TiBrasil Titânio Ltda.

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Benvindo à Tibrasil Titânio Ltda. - A Especialista em Titânio - The Titanium Specialist - Tecnologia em Titânio ao seu inteiro dispor - The South America Leader in Titanium - A Tibrasil Titânio Ltda. é membro da ITA - International Titanium Association - Estoque Permanente de Titânio - Confecção de Equipamentos, Peças em Titânio, Serviços de Soldagem em Titânio, Serviços de Campo - Linha Completa de Componentes de Titânio - Consulte-nos! - Estamos à sua disposição! -

 

 

O que é o Titânio? - Dados Técnicos/Tabela de Corrosão

PRODUTO EM CONTATO
MEDIA

CONCENTRAÇÃO
CONCENTRATION

C

TEMPERATURA
TEMPERATURE
DEG F
(CELSIUS)
VELOCIDADE
DE CORROSÃO
POR ANO
RATE  MILS/YR
(MM/ANO)
Acetaldehyde 75 300(149) 0.02(0.001)
100 300(149) nil
Acetate, n-propyl - 188(87) nil
Acetic acid 5 to 99.7 255(124) nil
33-vapor boiling nil
65 250(121) 0.1(0.003)
58 266(130) 15.0(0.381)
Acetic acid 99.7 255(124) 0.1(0.003)
Acetic acid + 31.2 boiling 10.2(0.259)
109 ppm Cl
Acetic acid + 62.0 boiling 10.7(0.272)
106 ppm Cl
Acetic anhydride 99.5 boiling 0.5(0.013)
Acidic gases - 100-500 <1.0 (<0.025)
containing CO2,H2O, (38-260)
Cl2, SO2, SO3,
H2S, O2, NH3,
Adipic acid + 15-20% 25 390 (199) nil
glutaric + 2%
acetic acid
Adipic acid 67 450(232) nil
Adipyl chloride (acid - - nil
chlorobenzene
solution)
Adiponitrile vapor 700(371) 0.3(0.008)
Aluminum chloride, 10 212(100) 0.09(0.002)*
aerated
Aluminum chloride, 25 212(100) 124(3.15)*
aerated
Aluminium chloride 10 302(150) 1.3(0.033)*
non-aerated
25 212(100) 258(6.55)*
Aluminum molten 1250(677) 6480(164.6)
Aluminum Fluoride saturated room nil
Aluminum nitrate saturated room nil
Aluminum sulfate saturated room nil
Aluminum sulfate + saturated room nil
1% H2SO4
Amines, synthesis - 300-400 15(0.381)
of organic (149-204)
Ammonium acid 10 room nil
phosphate
Ammonium aluminum molten 662-716 very rapid
chloride (350-380)
Ammonia anhydrous 100 104(40) <5.0(<0.127)
Ammonia, steam, water - 431(222) 440(11.2)
Ammonium acetate 10 room nil
Ammonium bicarbonate 50 212(100) nil
Ammonium bisulfite, spent 159(71) 0.6(0.015)
pH2.05 pulping
liquor
Ammonium carbamate 50 212(100) nil
Ammonium chloride saturated 212(100) 0.5(0.013)
Ammonium chlorate 300 g/l 122(50) 0.1(0.003)
(+215-250 g/l NaCl)
(+36g/l NaClO4)
Ammonium fluoride 10 room 4.0(0.102)
Ammonium hydroxide 28 room 0.1(0.003)
Ammonium nitrate 28 boiling nil
Ammonium nitrate + 28 boiling nil
1% nitric acid
Ammonium oxalate saturated room nil
Ammonium perchlorate 20 190(88) nil
Ammonium sulfate 10 212(100) nil
Ammonium sulfate + saturated room 0.4(0.010)
1%H2SO4
Aniline 100 room nil
Aniline + 2%AlCl3 98 316(158) >50(>1.27)
Aniline + 2%AlCl3 98 600(316) 840(21.3)
