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TIPA 85 % (TRIISOPROPANOLAMINE – TRİİZOPROPANOLAMİN)


TRIISOPROPANOLAMINE (TIPA)
Cas No: 122-20-3
SYNONYMS: Triisopropanolamine; 122-20-3; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; 1,1',1''-Nitrilotripropan-2-ol; Tris(2-propanol)amine; 2-Propanol, 1,1',1''-nitrilotris-; TRIS(2-HYDROXYPROPYL)AMINE; Tris(2-hydroxy-1-propyl)amine; Caswell No. 891; 2-Propanol, 1,1',1''-nitrilotri-; NSC 4010; 1,1',1''-Nitrilotri-2-propanol; CCRIS 4884; HSDB 5593; EINECS 204-528-4; 3,3',3''-Nitrilotri(2-propanol); 1,1',1''-Nitrilotris(2-propanol); EPA Pesticide Chemical Code 004209; 1,1',1''-Nitrilotris(propan-2-ol); BRN 1071570; AI3-01450; SLINHMUFWFWBMU-UHFFFAOYSA-N; Triisopropanolamine, 98%; DSSTox_CID_1415; DSSTox_RID_76150; DSSTox_GSID_21415; J-660022; 1,1',1''-Nitrilotris[2-propanol]; CAS-122-20-3; 1-[bis(2-hydroxypropyl)amino]propan-2-ol; C9H21NO3; tri(2-hydroxy-1-propyl)-amine; trisisopropanolamine; 3,3',3"-Nitrilotri(2-propanol); MFCD00004533; tris(isopropanol)amine; Triisopropanolamine, 95%; EC 204-528-4; tris-(2-hydroxypropyl)amine; SCHEMBL28985; 4-04-00-01680 (Beilstein Handbook Reference); 1,1''-Nitrilotri-2-propanol; CHEMBL1877948; DTXSID5021415; 3,3''-Nitrilotri(2-propanol); NSC4010; 1,1''-Nitrilotris(2-propanol); 2-Propanol,1',1''-nitrilotri-; 1,1,1-Nitrilotris(propan-2-ol); 2-Propanol,1',1''-nitrilotris-; NSC-4010;Tox21_201952; Tox21_302748; 8149AF; LS-663; AKOS015965047; CS-W010723; KS-00000Z04; NCGC00164112-01; NCGC00164112-02; NCGC00256448-01; NCGC00259501-01; AK305616; WLN: QY1 & 1N1YQ1 & 1YQ1; FT-0695343; 47647-EP2281817A1; 47647-EP2311811A1; Q1729503; tri; iso; propanol; propan; amın; amin; amine; propanolamine; propanolamin; isopropanolamine; ipa; tipa; tıpa; TRİ; İSO; PROPANOL; PROPAN; AMIN; AMİN; AMİNE; PROPANOLAMİNE; PROPANOLAMİN; İSOPROPANOLAMİNE; İPA; TİPA; TIPA; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; trısoproplilenamin; TIPA; TRIISOPROPANOLAMINE; TRİİZOPROPANOLAMİN; TIPA; TRIISOPROPANOLAMINE; TRİİZOPROPANOLAMİN; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; Tris(2-hydroxypropyl)amine; 2-Propanol, 1,1',1''-nitrilotris; 1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine; 1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine; AMIX TI; 78-96-6; AMIX TI 85%; Trisisopropanol; 78-96-61,1 ', 1' '; Tripropanolamine; NITRILOTRIPROPANOL; Trisopropanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; trısoproplilenamin; TIPA; TRIISOPROPANOLAMINE; TRİİZOPROPANOLAMİN; TIPA; TRIISOPROPANOLAMINE; TRİİZOPROPANOLAMİN; Triisopropanolamine85; Tri isopropanol amine85; Tri isopropanolamine85; Triisopropanolamine 85; Triisopropanolamine 85; Tri isopropanol amine 85; Tri isopropanolamine 85; Triisopropanolamine-85; Tri isopropanol amine -85; Tri isopropanolamine- 85; Triisopropanolamine85; Tri isopropanol amine85; Tri izopropanolamine85; Triizopropanolamine 85; Triizopropanolamine 85; Tri izopropanol amine 85; Tri izopropanolamine 85; Triizopropanolamine-85; Tri izopropanol amine -85; Tri izopropanolamine- 85; Triisopropanolamin85; Tri isopropanol amin85; Tri isopropanolamin85; Triisopropanolamin 85; Triisopropanolamin 85; Tri isopropanol amin 85; Tri isopropanolamin 85; Triisopropanolamin-85; Tri isopropanol amin -85; Tri isopropanolamin- 85; Triisopropanolamin85; Tri isopropanol amin85; Tri izopropanolamin85; Triizopropanolamin TIPA %85; Triizopropanolamin TİPA %85; Triizopropanolamin 85; Triizopropanolamin85; Tri izopropanol amin 85; Tri izopropanolamine 85; Triizopropanolamin-85; Tri izopropanol amin -85; Tri izopropanolamin- 85; TİPA; TIPA; TİPA85; TIPA85; TİPA-85; TIPA-85; TİPA 85; TIPA 85; la Triisopropanolamine; Triisopropanolamine85; Tri isopropanol amine85; Tri isopropanolamine85; Triisopropanolamine 85; Triisopropanolamine 85; Tri isopropanol amine 85; Tri isopropanolamine 85; Triisopropanolamine-85; Tri isopropanol amine -85; Tri isopropanolamine- 85; Triisopropanolamine85; Tri isopropanol amine85; Tri izopropanolamine85; Triizopropanolamine 85; Triizopropanolamine 85; Tri izopropanol amine 85; Tri izopropanolamine 85; Triizopropanolamine-85; Tri izopropanol amine -85; Tri izopropanolamine- 85; Triisopropanolamin85; Tri isopropanol amin85; Tri isopropanolamin85; Triisopropanolamin 85; Triisopropanolamin 85; Tri isopropanol amin 85; Tri isopropanolamin 85; Triisopropanolamin-85; Tri isopropanol amin -85; Tri isopropanolamin- 85; Triisopropanolamin85; Tri isopropanol amin85; Tri izopropanolamin85; Triizopropanolamin 85; Triizopropanolamin85; Tri izopropanol amin 85; Tri izopropanolamine 85; Triizopropanolamin-85; Tri izopropanol amin -85; Tri izopropanolamin- 85; TİPA %85; TIPA %85; TİPA%85; TIPA%85; TİPA-%85; TIPA-%85; TİPA %85; TIPA %85; la Triisopropanolamine; TİPA; TIPA; TİPA85; TIPA85; TİPA-85; TIPA-85; TİPA 85; TIPA 85; TİPA; TIPA; TİPA85%; TIPA85; TİPA-85; TIPA-85%; TİPA 85%; TIPA 85%; Triisopropanolamine%85; Tri isopropanol amine%85; Tri isopropanolamine%85; Triisopropanolamine %85; Triisopropanolamine %85; Tri isopropanol amine %85; Tri isopropanolamine %85; Triisopropanolamine-%85; Tri isopropanol amine -%85; Tri isopropanolamine- %85; Triisopropanolamine%85; Tri isopropanol amine%85; Tri izopropanolamine%85; Triizopropanolamine %85; Triisopropanolamine85%; Tri isopropanol amine85%; Tri isopropanolamine85%; Triisopropanolamine 85%; Triisopropanolamine 85%; Tri isopropanol amine 85%; Tri isopropanolamine 85%; Triisopropanolamine-85%; Tri isopropanol amine -85%; Tri isopropanolamine- 85%; Triisopropanolamine85%; Tri isopropanol amine85%; Tri izopropanolamine85%; TİPA %85; TIPA %85; TİPA%85; TIPA%85; TİPA-%85; TIPA-%85; TİPA %85; TIPA %85; la Triisopropanolamine; TİPA; TIPA; TİPA85; TIPA85; TİPA-85; TIPA-85; TİPA 85; TIPA 85; TİPA; TIPA; TİPA85%; TIPA85; TİPA-85; TIPA-85%; TİPA 85%; TIPA 85%; Tipa %85; Tıpa %85; TRIPA, 1,1',1"-Nitrilotri-2-propanol, Tri-2-propanolamine, Tri-iso-propanolamine, Tris(2-propanol)amine, Tris(2-Hydroxypropyl)amine


