium Wire/Φ0.50mm/ 99.6+%;Titanium cubes;Titanium plate;TITANIUM, WIRE, 0.81MM DIAM., 99.7%;TITANIUM, WIRE, 2.0MM DIAM
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inquiryTitanium Slag CAS: 7440-32-6 Specification Place of Origin:China (Mainland) Grade Standard:Industrial Grade Purity:98%min Appearance:White Powder Application:water treatment Brand Name:Crovell Model Number:98% min color:white pure:98%min P
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Cas:7440-32-6
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Our clients, like BASF,CHEMO,Brenntag,ASR,Evonik,Merck and etc.Appearance:COA Storage:in stock Application:MSDS/TDS
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Cas:7440-32-6
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Hangzhou ZeErRui Chemical Co., Ltd. located in Lingang industrial areas, our plant covers an area of 6000 square meters.ZeErRui dedicated to the development, production and marketing of chemicals. We have earned ourselves a good reputation at home an
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Wuhan Sun-shine Bio-technology Corporation Limited is specializing in the anticancer, antitumor,heart head blood-vessel,pharmaceutical intermediates,fine Chemicals production and customization. Company has strong ability of research and development
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Cas:7440-32-6
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inquiryCompound sourcing ServicesAgency of testing serviceFactory audit serviceFounded in Dec. 1999, Nanjing Chemlin Chemical Industrial Co.,Ltd(CHEMLIN) has been covering the business scope from trading of chemicals to custom-synthesis & Manufacturing. Co
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Titanium (Ti) metal, Ingot, Sponge and Dehydrated powder; 1) powder: S-P#7868: 98.5%, S-P#7869: 99%, S-P#7870: 99.7%, -10, -20,.. -325 mesh; N<0.02 &… Appearance:powder, pieces, discs rods, tube etc. Package:1, 10, 100kgs. bag, carton
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Conditions | Yield |
---|---|
With calcium chloride; calcium oxide In neat (no solvent) mixt. with flux and binder using stirrer; flux was CaCl2 or CaO powder; binder collodion soln. consisted of 5 mass% nitrocellulose in ethanol and ether; | A 99% B n/a |
titanium
Conditions | Yield |
---|---|
With 29.4 percent Na-70.6 percent Ca alloy 83 % pure Ti; | 97% |
With 29.4 percent Na-70.6 percent Ca alloy 83 % pure Ti; | 97% |
With calcium 82.5 % pure Ti; | 95.8% |
Conditions | Yield |
---|---|
With Mg byproducts: MgCl2; under Ar, 700-1060°C; washed with water, aq.HCl, alcohol, dried at 120°C, molten in electric arc oven; | 95.9% |
With methane In gas byproducts: C; Ar; flow-type quartz reactor at 973 K; an aliquot of the chloride was placed in a vaporizer that was at the boiling point of the chloride; together with the methane stream, the chloride was fed from the vaporier to the reactor;; | |
Electrolysis; in salt melt; |
titanium
Conditions | Yield |
---|---|
In melt Electrolysis; Ti dust pellets sintered at 900°C for 2 h; pellet wrapped with Momesh and wires; heated in air at 330°C for 24 h; electrolysis at 3.1 V in molten CaCl2 at 900°C for 12 h (Ar); cathode lifted ffrom molten salt, cooled in Ar stream, washed in distd. water and dreid in air; detn. by SEM, EDX, XRD, oxygen anal.; |
Conditions | Yield |
---|---|