Aniline hydrochloride 5 212(100) nil
Aniline hydrochloride 20 212(100) nil
Antimony trichloride 27 room nil
Aqua regia 3:1 room nil
Aqua regia 3:1 175(79) 34.8(0.884)
Arsenous oxide saturated room nil
Barium carbonate saturated room nil
Barium chloride 5 212(100) nil
Barium chloride 20 212(100) 0.01(0.000)
Barium chloride 25 212(100) nil
Barim hydroxide saturated room nil
Barium hydroxide 27 boiling some
small pits
Barium nitrate 10 room nil
Barium fluoride saturated room nil
Benzaldehyde 100 room nil
Benzene(traces of HCl) vapor & 176(80) 0.2(0.005)
liquid
Benzene + trace HCl) liquid 122(50) 1.0(0.025)
Benzene liquid room nil
Benzene+traceHCl - 176(80) 0.2(0.005)
NaCl and CS2
Benzoic acid saturated room nil
Bismuth molten 1500(816) high
Bismuth/lead molten 572(300) good
resistance
Boric acid saturated room nil
Boric acid 10 boiling nil
Bromine liquid 86(30) rapid
Bromine, moist vapor 86(30) <0.1(<0.003)
Bromine, gas dry - 70(21) dissolves
rapidly
Bromine - water - room nil
solution -
Bromine-menthyl 500 ppm 140(60) 1.2(0.030)some
Alcohol solution cracking
Bromine in 5 - 757(19.2)
methyl alcohol
N-butyric acid undiluted room nil
Calcium bisulfite cooking 79(26) 0.02(0.001)
liquor
Calcium carbonate saturated boiling nil
Calcium chloride 5 212(100) 0.02(0.005)*
Calcium chloride 10 212(100) 0.29(0.007)*
Calcium chloride 20 212(100) 0.61(0.015)*
Calcium chloride 55 220(104) 0.02(0.001)*
Calcium chloride 60 300(149) <0.1(<0.003)*
Calcium chloride 62 310(154) 2.0 and 16
(0.051 and 0.406)*
Calcium chloride 73 350(177) 84(2.13)*
Calcium hydroxide saturated room nil
Calcium hydroxide saturated boiling nil
Calcium hypochlorite 2 212(100) 0.05(0.001)
Calcium hypochlorite 6 212(100) 0.05(0.001)
Calcium hypochlorite 18 70(21) nil
Calcium hypochlorite saturated - nil
- slurry
Carbon dioxide 100 - excellent
Carbon tetrachloride 99 boiling 0.18(0.005)
Carbon tetrachloride liquid boiling nil
Carbon tetrachloride vapor boiling nil
Chlorine gas, wet >0.7H2 O room nil
Chlorine gas,wet >0.95 H20 284(140) nil
Chlorine gas,wet >1.5 H2O 392(200) nil
Chlorine gas,wet liquid room nil
water on - -
surface - -
Chlorine saturated saturated 207(97) nil
water
Chrorine header sludge - 207(97) 0.03(0.001)
and wet chlorine
Chlorine gas, dry <0.5 H2O room may react
Chlorine dioxide 5 in steam 180(82) <0.1(<0.003)
gas + H2O
- and air - -
Chlorine dioxide 15 + some 110(43) nil
- HOCl and -
wet Cl2
Chlorine dioxide 5 210(99) nil
In steam
Chlorine monoxide up to 15 110(43) nil
+ some
HOCl,Cl2
& H2O
Chlorine trifluoride 100 86(30) vigorous
reaction
Chloracetic acid 30 180(82) <5.0(<0.127)
Chloracetic acid 100 boiling <5.0(<0.127)
Chlorosulfonic acid 100 room 7.5-12.3(0.191-0.312)
Chloroform vapor & boiling 0.01(0.000)
liquid