Triisopropanolamine; From Wikipedia, the free encyclopedia; Jump to navigationJump to search; Not to be confused with triisopropylamine.
Triisopropanolamine is an amine used for a variety of industrial applications including as an emulsifier, stabilizer, and chemical intermediate.[3] It is also used to neutralize acidic components of some herbicides.[3]
Reactivity Profile
TRIISOPROPANOLAMINE neutralizes acids to form salts plus water in exothermic reactions. May be incompatible with isocyanates, halogenated organics, peroxides, phenols (acidic), epoxides, anhydrides, and acid halides. Flammable gaseous hydrogen is generated by combination with strong reducing agents, such as hydrides.
CAS No.: 122-20-3

Molecular Weight: 191.27

Description of Triisopropanolamine: Triisopropanolamine (TIPA/TIPOA) is used as a grinding aid for the cement and concrete industries, is the raw material for cement grinding aid, also can act as a cross-linker in special niche water-based coating applications. TIPA also can work as a neutralizing agent in agricultural products and water borne coatings.Properties and Uses Of Triisopropanolamine/TIPA:Triisopropanolamine/TIPA can improve the grinding efficiency with energy savings when used in the cement and concrete industries ; Triisopropanolamine/TIPA can prevent from agglomeration or clumping when as water reducing agent.Triisopropanolamine/TIPA can work as rubber curing Chain terminator in isoprene polymerization.Triisopropanolamine/TIPA worked as Cross-linker to improve PU foam quality.Triisopropanolamine/TIPA is used to improve corrosion protection, antioxidant for metal working