In neat (no solvent) High Pressure; TiO2 and Mg were heated at 750°C for 5 h under autogenic pressure; react. mixt was gradually cooled to room. temp. for 5 h, MgO was removedby aq. AcOH for 1 day, ppt. was centrifugated, washed with water and Et OH, and dried, washe with formic acid for 2 days, washed and dried; | |
With NaCl In neat (no solvent) High Pressure; mixt. of TiO2, magnesium powder, and NaCl pellitized; metallic Ti prepd.by method of self-propogation high-temp. stynthesis in reactor under Ar; detn. by XRD; |
titanium
Conditions | Yield |
---|---|
With sodium purification via TiI4; | |
With Na purification via TiI4; |
titanium
Conditions | Yield |
---|---|
In neat (no solvent) byproducts: H2; decomposition at 850°C; |
Conditions | Yield |
---|---|
In neat (no solvent, solid phase) byproducts: Al, H2, LiCl; mixing of TiCl3 and aluminium compd., ball milling for 20 min in H2; Easton D.S., Schneibel J.H., Speakman S.A. J. Alloys Compd. 2005, 398, 245-248; Balema V., Wiench J.W., Dennis K., Pruski M., Pecharsky V.J. J. Alloys Compd. 2001, 329, 108-114; |
Conditions | Yield |
---|---|
equilibrium; | |
equilibrium; |
Conditions | Yield |
---|---|
With H2 H2-stream, 400 °C; leading over TiCl4-vapour below 350 ° C, treating with alcohol and HCl; |
titanium
Conditions | Yield |
---|---|
vapourized on heating to 1700°C; |
titanium
Conditions | Yield |
---|---|
With K[BEt3H] In tetrahydrofuran byproducts: KCl; under Ar, Schlenk technique; soln. of K(BEt3H) (80 mmol) added dropwise to suspn. of TiCl4*2THF (20 mmol) (room temp., 2 h); stirred (2 h, room temp.); KCl filtered off; solvent removed (vac.); solid dissolved in fresh THF; added to suspn. of SiO2 in THF; stirred (8 h); dried (vac., 24 h); |
titanium
Conditions | Yield |
---|---|
Electrolysis; | |
Electrolysis; |
Conditions | Yield |
---|---|
In 1,2-dimethoxyethane addn. of Mg to suspn. of TiCl3 in DME, refluxing (12 h); |
titanium tetrachloride
magnesium
A
titanium
C
titanium(III) chloride
D
magnesium chloride
Conditions | Yield |
---|---|
In neat (no solvent) Mg film exposing to TiCl4 at 1E-7 and 1E-6 Torr; monitoring by XPS; |
Conditions | Yield |
---|---|
In neat (no solvent) |
Conditions | Yield |
---|---|
With Ti oxide In neat (no solvent) thermite process; exclusion of air; mixture of finely dispersed Al and metal oxide is locally ignited by ignition mixture; strong evolution of heat;; mixture of molten Al2O3 and metal obtained;; | |
With Ti oxide In neat (no solvent) thermite process; exclusion of air; mixture of finely dispersed Al and metal oxide is locally ignited by ignition mixture; strong evolution of heat;; mixture of molten Al2O3 and metal obtained;; |
Conditions | Yield |
---|---|
In solid pressing disks of TiO2 and Al together, heating at 646-1200°C; further products: Ti2O3, TiO, TiAl; not isolated, X-ray diffraction; |
Conditions | Yield |
---|---|
at 950°C in 20 minutes; | |
at 950°C in 20 minutes; |
Conditions | Yield |
---|---|
in electric oven; | |
in electric oven; |
Conditions | Yield |
---|---|
With CaO In melt Electrochem. Process; metalic titanium prepd. by electrochemical redn. of rutile in CaCl2-CaO melt at temp. 840-960°C under Ar in diaphragm electrolyzer; XRD; |
Conditions | Yield |
---|---|
50% excess of Ca; 99% pure Ti; |
Conditions | Yield |
---|---|
byproducts: H2; excess CaH2, Ar or He atm.; evacueted to remove H2 and Ca; |