Chloropicrin 100 203(95) 0.1(0.003)
Chromic acid 10 boiling 0.1(0.003)
Chromic acid 15 75(24) 0.2(0.006)
Chromic acid 15 180(82) 0.6(0.015)
Chromic acid 50 75(24) 0.5(0.013)
Chromic acid 50 180(82) 1.1(0.028)
Chromium plating bath 240 g/l
containing fluoride plating salt 171(77) 58.3(1.48)
Chromic acid + 5 70(21) <0.1(<0.003)
5%nitric acid
Citric acid 10 212(100) 0.36(0.009)
Citric acid 25 212(100) 0.03(0.001)
Citric acid 50 140(60) 0.01(0.000)
Citric acid 50 212(100) <5.0(<0.127)
aerated
Citric acid 50 boiling 5-50(0.127-1.27)
Citric acid 62 300(149) corroded
Copper nitrate saturated room nil
Copper sulfate 50 boiling nil
Copper sulfate + saturated room 0.7(0.018)
2%H2SO4
Cupric carbonate + saturated ambient nil
cupric hydroxide
Cupric chloride 20 boiling nil
Cupric chloride 40 boiling 0.2(0.005)
Cupric chloride 55 246(119) 0.1(0.003)
(boiling)
Cupric cyanide saturated room nil
Cuprous chloride 50 194(90) <0.1(<0.003)
Cyclohexylamine 100 room nil
Cyclohexane (plus - 302(150) 0.1(0.003)
traces of formic acid)
Dichloroacetic acid 100 212(100) <0.5(<0.013)
Dichloroacetic acid 100 boiling 0.29(0.007)
Dichlorobenzene + - 355(179) 4(0.102)
4-5% HCl
Diethylene triamine 100 room nil
Ethyl alcohol 95 boiling 0.5(0.013)
Ethyl alcohol 100 room nil
Ethylene dichloride 100 boiling 0.2-5.0(0.005-0.127)
Ethylene diamine 100 room nil
Ferric chloride 10-20 room nil
Ferric chloride 10-30 212(100) <0.5(<0.127)
Ferric chloride 10-40 boiling nil
Ferric chloride 50 236(113) nil
boiling
Ferric chloride 50 302(150) 0.1(0.003)
Ferric sulfate .9H2O 10 room nil
Ferrous chloride + 30 175(79) 0.2(0.006)
0.5%HCl + 3%
resorcinal pH 1
Ferrous sulfate saturated room nil
Fluoroboric acid 5-20 elevated rapid
Fluorine, commercial gas-liquid gas-109 18-34(0.457-0.864)
alternated liquid(43)
-320(-196)
Fluorine, HF free 12liquid -320(-196) 0.08(0.002)
12gas
Fluorine,HF free liquid -320(-196) <0.43(0.011)
Fluorine,HF free gas -320(-196) 0.42(0.011)
Fluorosilicic acid 10 room 1870(47.5)
Food products - ambient no attack
Formaldehyde 37 boiling nil
Formamide vapor - 572(300) nil
Formic acid, aerated 10 212(100) 0.18(0.005)**
Formic acid aerated 25 212(100) 0.04(0.001)**
Formic acid aerated 50 212(100) 0.04(0.001)**
Formic acid aerated 90 212(100) 0.05(0.001)**
Formic acid 10 212(100) >50(>1.27)**
non-aerated
Formic acid, 25 212(100) 96(2.44)**
non aerated
Formic acid 50 boiling 126(3.20)**
non aerated
Formic acid 90 212(100) 118(300)**
non aerated
Formic acid 9 122(50) <5(<0.127)
Furfural 100 room nil
Gluconic acid 50 room nil
Glycerin - room nil
Hydrogen chloride, gas air mixture ambient nil
Hydrochloric acid, 5 95(35) 1.5(0.038)
aerated
Hydrochloric acid, 10 95(35) 40(1.02)
aerated
Hydrochloric acid, 20 95(35) 175(4.45)
aerated