Triisopropanolamine Application

Package of TIPA:Triisopropanolamine/TIPA is packed with 200 kg/ iron drum, 1000kg IBC drum, flexitank or according to customers requests.Storage and transportation of TIPA:Shelf life of TIPA is at least one year, when one year after the production date, the product can be used only after the re-inspection is passed. When transport, the drum cover should be sealed, the shock, sunshine, rain, heat and fire source should be avoided. The products should be stored in the dry, clean, cool and ventilated warehouse.
Description of Triisopropanolamine: Triisopropanolamine (TIPA/TIPOA) is used as a grinding aid for the cement and concrete industries, is the raw material for cement grinding aid, also can act as a cross-linker in special niche water-based coating applications. TIPA also can work as a neutralizing agent in agricultural products and water borne coatings.Properties and Uses Of Triisopropanolamine/TIPA:Triisopropanolamine/TIPA can improve the grinding efficiency with energy savings when used in the cement and concrete industries ; Triisopropanolamine/TIPA can prevent from agglomeration or clumping when as water reducing agent.Triisopropanolamine/TIPA can work as rubber curing Chain terminator in isoprene polymerization.Triisopropanolamine/TIPA worked as Cross-linker to improve PU foam quality.Triisopropanolamine/TIPA is used to improve corrosion protection, antioxidant for metal working
Triisopropanolamine/TIPA is packed with 200 kg/ iron drum, 1000kg IBC drum, flexitank or according to customers requests.Storage and transportation of TIPA:Shelf life of TIPA is at least one year, when one year after the production date, the product can be used only after the re-inspection is passed. When transport, the drum cover should be sealed, the shock, sunshine, rain, heat and fire source should be avoided.
The products should be stored in the dry, clean, cool and veFinal Report
on the Safety Assessment; of Diisopropanolamine; Isopropanolamine, and Mixed; Isopropanolamine; Diisopropanolamine, Triisopropanolamine, Isopropanolamine, and Mixed
lsopropanolamine are used as water-soluble emulsifiers and neutralizers in
cosmetic products at concentrations up to 1 Ole. In animal studies these ingredients were slightly toxic to practically nontoxic to rats and guinea pigs via acute
oral administration. Triisopropanolamine was relatively nontoxic to rats in the
two subchronic oral studies. These ingredients were moderate skin irritants for
rabbits. All four ingredients, when tested at 100% concentrations, were severe
ocular irritants in rabbits. Products containing small amounts (- 1 Oh) of Diisopropanolamine or Triisopropanolamine were not ocular irritants in rabbits.
The Triisopropanolamine salt was not mutagenic in Aspergillus nidulans. Diisopropanolamine and lsopropanolamine at concentrations of 2% did not induce
allergic contact dermatitis or photoallergic dermatitis in humans. Clinical studies on cosmetic products containing no more than 1 Oh Diisopropanolamine or
1.1 o/o Triisopropanolamine were minimal skin irritant and contact sensitizers.
It is concluded that Diisopropanolamine, Triisopropanolamine, Isopropanolamine, and Mixed lsopropanolamine are safe as cosmetic ingredients in the present practices of use and concentration.ntilated warehouse phatic amines of isopropyl alcohol. Mixed lsopropanolamines is a mixture of Di-, Tri-, and Isopropanolarnine. The lsopropanolamines are emulsifying agents and neutralizers in cosmetics.
Synonyms for these ingredients include: Diisopropanolamine: DIPA, 1 ,l'-
iminobis-2-propan 01, bis(2- hydroxy propyI) amine, bis(2-pro pan o I) amine . Tri isopropanolamine: TIPA, 1,1',1 "-nitrilotris-2-propanol tris(2-hydroxypropyl)arnine,
t ris(2- hydroxy- 1 -propyI) amine. Isopropanolamines: MIPA, 1 -amino-2- propanoI,
1 -aminopropan-2-01, monoisopropanolarnine, alpha-aminoisopropyl alcohol, 2-hydroxy-1 -propylarnine, 1 -methyl-2-arnin0ethanol.)
In this review Diisopropanolamine, Triisopropanolamine, and Isopropanolarnines will be referred to as DIPA, TIPA, and MIPA, respectively. Mixed Isopropanolamines will be referred to as Mixed Isopropanolamines.
Triisopropanolamine
Ninety-eight panelists participated in a Schwartz-Peck Prophetic Patch test to
determine the irritation, sensitization, and phototoxicity of a lotion product containing 1.1 o/o TIPA. Open and occlusive patches were applied for 48 h, and re-
ASSESSMENT: ISOPROPY LAMI NES 69
sults were scored according to the International Contact Dermatitis Research Group procedure with a 0-3+ scoring scale.(84) After a nontreatment period of approximately 14 days, a second set of open and occlusive patches was applied and scored 48 h later. After scoring the second occlusive patch reactions, these
same test sites of all panelists were irradiated for 6 minutes with a Hanovia
Tanette Mark I Lamp (wavelengths including 360 nm). This site was scored for
phototoxicity 48 h later. No reactions were observed at the first or second open
patch, the first occlusive patch, or 48 h after irradiation. Four subjects had I+
(weak, nonvesicular) reactions to the second occlusive patch, and one subject
had a 2+ (strong, edematous or vesicular) reaction to the second occlusive
patch. These reactions were not considered clinically significant. The product
was not an irritant, phototoxin, or sensitizer under these test conditions.
Mutagenicity data on the pure isopropanolamines were not available. A Triisopropanolamine salt used as a pesticide was not mutagenic in Aspergillus nidulam. No data were available on the carcinogenic or carcinogenic enhancement
activity of DIPA, TIPA, MIPA, or Mixed Isopropanolamines.
Chemical admixtures are used in concrete for various purposes such as water reducing, plasticizing, air entraining, bonding, viscosity modifying, colouring, corrosion inhibiting, permeability reducing, accelerating or retarding the initial setting time, and shrinkage reduc-ing. The use of chemical admixtures in concrete helps to improve workability of fresh con-crete and durability properties of hardened concrete as well as reducing the total cost of con-crete production. In this study, three different types of chemical raw materials (calcium nitrate, triethanolamine-TEA and triisopropanolamine-TIPA) were used in the production of chemical admixtures, which were used in mortars with two different cement compositions. 7-day and 28-day compressive strengths of mortars were determined and it was found that TIPA has the greatest effect on increasing the compressive strength within these three chemicals.
This paper aims to investigate the effect of triisopropanolamine (TIPA) on compressive strength and hydration of cement-fly ash paste. The samples with various dosages of TIPA were prepared with 30% fly ash (FA) and 70% cement (water/binder ratio by weight = 0.38), and cured under the standard condition. The compressive strength, pore structure, hydration process, and hydration products were investigated. The results show that TIPA can obviously increase the compressive strength of cement-FA system at the age of 7 d and 60 d, and the reasons are involved in pore structure and hydration of cement-FA system. Pore structure was characterized with mercury intrusion porosimetry, and the results show that TIPA can reduce total porosity but increase the amount of pore with size more than 50 nm, implying the air-entraining effect with negative effect on compressive strength. The result suggests that TIPA and defoaming agent should be used together to minimize the negative effect in real concrete. Furthermore, analysis of hydration products shows that TIPA can accelerate the hydration of both cement and FA, and this can also be illustrated from solid-state nuclear magnetic resonance. It is noticed that TIPA can hasten the conversion of AFt to AFm, which can be indicated from hydration heat. Additionally, the acceleration of pozzolanic reaction of FA is because TIPA can accelerate the dissolution of aluminate, silicate, and ferric into liquid paste which was demonstrated from morphology characterization and the change of ions in pore solution. Such results would be expected to provide experience for the use of alkanolamine in promoting the performance of cement-based materials.
Triisopropanolamine; Doğal gaz rafinerelerinde asitik gazı absorbe etmek amacıyla kullanılabilir, Düşük alkali sıvılarda suda eriyerek emülsiyon yapmak amacı ile, Poliüratan üretiminde çaprazbağda katalizör amacı ile, Ayrıca bazı üretimlerde böcek öldürücü, sıvıya sufectan (sıvının yüz gerilmesini azaltan) olarak, plastik kimyasallarda, korozyon inhibitörlerde boyalarda ve bazı sıvıların nötrleştirilmesinde (triethanolamine) gibi, çimento sanayide kullanılır.
Çimento sanayide kullanımı: Triisopropanolamine çimento sanayide ara madde olarak kullanılır. Çimento üretiminde başlıca 3 yerde kullanılmaktadır. Çimentonun öğütülürken formülasyonda çimento öğütme yağı olarak, Öğütülmüş parçacıkları bir arada toplamak ve çimentonun akışını korumak için yüzey örtücü olarak, ve üçüncü olarakta buharlaşma kurutmada akış hızını kontrolde yardımcı olarak. Ayrıca düşük konsantresyon triisopropanolaminle sertleştirme sürecini hızlandırmak için.
The inhibition performance and mechanism of triisopropanolamine (TIPA) for the corrosion of aluminum alloy in 3% NaCl solution were investigated using weight loss method, potentiodynamic polarization, electrochemical impedance spectroscopy (EIS) and scanning electron microscope (SEM). The electrochemical results revealed that TIPA was an effective inhibitor and the inhibition efficiency increased with the increasing concentrations of TIPA, which was further confirmed by SEM observation. Potentiodynamic polarization studies revealed that TIPA acted as a mixed-type inhibitor. The adsorption of TIPA on the aluminum surface obeyed a Langmuir thermodynamic-kinetic model, and the thermodynamic and kinetic parameters meant that the interaction between the inhibitor and the surface of aluminum alloy involved both physisorption and chemisorption. Moreover, theoretical calculations were used to investigate inhibition mechanism of the studied inhibitor.
Triisopropanolamine and Diisopropanolamine are white solids, whereas Isopropanolamine and Mixed Isopropanolamines occur as clear, colorless liquids. In cosmetics and personal care products, these ingredients are used in the formulation of permanent waves and other hair products, and bath, skin, fragrance and indoor tanning products.
Triisopropanolamine, Diisopropanolamine, Isopropanolamine and Mixed Isopropanolamines are used to control the pH of cosmetics and personal care products, and these ingredients help to form emulsions by reducing the surface tension of the substances to be emulsified. Triisopropanolamine also prevents the corrosion (rust) of metallic materials used in packaging cosmetics and personal care products.
Triisopropanolamine, Baby Shampoos are products that are intended to be used to cleanse the hair of infants and children under the age of three. These products are specially formulated to be non-irritating and mild to the eyes. Often, these products contain non-ionic ingredients which tend to be milder than ionic ingredients which carry a slight negative charge. Adults that have sensitive hair or that are very sensitive to ordinary products may also use Baby Shampoos. Manufacturers conduct extensive safety tests to ensure that these products are safe for use on young children.
Triisopropanolamine, Baby Lotions, Oils, Powders and Creams are products that are intended to be used to moisturize and soften the skin of infants and children under the age of three. These products are specially formulated to be mild and non-irritating. Many Baby Lotions, Creams and Oils contain mineral oil. Adults that have sensitive skin or that are very sensitive to ordinary products may also use Baby Lotions, Oils, Powders and Creams. Manufacturers conduct extensive safety tests to ensure that these products are safe for use on young children.
Triisopropanolamine, Bath Oils, Tablets and Salts are products intended to enhance the bathing experience. They are intended to soften and moisten the skin, enhance cleaning of the skin and to leave your skin feeling clean and fresh. Bath Salts can change the salinity of bath water to increase buoyancy and make the body feel lighter in the bath, mimicking the properties of natural mineral baths or hot springs. Bath Salts can also help reduce "pruning," or the wrinkling of skin, during prolonged exposure to water.
Chemical admixtures are used in concrete for various purposes such as water reducing, plasticizing, air entraining, bonding, viscosity modifying, colouring, corrosion inhibiting, permeability reducing, accelerating or retarding the initial setting time, and shrinkage reducing. The use of chemical admixtures in concrete helps to improve workability of fresh concrete and durability properties of hardened concrete as well as reducing the total cost of concrete production. In this study, three different types of chemical raw materials (calcium nitrate, triethanolamine-TEA and triisopropanolamine-TIPA) were used in the production of chemical admixtures, which were used in mortars with two different cement compositions. 7-day and 28-day compressive strengths of mortars were determined and it was found that TIPA has the greatest effect on increasing the compressive strength within these three chemicals.
Global "Triisopropanolamine (TIPA, CAS 122-20-3)" Market report is complete source of multiple strategies and deep analysis of Triisopropanolamine (TIPA, CAS 122-20-3) Industry. It provides vital analysis on Triisopropanolamine (TIPA, CAS 122-20-3) market trends, overview, landscape, size, share and segmentation based on product type, applications, manufacturers. Moreover, this report also analyse drivers and challenges including growth forecast, and industry trends.

Triizopropanolamin 85%

EŞ ANLAMI VE KİMYASAL İSMİ: Tris(2-hydroxypropyl)amine; Tris-(2-hydroxy-1-propyl)amine; 1,1',1''-Nitrilotripropan-2-ol; Nitrilotris(2-propanol); 3,3',3"-Nitrilotri(2-propanol); Tris(2-propanol)amine; Tri-2-propanolamine; 1,1',1''-nitrilotri-2-propanol; Triizopropanolamin ; Tri izopropanol amin

KİMYASAL FORMULÜ: [CH3CH(OH)CH2]3N

FİZYOLİJİK ÖZELLİKLER: Moleküler ağırlığı:191,27 ; Erime noktası: 48 - 52 C; Buharlaşma noktsaı: 305 C ; Yoğunluk: 1,02 ; Suda Alkolde v.b. çözünür ; Parlama noktası: 160 C, Özellik saflık oranı %85

SAKLAMA KOŞULLARI: Varillerde, kapalı olarak.