Conditions | Yield |
---|---|
With hydrogen 600-700°C; washed with 30 % CH3COOH, then 1100°C in vac.; | |
With H2 600-700°C; washed with 30 % CH3COOH, then 1100°C in vac.; | |
With H2 |
Conditions | Yield |
---|---|
With pyrographite Electric Arc; TiO2:C=1:2; 1000-2000 A, 60-70 V; 2% C containing Ti; | |
With C |
titanium
Conditions | Yield |
---|---|
With calcium In further solvent(s) Electrochem. Process; 20 V, 180 A, current density at the cathode 13 A/cm^2 at red heat in CaCl2 bath; prod. containing CaCl2, CaCO3, Fe and TiO2 but free from N and C; | |
With silicon 3 % Fe, 20.4 % Si; | |
With Al In neat (no solvent, solid phase) byproducts: Al2O3; ball milled at room temp. under Ar; XRD; | |
With Ca | |
With Si |
Conditions | Yield |
---|---|
In melt Electrochem. Process; (Ar); TiO2 powder kept in a magnesia holder made the cathode and chargedinto molden LiCl-Li2O at 650 °C at constant current 1.2 A; opera tion voltage lower than decomposition potential of LiCl=-3.46 V but higher than that of Li2O=-2.47 V; |
Conditions | Yield |
---|---|
In neat (no solvent) Ti:1,3-diaminopropane:H3PO4:H2O ratio = 2:2.21:13.65:500, autoclave, pH=2, 170°C (1 d, autogenous pressure); washing (water, alcohol and acetone); elem. anal.; | 100% |
With boric acid; HF In neat (no solvent) Ti:boric acid:H3PO4:1,3-diaminopropane:HF:H2O ratio = 1:6.54:13.65:2.21:3.36:600; |
Conditions | Yield |
---|---|
Inert atmosphere; Electric arc; | 99.9% |
titanium
Conditions | Yield |
---|---|
With nitrogen; hydrogen 1000 °C; 10h 1400 °C; | 99.6% |
With N2; H2 1000 °C; 10h 1400 °C; | 99.6% |
With nitrogen heating in N2 gas, 800 ° C; |
Conditions | Yield |
---|---|
With hydrogen chloride In ethanol argon atmosphere; alcoholic HCl soln. addn. to metal powder, heating (boiling 5-6 h, gentle HCl stream), crystn., crystals transfer into flask with relux condenser, isopropanol addn., mixt. heating (boiling for 4-5 h), crystn. at room temp.; crystals sepn. from mother liquor, residual solvent removal (vac., room temp., 1.5-2 h); elem. anal.; | 99% |
Conditions | Yield |
---|---|
In melt Ti, Cr, and Si were pressed into pellets and arc-melted under Ar; X-ray powder diffraction; | 99% |
Conditions | Yield |
---|---|
In neat (no solvent) byproducts: HF, H2; stirring (4 d); pptn. ((CH3)2O), filtn., washing ((CH3)2O), drying (vac.); | 97% |
Conditions | Yield |
---|---|
In melt Electric arc; Inert atmosphere; | A 97% B n/a |
Conditions | Yield |
---|---|
With Sn In neat (no solvent) other Radiation; mixt. milled for 2 h; coldly pressed into rods; combustion reaction carried out in CO2 laser; XRD; | 95% |
In solid self-propagating high-temperature synthesis; |
Conditions | Yield |
---|---|
In neat (no solvent, solid phase) heating mixture of Li2CO3, TiO2 and (NH4)2HPO4 (ratio 1.40:1.15:2.00) at 350°C overnight and at 550°C for 5h, addn. of Ti, heating at 900°C for 3 days (fused silica tube); | 95% |
Conditions | Yield |
---|---|
In melt equimolar mixt. of Ti, As and Te with LiCl-KCl flux sealed in fused silica tube under 1E-4 Torr of Ar; heated at 923 K for 12 h; kept at 923 K for 72 h; cooled to 298 K (3 K/h); washed with water; dried with acetone; detd. by EDX and X-ray diffraction; | 90% |
Conditions | Yield |
---|---|
In not given 7 d, 600°C; | A n/a B 90% |
selenium
titanium
copper
Conditions | Yield |
---|---|