Hydrochloric acid, 37.5 95(35) 1990(50.6)
aerated
Hydrochloric acid, 1 boiling >100(>2.54)
Hydrochloric acid, 3 boiling 550(14.0)
Hydrochloric acid, 5 boiling 400(10.2)
Hidrochloric acid, 3 374(190) >1120(>28.5)
nitrogen saturated
Hydrochloric acid, 5 374(190) >1120(>28.5)
nitrogen saturated
Hydrochloric acid, 10 374(190) >1120(>28.5)
nitrogen saturated
Hydrochloric acid, 3 374(190) >1120(>28.5)
oxygen saturated 5 374(190) >1120(>28.5)
10 374(190) >1120(>28.5)
chlorine saturated 5 374(190) <1(<0.025)
10 374(190) >1120(>28.5)
Hydrochloric acid, 36 room 17.0(0.432)
200 ppm Cl2
Hydrochloric acid 5 100(38) nil
+1% HNO3
+1% HNO3 5 200(93) 3.6(0.091)
+ 5%HNO3 5 100(38) 0.84(0.025)
+5%HNO3 5 200(93) 1.2(0.030)
+ 10%HNO3 5 100(38) nil
+10% HNO3 5 200(93) 7.2(0.183)
+ 3%HNO3 8.5 176(80) 2.0(0.051)
+5% HNO3 1 boiling 2.9(0.074)
+ 5%HNO3+1.7g/l 1 boiling nil
TiCL4
Hydrochloric acid,
+ 2.5%NaClO3 10.2 176(80) 0.37(0.009)
+5.0%NaCLO3 10.2 175(79) 0.25(0.006)
Hydrochloric acid,
+ 0.5%CrO3 5 100(38) nil
+0.5%CrO3 5 200(93) 1.2(0.031)
+ 1% CrO3 5 100(38) 0.72(0.018)
+ 1%Cr03 5 200(93) 1.2(0.031)
Hydrochloric acid,
+ 0.05%CuSO4 5 100(38) 1.56(0.040)
+0.05%CuSO4 5 200(93) 3.6(0.091)
+0.5%CuSO4 5 100(38) 3.6(0.091)
+0.5% CuSO4 5 200(93) 2.4(0.061)
+1% CuSO4 5 100(38) 1.2(0.31)
+ 1%CuSO4 5 200(93) 3.6(0.091)
+5%CuSO4 5 100(38) 0.8(0.020)
+5%CuSO4 5 200(93) 2.4(0.061)
+0.05%CuSO4 5 boiling 2.5(0.064)
+0.5%CuSO4 5 boiling 3.3(0.084)
Hydrochloric acid, 10 150(66) 0.68-1.32(0.017-0.025)
+0.5%CuSO4
+ 0.20%CuSO4 10 150(66) nil
+0.5% CuSO4 10 150(66) nil-0.68(0.023)
+1%CuSO4 10 150(66) 0.68(0.023)
+0.05%CuSO4 10 boiling 11.6(0.295)
+0.5%CuSO4 10 boiling 11.4(0.290)
+0.2%CuSO4+0.2% 10 boiling 9.0(0.229)
organic amine
**TiCode-12(Ti-Pd) immune
Hydrofluoric acid, 1.48 room rapid
Hydrofluoric acid, 100 room 5.0-50(0.127-1.27)
anhydrous
Hydrofluoric-nitric acid 1-HF room rapid
-15HNO3
Hydrogen peroxide 3 room <5(<0.127)
Hydrogen peroxide 6 room <5(<0.127)
Hydrogen peroxide 30 room <12(<0.305)
Hydrogen sulfide, steam 7.65 200-230 nil
and 0.077% mercaptans (93-110)
Hydroxy-acetic acid - 104(40) 1.2(0.031)
Hypochlorous acid + 17 100(38) 0.001(0.000)
Cl2O and Cl2gases
Iodine, dry gas - 70(21) <4(<0.102)
Iodine in water + - room nil
potassium lodide
Iodine in alcohol saturated room pitted
Lactic acid 10-85 212(100) <5.0(<0.127)
Lactic acid 10 boiling <5.0(<0.127)
Lead 1500(816) attacked
Lead - 615-1100 good
(324-593)
Lead acetate saturated room nil
Linseed oil, boiled - room nil
Lithium, molten - 600-900 nil
(316-482)
Lithium chloride 50 300(149) nil
Magnesium molten 1400(760) limited
&1750(954) resistance
Magnesium chloride 5-20 212(100) <0.4(<0.010)*
Magnesium chloride 5-40 boiling nil
Magnesium hydroxide saturated room nil