ÖZEL KODLAR: Yanıcı, ADR'ye göre sınıfı 3.31c,UN 2319, IMO 3.3, CAS 5989-54-8, FEMA 2633, CAS 8028-48-6, FEMA 2825,

KULLANIM ALANI: Doğal gaz rafinerelerinde asitik gazı absorbe etmek amacıyla kullanılabilir, Düşük alkali sıvılarda suda eriyerek emülsiyon yapmak amacı ile, Poliüratan üretiminde çaprazbağda katalizör amacı ile, Ayrıca bazı üretimlerde böcek öldürücü, sıvıya sufectan (sıvının yüz gerilmesini azaltan) olarak, plastik kimyasallarda, korozyon inhibitörlerde boyalarda ve bazı sıvıların nötrleştirilmesinde (triethanolamine) gibi, çimento sanayide kullanılır. Çimento sanayide kullanımı: Triizopropanolamin çimento sanayide ara madde olarak kullanılır. Çimento üretiminde başlıca 3 yerde kullanılmaktadır. Çimentonun öğütülürken formülasyonda çimento öğütme yağı olarak, Öğütülmüş parçacıkları bir arada toplamak ve çimentonun akışını korumak için yüzey örtücü olarak, ve üçüncü olarakta buharlaşma kurutmada akış hızını kontrolde yardımcı olarak. Ayrıca düşük konsantresyon Triizopropanolaminle sertleştirme sürecini hızlandırmak için.

Grubu HERBİSİTLER ( HERBICIDES)
Etken madde TRI-ISOPROPANOLAMIN + PICLORAM ,Triizopropanolamin TIPA %85
Formulasyon Sıvı Formülasyonlar (SL Formulations)
Etkili madde miktarı 396+102 g/l
Şekli İthal (Imp.)
Kullanım yeri * Boş arazi, havaalanı ve tarihi alanlarda odunsu bitkiler (At kuyruğu, Püsküllü çayır, Çatalotu, Duvararpası, Tavşan bıyığı, Yapışkan otu, Kandamlası, Horoz ibiği, Çoban çantası, Güneş dikeni, Yabani havuç, Dönbaba, Yoğurt otu, Düğün çiçeği, Yabani hardal, İmam kavuğu, Demirdikeni, Yemlik, Pıtrak, Domuz pıtrağı, Arpamsı brom, Ayrıkotu, Tilki kuyruğu, Köpek dişi ayrığı, Kamış, topş, Hava civa otu, Köygöçüren, Tarla sarmaşığı, Boğa dikeni, Sütleğen, İt sineği, Labada, Köpek üzümü, Kokarot, Karabaş, Kadın tuzluğu, Sarı çiçekli Jasmin, Yabani badem, Yabani gül, Böğürtlen, Söğüt, Gıcır dikeni, Ilgın, Karaağaç, Karaçalı, Çeti, Öküz çanı, Meyan kökü, Meşe, Katır kuyruğu, Yabani zeytin, Hayıt, Yabani yulaf, Yabani fiğ, Portakal nergisi, Yabani tere, Şahtere, Yonca, Kirpidarı, Aküçgül)
* Çim sahalarda Kök sakızı, Sinirotu, Üçgül
Karışabilirlik Yüksek asit ve alkali karakterdeki yabancıot ilaçları hariç diğerleriyle karışabilir.
ÜRÜN ADI: Triizopropanolamin% 85 (TIPA% 85)


Triizopropanolamin TIPA 85% Bir fotografik geliştirici çözücü olan bir farmasötik hammadde olarak kullanılır. Sentetik elyaf endüstrisinde parafin yağı için bir çözücü. Triizopropanolamin ve uzun zincirli yağ asidi tuzunun iyi renk stabilitesine sahip olması, özellikle kozmetikler için bir emülgatör olarak uygundur.
Triisopropanolamine TIPA CAS 122-20-3 bir cross-linker özel niş su bazlı kaplama uygulamalarında kullanılır. Çimento ve Beton Sanayi TIPA taşlama bir yardım olarak kullanın ve beton katkıları kullanılır. TIPA tarım ürünleri ve su bazlı kaplamalar nötralize bir ajan olarak kullanılır.

Triizopropanolamin TIPA %85 fiziksel özellikleri

renk: renksiz veya hafif sarı sıvı
erime noktası: 45℃
kaynama noktası: 305℃
amonyak: çok hafif ammoniacal koku
flaş noktası Min.     130℃
Specifical Gravity(25/4℃): 1.0
viskozitesi (60℃): 141mPas
Triizopropanolamin TIPA %85 belirtimi
görünümü renksiz veya hafif sarı sıvı


su , % 13 + 0,5
diisopropanolamin, % ≤3.0
Triizopropanolamin TIPA , % ≥85.0%

Triizopropanolamin TIPA %85 uygulamalar

çimento katkı maddeleri : artırmak gücü, taşlama verimliliği artırmak ve yoğunlaşma kümenin önlemek için malzeme tüketimini azaltmak.

lastik zinciri : fesih Ajan, lastik performansı geliştirilmiş
poliüretan olabilir: kauçuk zincir, poliüretan
Metal işleme performansı: olarak pas sökücü, tavlama, Şoklama antioksidanlar.

ambalaj

200kg demir / davul.
16mt 20ft kapsayıcı
depolama ve işleme
raf zaman Triizopropanolamin TIPA %85 başına bir yıl ve daha sonra hala bir kimyasal testi geçtikten sonra mevcut olabilir.
her zaman işleme ve bertaraf hakkında ayrıntılı bilgi için malzeme güvenlik veri sayfası (MSDS) için başvurun.

Triizopropanolamin TIPA %85
Ürün Bilgisi
Kimyasal Adı Triizopropanolamin
Triizopropanolamin TIPA %85CAS # 122-20-3
Triizopropanolamin TIPA %85Formül C9H21NO3
Triizopropanolamin TIPA %85Molekül Ağırlığı 191.3
Triizopropanolamin TIPA %85Eşanlamlılar 1.1'.1 "-Nitrilotripropan-2-ol; 1,1 ', 1' '- Nitrilotri-2-propanol
Triizopropanolamin TIPA %85Kimyasal yapı
Açıklama
Triizopropanolamin TIPA %85 orgnik amin ve hidroksil içeren bir hidramin bileşiğidir ve wellit genel bir ifadedir
Monoizopropanolamin (MIPA), Diizopropanolamin (DIPA), Triizopropanolamin (TIPA).


Fiziksel özellikler
Triizopropanolamin TIPA %85 Renk: renksiz veya açık sarı
Triizopropanolamin TIPA %85Erime Noktası: 45 ℃
Triizopropanolamin TIPA %85Kaynama Noktası: 305 ℃
Triizopropanolamin TIPA %85Kokulu: Çok hafif amonyak kokusu
Triizopropanolamin TIPA %85Parlama Noktası Min. 130 ℃
Triizopropanolamin TIPA %85Özgül Ağırlık (25/4 ℃): 1.0
Triizopropanolamin TIPA %85Viskozite (60 ℃): 141mPas


- 2 -
Triizopropanolamin TIPA %85 Ürün özellikleri
Triizopropanolamin TIPA %85Görünüm Renksiz veya açık sarı sıvı
Su,% 13 + 0.5
Diizopropanolamin,% ≤3.0
Triizopropanolamin,% ≥85.0%
Emniyet
Genellikle toksisite, alkalezite göstermez, ancak cildi tahriş etmez. Daha yüksek parlama noktası, elleçleme sırasında malzemenin gözlere dökülmesinin önlenmesi gerekir. Daima Malzeme Güvenliği Veri Sayfasına (MSDS) bakın
Triizopropanolamin TIPA %85 Uygulamaları
Çimento katkı maddeleri: Mukavemeti arttırın, öğütme verimliliğini artırın ve malzeme tüketimini azaltın,
kümenin yoğunlaşmasını önlemek
Kauçuk zincir: sonlandırma ajanı, kauçuk performansı geliştirilebilir
Poliüretan: kauçuk zincir, performansını artırmak poliüretan
Metal işleme: pas sökücü, antioksidanlar, tavlama, söndürme. paketleme
Demir tambur başına 200kg. 20ft konteyner başına 16mt
Depolama ve Taşıma
TIPA% 85'in raf süresi bir yıldır ve daha sonra kimyasal testten geçtikten sonra hala kullanılabilir olabilir. Elleçleme ve imha hakkında ayrıntılı bilgi için daima Malzeme Güvenlik Bilgi Formuna (MSDS) bakın.