In neat (no solvent) Cs2Se3, Ti, Cu, and Se in vacumated tube were heated to 823 K ar 1 K/min, kept at 823 K for 2 days, slowly cooled at 0.10 K/min to 373 K, and then cooled to room temp.; washed with DMSO and dried with acetone; elem. anal.; | 90% |
titanium
copper
sulfur
Conditions | Yield |
---|---|
In neat (no solvent) K2S3, Ti, Cu, and S in vacuumated tube were heated to 823 K ar 1 K/min, kept at 823 K for 2 days, slowly cooled at 0.10 K/min to 373 K, and thencooled to room temp.; washed with DMSO and dried with acetone; elem. anal.; | 90% |
Conditions | Yield |
---|---|
In neat (no solvent) Cs2S3, Ti, Ag, and S in vacumated tube were heated to 823 K ar 1 K/min, kept at 823 K for 2 days, slowly cooled at 0.10 K/min to 373 K, and thencooled to room temp.; washed with DMSO and dried with acetone; elem. anal.; | 90% |
Conditions | Yield |
---|---|
In neat (no solvent) Kinetics; other Radiation; prepd. TiC0.4 pressed, placed into evac. chamber on high-current linear electron accelerator with 4 MeV power and 150 μA; irradn. in vac. at 0.7 Mrad/s for 70 s, then 50 Mrad; after 400 s at 873 K cooling to 373 K, added (2)H2 at 2 bar; at 673 K; detd. by X-ray and neutron diffraction; | A 10% B 90% |
Conditions | Yield |
---|---|
In neat (no solvent) Kinetics; other Radiation; mixt. of nominal compn. Ti and C placed into hermetic reactor at const. (2)H2 pressure of 3 bar and ignited locally by heating W spiral; at 200 0 K; detd. by X-ray and neutron diffraction; | A 10% B 90% |
titanium
copper
sulfur
Conditions | Yield |
---|---|
In neat (no solvent) Rb2S3, Ti, Cu, and S in vacuumated tube were heated to 823 K ar 1 K/min,kept at 823 K for 2 days, slowly cooled at 0.10 K/min to 373 K, and the n cooled to room temp.; washed with DMSO and dried with acetone; elem. anal.; | 90% |
Conditions | Yield |
---|---|
In neat (no solvent) Rb2S3, Ti, Ag, and S in vacuumated tube were heated to 823 K ar 1 K/min,kept at 823 K for 2 days, slowly cooled at 0.10 K/min to 373 K, and the n cooled to room temp.; washed with DMSO and dried with acetone; elem. anal.; | 90% |
Conditions | Yield |
---|---|
In neat (no solvent) sealed quartz tube (720°C, 60 h), cooling to room temp. within 3 h; | 90% |
Conditions | Yield |
---|---|
In neat (no solvent) molar ratio Ti:P2Se5:K2Se:Se=1:3:2:10, sealed Pyrex tube (vac.), 490°C, 4 d; cooling to 150°C at 4°C/h; washing (DMF); | 88% |
Conditions | Yield |
---|---|
In neat (no solvent) molar ratio Ti:P2Se5:Rb2Se:Se=1:3:2:10, sealed Pyrex tube (vac.), 490°C, 4 d; cooling to 150°C at 4°C/h; washing (DMF); | 88% |
Conditions | Yield |
---|---|
In melt Electric Arc; arc melting in water-cooled Cu crucible under Ar using W tip as second electrode; powders pressed into pellet, arc melted for 20 s using direct current of 40 A under Ar; remelted several times; | 87% |
Conditions | Yield |
---|---|
In melt Electric Arc; arc melting in water-cooled Cu crucible under Ar using W tip as second electrode; powders pressed into pellet, arc melted for 20 s using direct current of 40 A under Ar; remelted several times; | 86% |
Conditions | Yield |
---|---|
In neat (no solvent) mixt. of Ti, S, Li2S, Na2S loaded into silica tube under Ar atm. in glove box; tube sealed under E-4 Torr atm.; placed in furnace; heated to 723K in 24 h; kept at 723 K for 72 h; cooled at 3.5 K/h to 373 K; furnace turned off; washed (DMF); dried (acetone); | 85% |
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