Magnesium sulfate saturated rom nil
Manganous chloride 5-20 212(100) nil
Maleic acid 18-20 95(35) .06(0.002)
Mercuric chloride 1 212(100) 0.01(0.000)
Mercuric chloride 5 212(100) 0.42(0.011)
Mercuric chloride 10 212(100) 0.04(0.001)
Mercuric chloride saturated 212(100) <5(<0.127)
Mercuric cyanide saturated room nil
Mercury 100 up to 100(38) satisfactory
Mercury 100 room nil
Mercury - 700(371) 119.4(3.03)
Methyl alcohol 91 95(35) nil
Mercury + Fe - 700(371) 3.12(0.079)
Mercury + Cu - 700(371) 2.48(0.063)
Mercury + Zr - 700(371) 1.28(0.033)
Mercury + Mg - 700(371) 3.26(0.083)
Nickel chloride 5 212(100) 0.17(0.004)
Nickel chloride 20 212(100) 0.11(0.003)
Nickel nitrate .6H2O 50 room nil
Nitric acid, aerated 10 room 0.19(0.005)
Nitric acid,aerated 20 room 9.69(0.246)
Nitric acid , aerated 30 room 0.17(0.004)
Nitric acid aerated 40 room 0.08(0.002)
Nitric acid,aerated 50 room 0.08(0.002)
Nitric acid,aerated 60 room 0.02(0.001)
Nitric acid,aerated 70 room 0.18(0.005)
Nitric acid,aerated 10 104(40) 0.10(0.003)
Nitric acid,aerated 20 104(40) 0.21(0.005)
Nitric acid,aerated 30 122(50) 0.61(0.015)
Nitric acid, aerated 40 122(50) 0.64(0.016)
Nitric acid, aerated 50 140(60) 1.46(0.037)
Nitric acid, aerated 60 140(60) 1.56(0.040)
Nitric acid, aerated 70 158(70) 1.56(0.040)
Nitric acid, aerated 40 392(200) 24(0.610)
Nitric acid, aerated 70 518(270) 48(122)
Nitric acid, aerated 20 554(290) 12(0.305)
Nitric acid, non-aerated. 35 176(80) 2-4(0.051-0.102)
Nitric acid, non-aerated 70 176(80) 1-3(0.025-0.076)
Nitric acid, 17 boiling 3-4(0.076-0.102)
Nitric acid , 35 boiling 5-20(0.127-0.508)
Nitric acid, 70 boiling 2.5-37(0.064-0.940)
Nitric acid - room 0.1(0.003)
white fuming
Nitric acid, liquid room nil
white fuming or vapor
Nitric acid , - 180(82) 6.0(0.152)
white fuming
Nitric acid, - 252(122) <5.0(<.127)
white fuming
Nitric acid, - 320(160) <5.0(<.127)
white fuming
Nitric acid, <about room ignition
red fuming 2%H20 sensitive
Nitric acid,+ 0.1%CrO3 40 boiling 0.12-0.99(0.003-0.025)
Nitric acid + 10%FeCl3 40 boiling 4.8-7.4(0.122-0.188)
Nitric acid + 0.1% 40 boiling nil-0.62(nil-0.016)
K2Cr2O3
Nitric acid + 10% 40
NaClO3 boiling 0.12-1.40(.003-0.036)
Nitric acid, saturated 33-45 245(118) nil
with zirconyl nitrate
Nitric acid + 15% 65 260(127) nil
ziconyl nitrate
Nitric acid + 179g/l 20.8 boiling 5-11.6(0.127-0.295)
NaNO3and 32g/l NaCl
Nitric acid + 170 g/l 27.4 boiling 19-115(0.483-2.92)
NaNO3and 2.9 g/l NaCl
Oil well crudes, - ambient 0.26-23.2(0.007-0.589)
varying amounts of
abrasion
Oxalic acid 1 98.6(37) 12(0.025)
Oxalic acid 1 boiling 4247(107.9)
Oxalic acid 25 140(60) 470(11.9)
Oxalic acid saturated room 20(0.508)
Perchloryl fluoride + 100 86(30) 0.07(0.002)
liquid ClO3
Perchloryl fluoride + 99 86(30) liquid 11.4(0.290)