Triizopropanolaminin Tanımı: Triizopropanolamin(TIPA / TIPOA), çimento ve beton endüstrileri için bir öğütme yardımcısı olarak kullanılır, çimento öğütme yardımcısının hammaddesidir, ayrıca özel niş su bazlı kaplama uygulamalarında bir çapraz bağlayıcı görevi görebilir. Triizopropanolamin ayrıca tarımsal ürünlerde ve su bazlı kaplamalarda nötralize edici bir ajan olarak da çalışabilir.Triizopropanolamin / TIPA, su azaltıcı ajan olarak aglomerasyon veya topaklaşmayı önleyebilir.Triizopropanolamin/ TIPA, izopren polimerizasyonunda kauçuk terminatör olarak çalışabilir.Triizopropanolamin / TIPA, PU köpük kalitesini artırmak için Çapraz bağlayıcı olarak çalışabilir. korozyon koruması, metal işleme için antioksidan olarak kullanılabilir.

Triisopropanolamin (TIPA) içinde bir çapraz bağlayıcı olarak kullanılır özel niş su bazlı kaplama uygulamaları. çimento ve beton taşlama bir yardım olarak TIPA sanayi kullanın, ve bu kullanılan beton admixtures. TIPA tarım ürünleri nötralize ajan olarak kullanılır ve su bazlı kaplamalar. demir davul paketlenmiş, net ağırlık 200 kg, 1000 KG IBC ve 20 tons flexibag belirtilebilir müşterinin istekleri göre.raf süresi TIPA 85% bir yıl olduğunu, ve sonra o zaman bir kimyasal testi geçti kez hala kullanılabilir. genellikle mevcut hiçbir toksisite, alkalescency ama cildi tahriş yok. yüksek yanıp noktası, bu önlenmelidir işlerken gözlerinin içine dökülmesini malzeme. energying sonuçlanan çimento ve Beton öğütme verimliliği Artırır; yığılma veya slumping önler; su indirgeyici ajan olarak; Runner isoprene in polimerizasyon kür zincir terminator; poliüretan PU köpük kaliteli geliştirmek için çapraz bağlayıcı olarak kullanılır. Metal woring korozyon koruma geliştirmek için, antioksidan. Triisopropanolamin, bir emülgatör, stabilizatör ve kimyasal ara madde de dahil olmak üzere çeşitli endüstriyel uygulamalar için kullanılan bir amindir. Ayrıca, bazı herbisitlerin asidik bileşenlerini nötralize etmek için kullanılır. Triizopropanolamin bir aminoalkoldür ve alkanolamin gruplarına aittir. Oda sıcaklığında sarı katıya beyazdır. Suda tamamen çözünür ve hafif, amonyak benzeri bir koku vardır. Çeşitli uygulamalarda kullanılan çok yönlü bir kimyasaltır. Triizopropanolamin ve Diizopropanolamin beyaz katı maddelerken, izopropanolamin ve Karışık İzopropanolaminler berrak, renksiz sıvılar olarak bulunurlar. Kozmetik ve kişisel bakım ürünlerinde, bu malzemeler kalıcı dalgalar ve diğer saç ürünleri ile banyo, cilt, parfüm ve iç bronzlaşma ürünlerinin formülasyonunda kullanılır. Triisopropanolamine (TIPA), birçok ülkede kullanılan, Emülgatörler, stabilizatörler, kimyasal ara ürünler ve nötrleştiriciler, bazlık, Tamponlama ve alkalinite hedefleri.Başlıca uygulamalar arasında su bazlı kaplama uygulamaları ve tarımsal ürünler yer almaktadır. Ek uygulamalar polimerler için antistat ajanlar, korozyon inhibitörü,Electroposition, electrocoating, yağlayıcılar, kağıt, pigment dispersiyonu, plastikler,Poliüretan katkısı, reaksiyon ara maddeleri, kauçuk kürü, sürfaktan, mineral dağılımı ve üretanlar.Daha soğuk ortam sıcaklıklarında (donma noktası: 5ºC / 41ºF) kullanılması. % 85 oranında bir karışımıdır. Su ile taşınan kaplamalarda: iyi asit nötralizasyonu, suda çözünürlüğü artırır, bloklar. Triizopropanolamin, bir emülgatör, stabilizatör, yüzey aktif madde ve kimyasal ara madde olarak kullanılan çok yönlü bir kimyasaltır. PH'ı nötralize edebilir, bir tampon görevi yapabilir (pH'yı sabitleştirir) veya bir çözeltiye bazlık (alkalinite) ekleyebilir. Başlıca uygulamalar şunları içerir. Kişisel Koruma: Zararlı parçacıklar için P2 filtre solunumu. Tüm ateşleme kaynaklarını sökün. Dökülmüş maddeleri konteynırlara süpürün; Gerekirse tozlanmayı önlemek için önce nemlendirin. Dikkatle kalanı toplayın, daha sonra güvenli bir yere çıkarın. Bu kimyasalın çevreye girmesine izin vermeyin. Triisopropanolamin (TIPA) içinde bir çapraz bağlayıcı olarak kullanılır özel niş su bazlı kaplama uygulamaları. çimento ve beton taşlama bir yardım olarak TIPA sanayi kullanın, ve bu kullanılan beton admixtures. TIPA tarım ürünleri nötralize ajan olarak kullanılır ve su bazlı kaplamalar. demir davul paketlenmiş, net ağırlık 200 kg, 1000 KG IBC ve 20 tons flexibag belirtilebilir müşterinin istekleri göre.raf süresi TIPA 85% bir yıl olduğunu, ve sonra o zaman bir kimyasal testi geçti kez hala kullanılabilir. genellikle mevcut hiçbir toksisite, alkalescency ama cildi tahriş yok. yüksek yanıp noktası, bu önlenmelidir işlerken gözlerinin içine dökülmesini malzeme. energying sonuçlanan çimento ve Beton öğütme verimliliği Artırır; yığılma veya slumping önler; su indirgeyici ajan olarak; Runner isoprene in polimerizasyon kür zincir terminator; poliüretan PU köpük kaliteli geliştirmek için çapraz bağlayıcı olarak kullanılır. Metal woring korozyon koruma geliştirmek için, antioksidan.Triizopropanolamin TIPA %85, bir emülgatör, stabilizatör ve kimyasal ara madde de dahil olmak üzere çeşitli endüstriyel uygulamalar için kullanılan bir amindir. Ayrıca, bazı herbisitlerin asidik bileşenlerini nötralize etmek için kullanılır. Triizopropanolamin bir aminoalkoldür ve alkanolamin gruplarına aittir. Oda sıcaklığında sarı katıya beyazdır. Suda tamamen çözünür ve hafif, amonyak benzeri bir koku vardır. Çeşitli uygulamalarda kullanılan çok yönlü bir kimyasaltır. Triizopropanolamin ve Diizopropanolamin beyaz katı maddelerken, izopropanolamin ve Karışık İzopropanolaminler berrak, renksiz sıvılar olarak bulunurlar. Kozmetik ve kişisel bakım ürünlerinde, bu malzemeler kalıcı dalgalar ve diğer saç ürünleri ile banyo, cilt, parfüm ve iç bronzlaşma ürünlerinin formülasyonunda kullanılır. Triizopropanolamin TIPA %85, birçok ülkede kullanılan, Emülgatörler, stabilizatörler, kimyasal ara ürünler ve nötrleştiriciler, bazlık, Tamponlama ve alkalinite hedefleri.Başlıca uygulamalar arasında su bazlı kaplama uygulamaları ve tarımsal ürünler yer almaktadır. Ek uygulamalar polimerler için antistat ajanlar, korozyon inhibitörü,Electroposition, electrocoating, yağlayıcılar, kağıt, pigment dispersiyonu, plastikler,Poliüretan katkısı, reaksiyon ara maddeleri, kauçuk kürü, sürfaktan, mineral dağılımı ve üretanlar.Daha soğuk ortam sıcaklıklarında (donma noktası: 5ºC / 41ºF) kullanılması. % 85 oranında bir karışımıdır. Su ile taşınan kaplamalarda: iyi asit nötralizasyonu, suda çözünürlüğü artırır, bloklar. Triizopropanolamin, bir emülgatör, stabilizatör, yüzey aktif madde ve kimyasal ara madde olarak kullanılan çok yönlü bir kimyasaltır.Triizopropanolamin TIPA %85 PH'ı nötralize edebilir, bir tampon görevi yapabilir (pH'yı sabitleştirir) veya bir çözeltiye bazlık (alkalinite) ekleyebilir. Başlıca uygulamalar şunları içerir. Kişisel Koruma: Zararlı parçacıklar için P2 filtre solunumu. Tüm ateşleme kaynaklarını sökün. Dökülmüş maddeleri konteynırlara süpürün; Gerekirse tozlanmayı önlemek için önce nemlendirin. Dikkatle kalanı toplayın, daha sonra güvenli bir yere çıkarın. Bu kimyasalın çevreye girmesine izin vermeyin.

 

Triizopropanolamin TIPA %85 fiziksel Formu (25 ° C): Kristal Katı
Triizopropanolamin TIPA %85 renk: Renksiz veya açık sarı
Triizopropanolamin TIPA %85 erime Noktası: 45 ° C
Triizopropanolamin TIPA %85 kaynama Noktası: 305 ° C
Triizopropanolamin TIPA %85 kokulu: Çok hafif ammoniacal koku
Triizopropanolamin TIPA %85 parlama Noktası: 130 ° C
Triizopropanolamin TIPA %85 Özgül ağırlık (25/4 ° C): 1.0
Triizopropanolamin TIPA %85 viskozite (60 ° C): 141 mPas

TIPA 85% (Triisopropanolamine)


Triisopropanolamine 85% Solution
Categories:Fluid
Material Notes: Formula: C9H21NO3
CAS: 122-20-3

Description Triisopropanolamine is a colorless to yellow liquid that is almost odorless. It is fully soluble in water.
Applications: Intermediate used in the production of Lubrification oils, Textile industry, Leather industry and Additive for cement.
TRIISOPROPANOLAMINE Tipa 85%, Tri-2-propanolamine (TIPA 85%)
By bonface -Mar 24, 2016
TRIISOPROPANOLAMINE Tipa 85%, Tri-2-propanolamine (TIPA 85%)

TIPA Triisopropanolamine 85% CAS122-20-3 Manufacture from China

1. Triisopropanolamine (TIPA)
2. CAS No.: 122-20-3
3. 99% 85% 80%
4. for cement grinding aid CGA

INTRODUCTION
Triisopropanolamine is used as a cross-linker in special niche water-based coating applications. The cement and concrete industries use TIPA as a grinding aid, and it is used in concrete admixtures. TIPA is used as a neutralizing agent in agricultural products and water borne coatings.

Specification
TIPA: 85% min.(86%), MIPA+DIPA 0- 2% max, balance is water


PHYSICAL AND CHEMICAL FORM OF Triisopropanolamine TIPA 85%
Physical Form(25°C): Crystalline Solid
Color: Colorless or light yellow
Melting Point: 45°C
Boiling Point: 305°C
Smelling: Very light ammoniacal odor
Flash Point: 130°C
Specific Gravity(25/4°C): 1.0
Viscosity (60°C): 141mPas

 


STORAGE
Shelf time of Triisopropanolamine TIPA 85% is one year, and after then it could still be available once has passed a chemical test.

 

SAFETY & TOXICITY
Generally present no toxicity, alkalescency but do not irritate skin.
Higher flashing point, Triisopropanolamine should be prevented the material from spilling into the eyes while handling.

Triisopropanolamine ( TIPA 85 %)

 

TECHNICAL DATA SHEET OF TRISOPROPANOLAMINE 85 %
PRODUCT : Triisopropanolamine 85%
CAS No.: 122-20-3
Synonyms: Triisopropanolamine 85 %, Tris (2-hydroxypropyl) amine, Tri-2-propanolamine, Tri-iso-propanolamine, Tris (2-propanol) amine
Formula: (CH3CHOHCH2)3 N / C9H21NO3
Molecular Weight: 191.27

SPECIFICATION
Assay: TIPA 85 % Min
Distillation Range:
MIPA Plus DIPA: 5 % Max
Water Content: 10 - 15 %
Specific gravity at 20/20o C:
Colour Colorless to light yellow

OTHER PROPERTIES (PHYSICAL)
Freezing Point : 3-8o C
Refractive Index, n20D :
Dynamic Viscosity, at 25oC, m Pas : 450 - 650
pH of 0.1N Aq.soln. :

Applications:
Grinding Aid in Cement and concrete, Chain terminator in isoprene (rubber) polymerization curing, polyurethane, metal working.
Triisopropanolamine TIPA Chemical Name: 1,1',1''-Nitrilotri-2-propanol

Molecular Formula: C9H21NO3/(CH3CHOHCH2)3 N

CAS No.: 122-20-3

Molecular Weight: 191.27

Description of Triisopropanolamine: Triisopropanolamine (TIPA/TIPOA) is used as a grinding aid for the cement and concrete industries, is the raw material for cement grinding aid, also can act as a cross-linker in special niche water-based coating applications. Triisopropanolamine also can work as a neutralizing agent in agricultural products and water borne coatings.Properties and Uses Of Triisopropanolamine/TIPA:Triisopropanolamine/TIPA can improve the grinding efficiency with energy savings when used in the cement and concrete industries ; Triisopropanolamine/TIPA can prevent from agglomeration or clumping when as water reducing agent.Triisopropanolamine/TIPA can work as rubber curing Chain terminator in isoprene polymerization.Triisopropanolamine/TIPA worked as Cross-linker to improve PU foam quality.Triisopropanolamine/TIPA is used to improve corrosion protection, antioxidant for metal working

Triisopropanolamine Application

Package of Triisopropanolamine:Triisopropanolamine/TIPA is packed with 200 kg/ iron drum, 1000kg IBC drum, flexitank or according to customerâ€TMs requests.Storage and transportation of TIPA:Shelf life of TIPA is at least one year, when one year after the production date, the product can be used only after the re-inspection is passed. When transport, the drum cover should be sealed, the shock, sunshine, rain, heat and fire source should be avoided. The products should be stored in the dry, clean, cool and ventilated warehouse.

Isopropanolamine is a hydramine compound with organic amine and hydroxyl; It is a general expression of Monoisopropanolamine (MIPA), Diisopropanolamine (DIPA), Triisopropanolamine (TIPA).

 

Triisopropanolamine (TIPA %85)
IUPAC Names
1,1′,1"-nitrilotripropan-2-ol; 1-(bis(2-hydroxypropyl)amino)propan-2-ol; Triisopropanolamine

Common Names
1,1′,1"-Nitrilotri-2-propanol; 1,1′,1"-Nitrilotris(2-propanol); 2-Propanol, 1,1′,1"-nitrilotri- (6CI, 8CI); 2-Propanol, 1,1′,1"-nitrilotris- (9CI); NTP; TIPA; Tri-2-propanolamine; Tri-iso-propanolamine; Triisopropanolamin; TRIISOPROPANOLAMINE; TRIISOPROPANOLAMINE 99; TRIISOPROPANOLAMINE LFG 85; TRIISOPROPANOLAMINE, LFG 85; Tris(2-hydroxy-1-propyl)amine; Tris(2-hydroxypropyl)amine; Tris(2-propanol)amine

Triisopropanolamine is a white solid with slight odor of ammonia. Denser than water .