1%H2O vapor 0.1(0.003)
Phenol saturated 70(21) 4.0(0.102)
solution
Phosphoric acid 10-30 room 0.8-2(0.020-0.051)
Phosphoric acid 30-80 room 2-30(0.051-0.762)
Phosphoric acid 1 boiling 10(0.254)
Phosphoric acid 10 boiling 400(10.2)
Phosphoric acid 30 boiling 1030(26.2)
Phosphoric acid 10 176(80) 72(1.83)
Phosphoric acid + 3% 81 190(88) 15(0.381)
nitric acid and 16%
water
Phosphorus oxychloride 100 room 0.14(0.004)
Phosphorus trichloride saturated room nil
Photographic emulsions - - <5.0(<0.127)
Pthalic acid saturated room nil
Potassium bromide saturated room nil
Potassium chloride saturated room nil
Potassium chloride saturated 140(60) <.01(0.000)
Potassium dichromate - - nil
Potassium ethyl 10 room nil
zanthate
Potassium ferricyanide saturated room nil
Potassium hydroxide 13 85(29) nil
+ 13% potassium
chloride
Potassium hydroxide 50 80(29) 0.4(0.010)
Potassium hydroxide 10 boiling <5.0(<0.127)*
Potassium hydroxide 25 boiling 12(0.305)
Potassium hydroxide 50 boiling 108(2.74)
Potassium hydroxide 50 to 465-710 40-60(1.02-1.52)
anhydrous (241-377)
Potassium lodide saturated room nil
Potassium permanganate saturated room nil
Potassium perchlorate 20 room 0.12(0.003)
(Ti specimen cathodic)
Potassium perchlorate, 0-30 122(50) 0.1(0.003)
+ NaClO4, 600-900g/l
KCL, 0-500g/l
NaCl, 0-250g/l
NaClO3, 6-24g/l
Potassium sulfate 10 room nil
Potassium thiosulfate 1 - nil
Propionic acid vapor 374(190) rapid
Pyrogaltic acid 355 g/l room nil
Salicylic acid saturated room nil
sodium salt
Seawater 76(24) nil
Seawater, 4½ year test - - nil
Sebacid acid - 464(240) 0.3(0.008)
Silver nitrate 50 room nil
Sodium 100 to 1100(593) good
Sodium acetate saturated room nil
Sodium aluminate 25 boiling 3.6(0.091)
Sodium bifluoride saturated room rapid
Sodium bisulfate saturated room nil
Sodium bisulfate 10 150(66) 72(1.83)
Sodium bisulfite 10 boiling nil
Sodium bisulfite 25 boiling nil
Sodium carbonate 25 boiling nil
Sodium chlorate saturated room nil
Sodium chlorate + 0-721 g/l 104(40) 0.1(0.003)
NaCl 80-250/gl +
Na2Cr2O2 14/gl
carbon 0.3-0.9g/l
Sodium chloride saturated room nil
Sodium chloride pH 1.5 23 boiling nil*
Sodium chloride pH 1.2 23 boiling 28(0.711)*
Sodium chloride
titanium in contact 23 boiling corrosion
with teflon in crevice
Sodium chloride pH 1.2 23 boiling nil*
some dissolved chlorine
Sodium citrate saturated room nil
Sodium cyanide saturated room nil
Sodium dichromate saturated room nil
Sodium fluoride saturated room 0.3(0.008)
Sodium hydrosulfide + 5-12 230(110) <0.1(<0.003)
unknown amounts of
sodium sulfide and
polysulfides
Sodium hydroxide 5-10 70(21) 0.04(0.001)
Sodium hydroxide 10 boiling 0.84(0.021)
Sodium hydroxide 28 room 0.1(0.003)
Sodium hydroxide 40 176(80) 5.0(0.127)