A Low Freeze Grade blend of Triisopropanolamine and 15% water to lower the freezing point for easier handling. A basic chemical used in many applications serving as an emulsifier, stabilizer, chemical intermediate and neutralizer that achieves basicity, buffering and alkalinity objectives.

 

Uses:
Neutralize fatty acids and sulfonic acid-based surfactants
Metalworking fluids
Triisopropanolamine TIPA 85% Used in many applications to achieve basicity, buffering and alkalinity objectives.
Triisopropanolamine TIPA 85% Benefits:
Triisopropanolamine TIPA 85% Good solubilizers of oil and fat
Offer heat and color stability
Low formulation costs.
Properties of Triisopropanolamine TIPA 85%
These values are typical properties and are not intended for use in preparing specifications.


Chemistry
Tri
Performance Benefits
Acid Gas Removal, Acidic Herbicide Neutralization, Concrete Compressive Strength, Corrosion Inhibitor, Grinding Aid, Intermediate, pH Regulator, Pigment Dispersant, Processing Agent, Reactive Agent

Product Name: Triisopropanolamine 85%
Date of revision: 2018/2/1
Version: 4.0
SECTION 4 FIRST-AID MEASURES

 

4.1 Description of first aid measures
General advice:
In all cases of doubt, or when symptoms persist, seek medical attention.
Eye contact:
Immediately flush eyes in clear running water for at least 15 minutes,
lifting upper and lower lids periodically. Get medical consultant
immediately and preferable an eye specialist.
Skin contact:
Wash off in flowing water.
Ingestion:
Seek medical consultant. Do not vomit unless directed to do so by a
medical personnel.
Inhalation:
Remove the patient to fresh air.
4.2 Most important symptoms and effects, both acute and delayed
Causes serious eye irritation.
4.3 Indication of the immediate medical attention and special treatment
needed
No information available.
SECTION 5 FIRE-FIGHTING MEASURES
5.1 Extinguishing Media:
Suitable extinguishing media: Water fog or fine spray, carbon dioxide, dry
chemical, foam. Alcohol resistant foams are preferred if available. Page 3 of 9
Product Name: Triisopropanolamine TIPA 85%
Date of revision: 2018/2/1
Version: 4.0
Unsuitable extinguishing media: Do not use direct water stream. Will spread fire.
5.2 Special hazards arising from the substance or mixture
Thermal decomposition can lead to release of irritating or toxic gases/vapors.
5.3 Advice for fire-fighters
Fire-fighters should wear appropriate breathing apparatus and protective
equipment. Fire-fighting in the wind. Ensure adequate ventilation. Move
container from fire area if it can be done without risk. Cool containers with
water spray. Prevent fire-fighting water from entering surface water or groundwater.
SECTION 6 ACCIDENTAL RELEASE MEASURES of Triisopropanolamine TIPA 85%
6.1 Personal precautions, protective equipment and emergency procedures
Wear adequate protective equipment(Refer to Section 8). Ensure adequate
ventilation. Avoid contact with the skin, eyes and clothing.
6.2 Environmental precautions
Do not discharge into drains/surface waters/groundwater. Discharge into the
environment must be avoided.
6.3 Methods and material for containment and cleaning up
For small amounts: Pick up with suitable appliance and dispose of.
For large amounts: Pick up with suitable appliance and dispose of.


Triisopropanolamine TIPA 85%
Product Information
Triisopropanolamine TIPA 85% Chemical Name Triisopropanolamine
Triisopropanolamine TIPA 85% CAS # 122-20-3
Triisopropanolamine TIPA 85% Formula C9H21NO3
Triisopropanolamine TIPA 85% Molecular Weight 191.3
Triisopropanolamine TIPA 85% Synonyms 1.1'.1"-Nitrilotripropan-2-ol;1,1',1''-Nitrilotri-2-propanol
Triisopropanolamine TIPA 85% Chemical Structure
Triisopropanolamine TIPA 85% Description
Triisopropanolamine TIPA 85% is a hydramine compound with orgnic amine and hydroxyl as wellit is a general expression
of Monoisopropanolamine(MIPA), Diisopropanolamine (DIPA),Triisopropanolamine(TIPA). Physical Properties
Triisopropanolamine TIPA 85% Color: Colourless or slight yellow
Triisopropanolamine TIPA 85% Melting Point: 45℃
Triisopropanolamine TIPA 85% Boiling Point: 305℃
Triisopropanolamine TIPA 85% Smelling: Very light ammoniacal odour
Triisopropanolamine TIPA 85% Flash Point Min. 130℃
Triisopropanolamine TIPA 85% Specifical Gravity(25/4℃): 1.0
Triisopropanolamine TIPA 85% Viscosity (60℃): 141mPas

Items Specification
Appearance Colorless or light yellow liquid
Water, % 13+0.5
Diisopropanolamine,% ≤3.0
Triisopropanolamine ,% ≥85.0%
Safety
Generally present no toxicity, alkalescence but do not irritate skin. Higher flashing point, it should be prevented the material from spilling into the eyes while handling. Always refer to the Material Safety Data Sheet (MSDS)
Applications
Cement additives: Increase strength, improve the grinding efficiency and reduce material consumption, to
prevent condensation of the cluster
Rubber chain: termination agent, rubber performance can be improved
Polyurethane: rubber chain, improve the performance of polyurethane
Metal processing: as rust remover, antioxidants, annealing, quenching. Packaging
200kg per iron drum. 16mt per 20ft container
Storage & Handling
Shelf time of TIPA 98% is one year, and after then it could still be available once has passed a chemical test. Always refer to the Material Safety Data Sheet (MSDS) for detailed information on handling and disposal.

Intermediate in the production of surfactants for the cosmetics industry, cement, corrosion inhibitors, specialty textiles. Other applications such as water-based coatings, antistatic agent for polymers, corrosion inhibitors, lubricants, paper, pigment dispersion and dispersion of minerals. Triisopropanolamine is used as a cross-linker in special niche water-based coating applications. The cement and concrete industries use TIPA as a grinding aid, and it is used in concrete admixtures. TIPA is used as a neutralizing agent in agricultural products and water borne coatings. Cement & Concrete improves the grinding efficiency resulting in energy savings; prevents from agglomeration or clumping; as water reducing agent. Rubber curing Chain terminator in isoprene polymerization. Polyurethane Used as Cross-linker to improve PU foam quality. Metal working to improve corrosion protection, antioxidant. Net weight 200kg/ iron drum ;1000kg IBC drum;20 tons flexibagGenerally present no toxicity, alkalescency but do not irritate skin.Higher flashing point, it should be prevented the material from spilling into the eyes while handling.Professional manufacture ofConcret admixtures-HPEG TPEG APEG and polycarboxylate superplasticizer PCE;Cement grinding aid(CGA) raw material TIPA DEIPA. DCS Automation Control in production line;Hightechnewenterprises,owningoneinvention patents and numbersof patented technology. Shelf time of TIPA is one year, and after then it could still be available once has passed a chemical test.Grinding Aid in Cement and concrete, Chain terminator in isoprene (rubber) polymerization curing, polyurethane, metal working. Triisopropanolamine TIPA CAS 122-20-3 is used as a cross-linker in special niche water-based coating applications. The cement and concrete industries use TIPA as a grinding aid, and it is used in concrete admixtures. TIPA is used as a neutralizing agent in agricultural products and water borne coatings.Shelf time of TIPA 98% is one year, and after then it could still be available once has passed a chemical test.Always refer to the Material Safety Data Sheet (MSDS) for detailed information on handling and disposal. Intermediate in the production of surfactants for the cosmetics industry, cement, corrosion inhibitors, specialty textiles. Other applications such as water-based coatings, antistatic agent for polymers, corrosion inhibitors, lubricants, paper, pigment dispersion and dispersion of minerals. Triisopropanolamine is used as a cross-linker in special niche water-based coating applications. The cement and concrete industries use TIPA as a grinding aid, and it is used in concrete admixtures. TIPA is used as a neutralizing agent in agricultural products and water borne coatings. Cement & Concrete improves the grinding efficiency resulting in energy savings; prevents from agglomeration or clumping; as water reducing agent. Rubber curing Chain terminator in isoprene polymerization. Polyurethane Used as Cross-linker to improve PU foam quality. Metal working to improve corrosion protection, antioxidant. Net weight 200kg/ iron drum ;1000kg IBC drum;20 tons flexibagGenerally present no toxicity, alkalescency but do not irritate skin.Higher flashing point, it should be prevented the material from spilling into the eyes while handling.Professional manufacture ofConcret admixtures-HPEG TPEG APEG and polycarboxylate superplasticizer PCE;Cement grinding aid(CGA) raw material TIPA DEIPA. DCS Automation Control in production line;Hightechnewenterprises,owningoneinvention patents and numbersof patented technology. Shelf time of TIPA is one year, and after then it could still be available once has passed a chemical test.Grinding Aid in Cement and concrete, Chain terminator in isoprene (rubber) polymerization curing, polyurethane, metal working. Triisopropanolamine TIPA CAS 122-20-3 is used as a cross-linker in special niche water-based coating applications. The cement and concrete industries use TIPA as a grinding aid, and it is used in concrete admixtures. TIPA is used as a neutralizing agent in agricultural products and water borne coatings.Shelf time of TIPA 98% is one year, and after then it could still be available once has passed a chemical test.Always refer to the Material Safety Data Sheet (MSDS) for detailed information on handling and disposal.

Specification: TIPA: 85% min.(86%), MIPA+DIPA 0- 2% max, balance is water
Triisopropanolamine TIPA 85% Physical Form(25°C): Crystalline Solid
Triisopropanolamine TIPA 85% Color: Colorless or light yellow
Triisopropanolamine TIPA 85% Melting Point: 45°C
Triisopropanolamine TIPA 85% Boiling Point: 305°C
Triisopropanolamine TIPA 85% Smelling: Very light ammoniacal odor
Triisopropanolamine TIPA 85% Flash Point: 130°C
Triisopropanolamine TIPA 85% Specific Gravity(25/4°C): 1.0
Triisopropanolamine TIPA 85% Viscosity (60°C): 141mPas


la Triisopropanolamine
INTRODUCTION
La triisopropanolamine est utilisée comme agent de réticulation dans des applications spéciales de revêtement à base d'eau de niche. Les industries du ciment et du béton utilisent le TIPA comme auxiliaire de meulage et il est utilisé dans les adjuvants pour béton. Le TIPA est utilisé comme agent neutralisant dans les produits agricoles et les revêtements à base d'eau.

spécification

TIPA: 85% min. (86%), MIPA + DIPA 0-2% max, l'équilibre est de l'eau

PHYSIQUE ET CHIMIQUE
Forme physique (25 ° C): solide cristallin
Couleur: incolore ou jaune clair
Point de fusion: 45 ° C
Point d'ébullition: 305 ° C
Odeur: Odeur ammoniacale très légère
Point d'éclair: 130 ° C
Densité (25/4 ° C): 1,0
Viscosité (60 ° C): 141 mPas


ESPACE DE RANGEMENT
La durée de conservation de la triisopropanolamine est d'un an, et après cela, elle pourrait toujours être disponible une fois qu'elle a passé un test chimique.

SÉCURITÉ ET TOXICITÉ
Ne présentent généralement aucune toxicité, alcalinité mais n'irritent pas la peau.
Point d'éclair plus élevé, la triisopropanolamine doit empêcher le matériau de se répandre dans les yeux lors de la manipulation.

Triisopropanolamine (TIPA 85%)

FICHE TECHNIQUE DE TRISOPROPANOLAMINE 85%
PRODUIT: Triisopropanolamine 85%
No CAS: 122-20-3
Synonymes: Triisopropanolamine 85%, Tris (2-hydroxypropyl) amine, Tri-2-propanolamine, Tri-iso-propanolamine, Tris (2-propanol) amine
Formule: (CH3CHOHCH2) 3 N / C9H21NO3
Poids moléculaire: 191,27

SPÉCIFICATION
Dosage: TIPA 85% Min
Gamme de distillation:
MIPA Plus DIPA: 5% max
Teneur en eau: 10 - 15%
Densité à 20 / 20o C:
Couleur Incolore à jaune clair

AUTRES PROPRIÉTÉS (PHYSIQUES)
Point de congélation: 3-8o C
Indice de réfraction, n20D:
Viscosité dynamique, à 25oC, m Pas: 450 - 650
pH de 0,1 N Aq.soln. :

Applications:
Aide au meulage dans le ciment et le béton, terminateur de chaîne en polymérisation de polymérisation d'isoprène (caoutchouc), polyuréthane, travail des métaux.

Triisopropanolamine TIPA Nom chimique: 1,1 ', 1' '- Nitrilotri-2-propanol

Synonyme: TIPOA, Triisopropanolamine 85%, Tris (2-hydroxypropyl) amine, Tri-2-propanolamine, Tri-iso-propanolamine, Tris (2-propanol) amine

Formule moléculaire: C9H21NO3 / (CH3CHOHCH2) 3 N

No CAS: 122-20-3

Poids moléculaire: 191,27

Description de la triisopropanolamine: la triisopropanolamine (TIPA / TIPOA) est utilisée comme aide au broyage pour les industries du ciment et du béton, est la matière première pour l'aide au broyage du ciment, peut également agir comme agent de réticulation dans des applications de revêtement à base d'eau spéciales. La triisopropanolamine peut également agir comme agent neutralisant dans les produits agricoles et les revêtements à base d'eau. La triisopropanolamine / TIPA peut empêcher l'agglomération ou l'agglomération en tant qu'agent réducteur d'eau. protection contre la corrosion, antioxydant pour le travail des métaux

 

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Triisopropanolamine 85% (TIPA 85%) De broyage du Ciment produits chimiques de construction

Triisopropanolamine TIPA 85% Propriétés du produit
Aspect Liquide incolore ou jaune clair
Eau, 13% + 0,5
Diisopropanolamine, ≤3,0%
Triisopropanolamine,% ≥85,0%
sécurité
Habituellement, il ne présente pas de toxicité, d'alcalinité, mais n'irrite pas la peau. Point d'éclair plus élevé, il est nécessaire d'éviter de renverser le matériau dans les yeux lors de la manipulation. Toujours se référer à la fiche signalétique (FS)
applications
Additifs pour ciment: augmenter la résistance, augmenter l'efficacité de broyage et réduire la consommation de matériau,
prévenir la condensation des grappes
Chaîne en caoutchouc: agent de terminaison, les performances du caoutchouc peuvent être améliorées
Polyuréthane: chaîne en caoutchouc, améliore les performances polyuréthane
Traitement des métaux: antirouille, antioxydants, recuit, trempe. emballage
200 kg par tambour en fer. 16mt par conteneur de 20 pieds
Stockage et transport
La durée de vie de 85% du TIPA est d'un an et peut toujours être utilisée après des tests chimiques. Consultez toujours la fiche signalétique (FS) pour des informations détaillées sur la manipulation et l'élimination.

Description de la triisopropanolamine: la triisopropanolamine (TIPA / TIPOA) est utilisée comme adjuvant de meulage pour les industries du ciment et du béton, elle est la matière première de l'adjuvant de meulage du ciment, elle peut également agir comme réticulant dans des applications de revêtement à base d'eau spéciales. La triisopropanolamine peut également agir comme agent neutralisant dans les produits agricoles et les revêtements à base d'eau. La triisopropanolamine / TIPA peut empêcher l'agglomération ou l'agglomération comme agent réducteur d'eau. La triisopropanolamine / TIPA peut fonctionner comme terminaison en caoutchouc pour la polymérisation de l'isoprène. peut fonctionner comme un connecteur. peut être utilisé comme protection contre la corrosion, antioxydant pour le travail des métaux.

 

 

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