Sodium hydroxide 50 135(57) 0.5(0.0127)
Sodium hydroxide 73 265(129) 7.0(0.178)
Sodium hydroxide 50-73 370(188) >43(>1.09)
Sodium hypochlorite 6 room nil
Sodium hypochlorite + 1.5-4 150-200 1.2(0.030)
12-15%NaCl + 1% (66-93)
NaOH + 1-2%
Sodium carbonate
Sodium nitrate saturated room nil
Sodium nitrite saturated room nil
Sodium perchlorate 900g/l 122(50) 0.1(0.003)
Sodium phosphate saturated room nil
Sodium silicate 25 boiling nil
Sodium sulfate 10-20 boiling nil
Sodium sulfate saturated room nil
Sodium sulfide 10 boiling 1.08(0.027)
Sodium sulfide saturated room nil
Sodium sulfite saturated boiling nil
Sodium thiosulfate 25 boiling nil
Sodium thiosulfate + 20 room nil
20% acetic acid
Soils, corrosive - ambient nil
Stannic chloride 5 212(100) 0.12(0.003)
Stannic chloride 24 boiling 1.76(0.045)
Stannic chloride, molten 100 150(66) nil
Stannic chloride saturated room nil
Steam + air - 180(82) 0.01(0.000)
Steam + 7.65% - 200-230 nil
hydrogen sulfide + (93-110)
0.17% mercaptans
Stearic acid, molten 100 356(180) 0.1(0.003)
Succinic acid 100 365(185) nil
Succinic acid saturated room nil
Sulfanilic acid saturated room nil
Sulfamic acid 3.75g/l boiling nil
Sulfamic acid 7.5g/l boiling 108(2.74)
Sulfamic acid + 7.5g/l boiling 1.2(0.030)
.375g/Fe Cl3
Sulfur, molten 100 464(240) nil
Sulfur monochloride major 395(202) >43(>1.09)
Sulfur dioxide, water near 100 room 0.1(0.003)
saturated
Sulfur dioxide gas + 18 600(316) 0.2(0.006)
small amount SO3 and
approx.3%02
Sulfuric acid, aerated 1 140(60) 0.3(0.008)
with air
Sulfuric acid, aerated 3 140(60) 0.5(0.013)
with air
Sulfuric acid,aerated 5 140(60) 190(4.83)
with air
Sulfuric acid,aerated 10 95(35) 50(1.27)
with air
Sulfuric acid,aerated 40 95(35) 340(8.64)
with air
Sulfuric acid,aerated 75 95(35) 42(1.07)
with air
Sulfuric acid,aerated 75 room 427(10.8)
with air
Sulfuric acid,aerated 75 boiling 6082(154.8)
with air
Sulfuric acid.aerated 1 212(100) 0.2(0.005)
with air
Sulfuric acid,aerated 3 212(100) 920(23.4)
with air
Sulfuric acid,aerated 5 212(100) 810(20.6)
with air
Sulfuric acid,aerated 80 room 316(8.03)
with air
Sulfuric acid,aerated 80 boiling 7460(189.5)
with air
Sulfuric acid,aerated concentrated room 62(1.57)
with air
Sulfuric acid,aerated concentrated boiling 212(5.38)
with air
Sulfuric acid,aerated 1 212(100) 282(7.16)
with nitrogen
Sulfuric acid,aerated 3 212(100) 830(21.1)
with nitrogen
Sulfuric acid,aerated 5 212(100) 1060(26.9)
with nitrogen
Sulfuric acid 1 boiling 700(17.8)
Sulfuric acid 5 boiling 1000(25.4)
Sulfuric acid, 5 200(93) nil
+ 0.25%CuSO4
+ 0.25%CuSO4 30 100(38) 2.4(0.061)
+ 0.25%CuSO4 30 200(93 3.48(0.088)
+0.5%CuSO4 30 100(38) 2.64(0.067)
+0.5%CuSO4 30 200 32.4(0.823)
+1.0%CuSO4 30 100(38) 0.78(0.020)
+1.0%CuSO4 30 200(93) 34.8(0.884)
+0.5%CrO3 5 200(93) nil
+0.5%CrO3 30 200(93) nil
+1.0%CuSO4 30 boiling 65(1.65)
Sulfuric acid vapors 96 100(38) nil
Sulfuric acid vapors 96 150(66) nil
Sulfuric acid,vapors 96 200-300 0.4-0.5(0.010-0.013)
Sulfuric acid, (93-149)
+ 10%HNO3 90 room 18(0.457)
+ 30%HNO3 70 room 25.(0.635)
+ 50%HNO3 50 room 25(0.635)
+ 70%HNO3 30 room 4.0(0.102)
+ 90%HNO3 10 room nil
+90%HNO3 10 140(60) 0.45(0.011)
+50%HNO3 50 140(60) 15.7(0.399)
+ 20%HNO3 80 140(60) 62.5(1.59)
Sulfuric acid saturated 45 75(24) 0.13(0.003)
with chlorine
Sulfuric acid saturated 62 60(16) 0.07(0.002)
with chlorine
Sulfuric acid,saturated 5 374(190) <1(<0.025)
with chlorine
Sulfuric acid saturated 80 122(50) >47(>1.19)
with chlorine
Sulfuric acid +4.79 40 212(100) passive
g/l Ti +4
Sulfurous acid 6 room nil
Tannic acid 25 212(100) nil
Tartaric acid 10-50 212(100) <5(<0.127)
Tartaric acid 10 140(60) 0.10(0.003)
Tartaric acid 25 140(60) 0.10(0.003)
Tartaric acid 50 140(60) 0.02(0.001)
Tartaric acid 10 212(100) 0.13(0.003)
Tartaric acid 25 212(100) nil
Tartaric acid 50 212(100) 0.2-0.49(0.005-0.0121)
Terepthalic acid 77 425(218) nil
Tetrachloroethane, 100 boiling 0.02(0.001)
liquid and vapor
Tetrachloroethylene - boiling 5(0.127)
+ H2O
Tetrachloroethylene 100 boiling nil
Tetrachloroethylene, 100 boiling 0.02(0.001)
liquid and vapor
stabilized with ethyl
alcohol
Tin, molten 100 930(499) resistant
Titanium tetrachloride 99.8 572(300) 62(1.57)
Titanium tetrachloride concentrated room nil
Trichloroacetic acid 100 boiling 573(14.6)
Trichloroethylene 99 boiling 0.1-5(0.003-0.127)
Uranium chloride saturated 70-194 nil
(21-90)
Uranyl ammonium 20.9 165 <0.1(<0.003)
phosphate filtrate +
25% chloride + 0.5%
fluoride, 1.4%
ammonia + 2.4%
uranium
Uranyl nitrate 120g/l U boiling 0.012(0.000)
containing 25 .3 g/l
Fe+3,6.9 g/l
Cr+3,2.8g/l
Ni+2,5.9molar NO3
4.0 molar H+ ,1.0
molar Cl
Uranyl sulfate + 3.1 3.1 molar 482(250) 0-0.78(<0.020)
molar Li2 SO4, +
100-200ppmO2
Uranyl sulfate + 3.6 3.8 molar 662(350) 0.22-17(0.006-0.432)
molar Li2SO4, 50 psi O2
Urea-ammonia - elevated no attack
reaction mass temp.and
pressure
Urea + 32%ammonia, 28 360(182) 3.1(0.079)
+ 20.5%H2O, 19%CO2
Water, degassed - 600(316) nil
Water,river, saturated - 200(93) nil
with Cl2
Water, synthetic sea - 95(35) nil
X-ray developer solution - room nil
Zinc,subjected to zinc 100 molten withstood
ammonium chloride several
preflux thousand
contact
cycles
Zinc chloride 20 220(104) nil*
Zinc chloride 50 302(150) nil*
Zinc chloride 75 392(200) 24(0.610)*
Zinc chloride 80 392(200) 8000(203.2)*
Zinc sulfate saturated room nil

Cliente: A Tabela acima é tão sòmente para efeito orientativo. Consulte-nos sobre sua aplicação específica.

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